ABCG2 p.Gln141Lys
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PMID: 12479221
[PubMed]
Imai Y et al: "C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance."
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Sentence
Comment
3
Access the articles at: E-mail alerts related to this article or journal.Sign up to receive free email-alerts Subscriptions Reprints and .pubs@aacr.orgDepartment at To order reprints of this article or to subscribe to the journal, contact the AACR Publications Permissions .permissions@aacr.orgDepartment at To request permission to re-use all or part of this article, contact the AACR Publications C421A Polymorphism in the Human Breast Cancer Resistance Protein Gene Is Associated with Low Expression of Q141K Protein and Low-Level Drug Resistance1 Yasuo Imai, Minoru Nakane, Kumie Kage, Satomi Tsukahara, Etsuko Ishikawa, Takashi Tsuruo, Yoshio Miki, and Yoshikazu Sugimoto2 Division of Molecular Biotherapy [Y. I., M. N., K. K., S. T., E. I., Y. S.] and Division of Experimental Chemotherapy [T. T.], Cancer Chemotherapy Center, and Department of Molecular Diagnosis [Y. M.], Cancer Institute, Japanese Foundation for Cancer Research, Tokyo 170-8455, and Institute of Molecular and Cellular Biosciences, University of Tokyo, Tokyo 113-0032 [T. T.], Japan Abstract Breast cancer resistance protein (BCRP) confers multidrug resistance to cancer cells against agents such as SN-38 (an active metabolite of irinotecan), mitoxantrone, and topotecan.
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ABCG2 p.Gln141Lys 12479221:3:507
status: VERIFIED5 BCRP cDNA was isolated from 11 cancer cell lines and three variant cDNAs [G34A substituting Met for Val-12 (V12M), C421A substituting Lys for Gln141 (Q141K), and 944-949 deletion lacking Ala-315 and Thr-316 (⌬315-6)] were identified.
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ABCG2 p.Gln141Lys 12479221:5:134
status: VERIFIEDX
ABCG2 p.Gln141Lys 12479221:5:150
status: VERIFIED10 These results suggest that some people possess the C421A polymorphic BCRP gene and express low amounts of Q141K BCRP.
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ABCG2 p.Gln141Lys 12479221:10:106
status: VERIFIED60 PA317 cells transfected with wild-type, G34A, C421A, and 944-949-deleted BCRP cDNAs were designated PA/WT, PA/V12M, PA/Q141K, and PA/⌬315-6 cells, respectively.
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ABCG2 p.Gln141Lys 12479221:60:119
status: VERIFIED92 Western blotting of mutant BCRP-transfected PA317 cells demonstrated markedly low expression of Q141K BCRP in PA/Q141K cells compared with other BCRP-transfected cells.
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ABCG2 p.Gln141Lys 12479221:92:96
status: VERIFIEDX
ABCG2 p.Gln141Lys 12479221:92:113
status: VERIFIED96 In contrast, Northern blotting demonstrated similar levels of BCRP mRNA in PA/WT, PA/V12M, PA/ Q141K, and PA/⌬315-6 cells (Fig. 3B).
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ABCG2 p.Gln141Lys 12479221:96:27
status: NEWX
ABCG2 p.Gln141Lys 12479221:96:95
status: VERIFIED97 These results suggest that Q141K BCRP is unstable when expressed in mammalian cells.
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ABCG2 p.Gln141Lys 12479221:97:27
status: VERIFIED104 Table 1 BCRP cDNA variants identified in this study Variant Amino acid change Cell line G34A Val-12 to Met MCF-7a C421A Gln-141 to Lys MDA-MB-231a A549a HCT-116a Deletion of 944-949 Deletion of Ala-315 and Thr-316 MCF-7 A549 HT-29 SK-OV-3 a Heterozygous allele.
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ABCG2 p.Gln141Lys 12479221:104:120
status: VERIFIED118 In contrast, PA/Q141K cells showed a 12-fold greater resistance to SN-38 and a 4-fold greater resistance to mitoxantrone (Table 2; Fig. 4A).
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ABCG2 p.Gln141Lys 12479221:118:16
status: VERIFIED119 This means that PA/Q141K cells are 2-3 times more sensitive to these drugs compared with PA/WT cells.
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ABCG2 p.Gln141Lys 12479221:119:19
status: VERIFIEDX
ABCG2 p.Gln141Lys 12479221:119:55
status: NEW120 These results support the low expression of BCRP in PA/Q141K cells.
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ABCG2 p.Gln141Lys 12479221:120:55
status: VERIFIED126 Increases of mean fluorescence channel number in PA/ WT, PA/V12M, and PA/⌬315-6 cells were 1.5-, 1.6-, and 1.5-fold in the presence of topotecan, respectively.
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ABCG2 p.Gln141Lys 12479221:126:51
status: NEWX
ABCG2 p.Gln141Lys 12479221:126:117
status: NEWX
ABCG2 p.Gln141Lys 12479221:126:225
status: NEW127 There was a stronger peak shift to the right in PA/Q141K cells than PA/WT cells, showing that topotecan uptake in PA/Q141K cells was higher than that in PA/WT cells, and the increase of mean fluorescence channel number in PA/Q141K cells was 2.1-fold in the presence of topotecan (Fig. 5).
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ABCG2 p.Gln141Lys 12479221:127:51
status: VERIFIEDX
ABCG2 p.Gln141Lys 12479221:127:80
status: NEWX
ABCG2 p.Gln141Lys 12479221:127:117
status: VERIFIEDX
ABCG2 p.Gln141Lys 12479221:127:225
status: VERIFIED128 This suggests that the topotecan efflux activity of exogenous BCRP is low in PA/Q141K cells.
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ABCG2 p.Gln141Lys 12479221:128:80
status: VERIFIED137 PA317 cells transfected with wild-type, G34A, C421A, and 944-949-deleted BCRP cDNAs were termed PA/WT, PA/V12M, PA/Q141K, and PA/⌬315-6, respectively.
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ABCG2 p.Gln141Lys 12479221:137:115
status: VERIFIED145 Table 2 IC50 a (ng/ml) of BCRP-transfected PA317 cells PA317 PA/WT PA/V12M PA/Q141K PA/⌬315-6 SN-38 2.5 98 98 30 55 Mitoxantrone 0.060 0.58 0.63 0.25 0.42 Topotecan 17 Ͼ200 Ͼ200 100 190 a IC50s (drug dose causing 50% inhibition of cell growth) were determined from cell growth curves in each experiment.
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ABCG2 p.Gln141Lys 12479221:145:78
status: VERIFIED148 PA317 cells transfected with wild-type, G34A, C421A, and 944-949- deleted BCRP cDNAs were termed PA/WT, PA/V12M, PA/Q141K, and PA/⌬315-6, respectively.
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ABCG2 p.Gln141Lys 12479221:148:104
status: NEWX
ABCG2 p.Gln141Lys 12479221:148:116
status: VERIFIED149 A, sensitivity to SN-38 (A-1), mitoxantrone (A-2), and topotecan (A-3) of PA317, PA/WT, PA/V12M, and PA/Q141K cells.
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ABCG2 p.Gln141Lys 12479221:149:104
status: VERIFIED151 F, PA317; E, PA/WT; ‚, PA/V12M; Ⅺ, PA/Q141K; ᭛, PA/⌬315-6.
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ABCG2 p.Gln141Lys 12479221:151:52
status: VERIFIED163 PA/Q141K cells were significantly more sensitive to anticancer agents than the other BCRP transfectants.
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ABCG2 p.Gln141Lys 12479221:163:3
status: VERIFIEDX
ABCG2 p.Gln141Lys 12479221:163:43
status: NEW164 Intracellular topotecan accumulation of PA/Q141K was higher than that in the other BCRP transfectants.
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ABCG2 p.Gln141Lys 12479221:164:43
status: VERIFIED165 By Western blotting, BCRP expression in PA/Q141K cells was markedly lower than that in the other BCRP transfectants.
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ABCG2 p.Gln141Lys 12479221:165:43
status: VERIFIEDX
ABCG2 p.Gln141Lys 12479221:165:139
status: NEW166 Another transfection experiment of mutant BCRP cDNAs in KB-3-1 human epidermoid carcinoma cells also revealed markedly lower expression of Q141K BCRP compared with wild-type and V12M BCRP (data not shown).
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ABCG2 p.Gln141Lys 12479221:166:139
status: VERIFIED168 In the transfection experiment, the expression of C421A BCRP mRNA was identical to those of mRNAs from wild-type, G34A, and 944-949-deleted BCRP by Northern blotting.
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ABCG2 p.Gln141Lys 12479221:168:85
status: NEW169 Therefore, the increased sensitivity was considered to be a result of instability of Q141K BCRP.
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ABCG2 p.Gln141Lys 12479221:169:85
status: VERIFIED186 PA317 cells transfected with wild-type, G34A, C421A, and 944-949- deleted BCRP cDNAs were termed PA/WT, PA/V12M, PA/Q141K, and PA/⌬315-6, respectively.
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ABCG2 p.Gln141Lys 12479221:186:116
status: VERIFIED188 In parental PA317 cells, a fluorescence peak shift to the right after the incubation with topotecan indicates cellular uptake of topotecan, whereas only marginal shifts occurred in PA/WT, PA/V12M, and PA/⌬315-6 cells.
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ABCG2 p.Gln141Lys 12479221:188:64
status: NEW189 There was a stronger fluorescence peak shift to the right in PA/Q141K cells than the other transfectants (arrow).
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ABCG2 p.Gln141Lys 12479221:189:64
status: VERIFIED2 Access the articles at: E-mail alerts related to this article or journal.Sign up to receive free email-alerts Subscriptions Reprints and .pubs@aacr.orgDepartment at To order reprints of this article or to subscribe to the journal, contact the AACR Publications Permissions .permissions@aacr.orgDepartment at To request permission to re-use all or part of this article, contact the AACR Publications C421A Polymorphism in the Human Breast Cancer Resistance Protein Gene Is Associated with Low Expression of Q141K Protein and Low-Level Drug Resistance1 Yasuo Imai, Minoru Nakane, Kumie Kage, Satomi Tsukahara, Etsuko Ishikawa, Takashi Tsuruo, Yoshio Miki, and Yoshikazu Sugimoto2 Division of Molecular Biotherapy [Y. I., M. N., K. K., S. T., E. I., Y. S.] and Division of Experimental Chemotherapy [T. T.], Cancer Chemotherapy Center, and Department of Molecular Diagnosis [Y. M.], Cancer Institute, Japanese Foundation for Cancer Research, Tokyo 170-8455, and Institute of Molecular and Cellular Biosciences, University of Tokyo, Tokyo 113-0032 [T. T.], Japan Abstract Breast cancer resistance protein (BCRP) confers multidrug resistance to cancer cells against agents such as SN-38 (an active metabolite of irinotecan), mitoxantrone, and topotecan.
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ABCG2 p.Gln141Lys 12479221:2:507
status: NEW4 BCRP cDNA was isolated from 11 cancer cell lines and three variant cDNAs [G34A substituting Met for Val-12 (V12M), C421A substituting Lys for Gln-141 (Q141K), and 944-949 deletion lacking Ala-315 and Thr-316 (⌬315-6)] were identified.
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ABCG2 p.Gln141Lys 12479221:4:134
status: NEWX
ABCG2 p.Gln141Lys 12479221:4:151
status: NEW9 These results suggest that some people possess the C421A polymorphic BCRP gene and express low amounts of Q141K BCRP.
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ABCG2 p.Gln141Lys 12479221:9:106
status: NEW59 PA317 cells transfected with wild-type, G34A, C421A, and 944-949-deleted BCRP cDNAs were designated PA/WT, PA/V12M, PA/Q141K, and PA/⌬315-6 cells, respectively.
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ABCG2 p.Gln141Lys 12479221:59:119
status: NEW91 Western blotting of mutant BCRP-transfected PA317 cells demonstrated markedly low expression of Q141K BCRP in PA/Q141K cells compared with other BCRP-transfected cells.
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ABCG2 p.Gln141Lys 12479221:91:96
status: NEWX
ABCG2 p.Gln141Lys 12479221:91:113
status: NEW95 In contrast, Northern blotting demonstrated similar levels of BCRP mRNA in PA/WT, PA/V12M, PA/ Q141K, and PA/⌬315-6 cells (Fig. 3B).
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ABCG2 p.Gln141Lys 12479221:95:95
status: NEW103 Table 1 BCRP cDNA variants identified in this study Variant Amino acid change Cell line G34A Val-12 to Met MCF-7a C421A Gln-141 to Lys MDA-MB-231a A549a HCT-116a Deletion of 944-949 Deletion of Ala-315 and Thr-316 MCF-7 A549 HT-29 SK-OV-3 a Heterozygous allele.
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ABCG2 p.Gln141Lys 12479221:103:120
status: NEW117 In contrast, PA/Q141K cells showed a 12-fold greater resistance to SN-38 and a 4-fold greater resistance to mitoxantrone (Table 2; Fig. 4A).
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ABCG2 p.Gln141Lys 12479221:117:16
status: NEW136 PA317 cells transfected with wild-type, G34A, C421A, and 944-949-deleted BCRP cDNAs were termed PA/WT, PA/V12M, PA/Q141K, and PA/⌬315-6, respectively.
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ABCG2 p.Gln141Lys 12479221:136:115
status: NEW144 Table 2 IC50 a (ng/ml) of BCRP-transfected PA317 cells PA317 PA/WT PA/V12M PA/Q141K PA/⌬315-6 SN-38 2.5 98 98 30 55 Mitoxantrone 0.060 0.58 0.63 0.25 0.42 Topotecan 17 Ͼ200 Ͼ200 100 190 a IC50s (drug dose causing 50% inhibition of cell growth) were determined from cell growth curves in each experiment.
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ABCG2 p.Gln141Lys 12479221:144:78
status: NEW147 PA317 cells transfected with wild-type, G34A, C421A, and 944-949- deleted BCRP cDNAs were termed PA/WT, PA/V12M, PA/Q141K, and PA/⌬315-6, respectively.
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ABCG2 p.Gln141Lys 12479221:147:116
status: NEW150 F, PA317; E, PA/WT; ‚, PA/V12M; Ⅺ, PA/Q141K; ᭛, PA/⌬315-6.
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ABCG2 p.Gln141Lys 12479221:150:52
status: NEW162 PA/Q141K cells were significantly more sensitive to anticancer agents than the other BCRP transfectants.
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ABCG2 p.Gln141Lys 12479221:162:3
status: NEW185 PA317 cells transfected with wild-type, G34A, C421A, and 944-949- deleted BCRP cDNAs were termed PA/WT, PA/V12M, PA/Q141K, and PA/⌬315-6, respectively.
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ABCG2 p.Gln141Lys 12479221:185:116
status: NEW
PMID: 12544509
[PubMed]
Zamber CP et al: "Natural allelic variants of breast cancer resistance protein (BCRP) and their relationship to BCRP expression in human intestine."
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Comment
4
Of the missense mutations, exon 2 SNP (G34A) resulted in a V12M change; exon 5 SNP (C421A) resulted in a Q141K substitution; exon 6 SNP (A616C) resulted in an I206L amino acid substitution; and exon 15 SNP (A1768T) resulted in a N590Y change in the BCRP protein.
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ABCG2 p.Gln141Lys 12544509:4:105
status: VERIFIED95 Exon 5 One SNP, a C421A transversion, results in a Gln141 Lys change.
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ABCG2 p.Gln141Lys 12544509:95:51
status: VERIFIED119 Table 1 Frequencies of BCRP alleles in different ethnic groups Position in gene AC084732Ã Position in mRNA XM_032424Ã Sequence Region Caucasians African-Americans Japanese (n ¼ 20) Chinese (n ¼ 20) SE Asians (not Chinese or Japanese) (n ¼ 20) Pacific Islanders (n ¼ 14) À18398 À29 gctct(A/G)ttaag Exon 1 0.02 (1.5%)a 0 (0%)e ND ND ND ND 34 34 tccca(G/A)tgtca Exon 2 (V12M) 0.02 (4.7%)b 0.04 (8.3%)f 0.15 (30%) 0.20 (40%) 0.45 (70%) 0.64 (85.7%) 114 114 ttaag(T/C)tttca Exon 2 0.01 (1.2%)b 0 (0%)f 0 (0%) 0 (0%) 0 (0%) 0 (0%) 239 tttta (A/G)tttac Intron 2 0.03 (5.9%)c 0.05 (9.5%)g 0.15 (30%) 0.20 (40%) 0.45 (70%) 0.64 (85.7%) 8184 369 ggtta(C/T)gtggt Exon 4 0 (0%)a 0.07 (13.3%)e ND ND ND ND 8825 421 actta(C/A)agttc Exon 5 (Q141K) 0.14 (25.9%)d 0 (8%)f 0.35 (50%) 0.35 (60%) 0.15 (20%) 0.14 (28.6%) 18186 attat(A/G)atatt Intron 5 0 (0%)c 0 (8%)g 0 (0%) 0.05 (10%) 0 (0%) 0 (0%) 18286 616 cttcc(A/C)tcttg Exon 6 (I206L) 0 (0%)a 0 (8%)e 0 (0%) 0 (0%) 0 (0%) 0 (0%) 45073 1768 gacaa(A/T)acttc Exon 15 (N590Y) 0.01 (1.5%)a 0 (8%)e ND ND ND ND Position in gene AC084732Ã Position in mRNA XM_032424Ã Sequence Region Mexican-Indians (n ¼ 10) Mexicans (n ¼ 20) Hispanic Livers (n ¼ 10) Middle Eastern (n ¼ 40) Ashkenazi Jewish (n ¼ 20) Africans North of Sahara (n ¼ 14) À18398 À29 gctct(A/G)ttaag Exon 1 ND ND ND ND ND ND 34 34 tccca(G/A)tgtca Exon 2 (V12M) 0.90 (100%) 0.10 (20%) 0.40 (60%) 0.05 (10%) 0.10 (20%) 0.14 (14.3%) 114 114 ttaag(T/C)tttca Exon 2 0 (0%) 0 (0%) 0 (0%) 0 (0%) 0 (0%) 0 (0%) 239 tttta(A/G)tttac Intron 2 0.90 (100%) 0.10 (20%) 0.40 (60%) 0.05 (10%) 0.10 (20%) 0.14 (14.3%) 8184 369 ggtta(C/T)gtggt Exon 4 ND ND ND ND ND ND 8825 421 actta(C/A)agttc Exon 5 (Q141K) 0.10 (20%) 0.05 (10%) 0.10 (20%) 0.13 (25%) 0.05 (10%) 0 (0%) 18186 attat(A/G)atatt Intron 5 0 (0%) 0.10 (20%) 0 (0%) 0 (0%) 0.05 (10%) 0.07 (14.3%) 18286 616 cttcc(A/C)tcttg Exon 6 (I206L) 0 (0%) 0 (0%) 0.10 (20%) 0 (0%) 0 (0%) 0 (0%) 45073 1768 gacaa(A/T)acttc Exon 15 (N590Y) ND ND ND ND ND ND Data reported as: allele frequency (% individuals with at least one variant allele).
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ABCG2 p.Gln141Lys 12544509:119:766
status: VERIFIEDX
ABCG2 p.Gln141Lys 12544509:119:1765
status: VERIFIED125 Unauthorized reproduction of this article is prohibited. G34A V12M Exon 2 C71T1 A24V Exon 2 623C1 F208S Exon 6 A616C I206L Exon 6 C496G1 Q166E Exon 5 C421A Q141K Exon 5 A1444G2 R482G Exon 12 G1445C3 R482T Exon 12 A1768T N590Y Exon 15 Walker A motif: amino acids 80-89 Walker B motif: amino acids 206-210 SNPs found in human samples in this study Reported in ABCP1 Drug selected variants, MXR2 and BCRP3 MXR BCRP Fig. 1 BCRP protein topology and the positions of the identified SNPs resulting in missense mutations.
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ABCG2 p.Gln141Lys 12544509:125:156
status: VERIFIED127 BCRP mRNA was compared to BCRP SNP C421A; Gln141 Lys.
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ABCG2 p.Gln141Lys 12544509:127:42
status: VERIFIED135 However, 16 individuals were heterozygous for the 421C.A transversion, leading to the Gln141 Lys change.
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ABCG2 p.Gln141Lys 12544509:135:86
status: VERIFIED146 Unauthorized reproduction of this article is prohibited. 400.0 300.0 200.0 100.0 0.0 BCRPmRNA(%ofHI11as100%) (a) CC CA Q141K 400.0 300.0 200.0 100.0 0.0BCRPmRNA(%ofHI11as100%) (b) Female Male CC - Gln141 CA - Lys141 Fig. 3 Comparison of BCRP genotype and BCRP phenotype in human intestines.
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ABCG2 p.Gln141Lys 12544509:146:119
status: VERIFIED147 The BCRP SNP C421A; Gln141 Lys was compared to the (a) amount of BCRP mRNA transcript in all human intestines.
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ABCG2 p.Gln141Lys 12544509:147:20
status: VERIFIED173 The Val12 Met and the Gln141 Lys were the most frequent allelic variants.
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ABCG2 p.Gln141Lys 12544509:173:22
status: VERIFIED176 The Gln141 Lys was the most prevalent allele in both the Japanese and Chinese populations with an allelic frequency of 35%.
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ABCG2 p.Gln141Lys 12544509:176:4
status: VERIFIED189 The most commonly observed SNP detected in these samples was the exon 5 C421A (Gln141 to Lys) with an allelic frequency of 19%.
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ABCG2 p.Gln141Lys 12544509:189:79
status: VERIFIED
PMID: 12642696
[PubMed]
Honjo Y et al: "Single-nucleotide polymorphism (SNP) analysis in the ABC half-transporter ABCG2 (MXR/BCRP/ABCP1)."
No.
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Comment
6
Nonsynonymous SNPs at nucleotide 238 (V12M; exon 2) and nucleotide 625 (Q141K; exon 5) showed a greater frequency of heterozygosity (22.2% and 10%) than the SNP at 2062 (D620N; exon 16).
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ABCG2 p.Gln141Lys 12642696:6:72
status: VERIFIED104 Amplification in the MCF-7 SINGLE-NUCLEOTIDE POLYMORPHISM (SNP) ANALYSIS IN THE ABC HALF-TRANSPORTER ABCG2 (MXR/BCRP/ABCP1) www.landesbioscience.com Cancer Biology & Therapy 699 Table 2 PRIMERS USED IN SEQUENCING 90 DNA SAMPLES Forward Primer (5`-> 3`) Reverse Primer (5`-> 3`) Exon 1 TGCCCACTCAAAAGGTTC CCAACCCACACTTAACACAC Exon 2 TGTCACCTAGTGTTTGCAATC GCCAGTTTCTTGGAAATAGCC Exon 3 AATCCTGCTTTGGTCTCC TCTCCCATTCTTTTTCCTC Exon 4 AGCATGTGTTGGAGGGAAAA ATCAGCCAAAGCACTTACCC Exon 5 GCAGGCTTTGCAGACATCTA TGCTGATCATGATGCTTTCA Exon 6 TCTTACAGGACTGGCACACG CCCCAAGAATATCTGGGACA Exon 7 TCAGGCTGAACTAGAGCAAACA CAAACAGCACTCCTGCAGAC Exon 8 CATGGGAAGAAGAGAGAAAG GTTGACTGGTATCAGAAGAC Exon 9 ACTCCTGACCTCGTAATCC GAAGCAGATGATAACAGAACC Exon 10 TCTAATTGAAACTCTTCCCC AGTTCGAAGCCAGTCTAGC Exon 11 TGAGTTGACTGCGGTGATTT GTAATCCTCCGGATCCCATC Exon 12 GTCTAGCCCTGAGGATGTGG TGCAAAATGGACAGGTGTTT Exon 13 CAGACACAACATTGGAGAC TAAGGGCAAAGAGGAAAG Exon 14 CTGCATGAAATTACTCAAGC CCATCCTCTCATTTACTTCC Exon 15 AAACTGTTTACCTTGCCC GCACCTCACTTCAATCTC Exon 16 GAGTAACATTTGACGGATG CTCTACTCTACCCACAGTTC Table 3 RESULTS OF SNP ANALYSIS OF 16 EXONS ENCODING ABCG2* Wild-type Frequency Frequency Frequency Amino Acid Exon Nucleotide+ allele SNP Wt/Wt Wt/Var Var/Var aa# 1 91 C T 98.9% 1.1% Noncoding 175 A G 97.8% 2.2% Noncoding 2 238 G A 76.7% 22.2% 1.1% 12 Val to Met 5 625 C A 88.9% 10% 1.1% 141 Gln to Lys 9 1302 G A 97.8% 2.2% 366 Glu to Glu 12 1629 A G 98.9% 1.1% 475 Leu to Leu 16 2062 G A 98.9% 1.1% 620 Asp to Asn 2597 C A 98.9% 1.1% Noncoding Intronic Variants 2 +36** A G 76.7% 22.2% 1.1% 6 -16 A G 88.9% 8.9% 2.2% 7 -20 T A 98.9% 1.1% +18 A G 93.3% 5.6% 1.1% 11 +20 A G 63.3% 27.8% 8.9% 12 +49 G T 75.6% 22.2% 2.2% 14 -21 C T 67.8% 28.9% 3.3% *Identified SNPs are recorded in the table with all 16 exons sequenced in 90 DNA samples.
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ABCG2 p.Gln141Lys 12642696:104:1348
status: VERIFIED
PMID: 12694888
[PubMed]
Backstrom G et al: "Genetic variation in the ATP-binding cassette transporter gene ABCG2 (BCRP) in a Swedish population."
No.
Sentence
Comment
6
The sequence variations considered to be most likely to affect transcription level or transport function were a CTCA deletion in the 59 flanking region, a single nucleotide polymorphism (SNP) in a 59 flanking CpG island, two non-synonymous SNPs, changing valine at amino acid position 12 to methionine and glutamine at position 141 to lysine, respectively.
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ABCG2 p.Gln141Lys 12694888:6:306
status: VERIFIED7 Genotyping of these sequence variations revealed linkage between the CTCA deletion and the SNP changing glutamine 141 for lysine.
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ABCG2 p.Gln141Lys 12694888:7:104
status: VERIFIED62 Because To determine allele frequencies for the sequence varia- of the highly repetitive sequences surrounding exon 10, Table 2 Sequence variation in the human ABCG2 gene identified in the present study Sequence variant Nucleotide sequence (59 to 39) Affected Effect Identity to a ID DHPLC dbSNP b c Reference sequence Alteration pools g.-19572-19569 actcaCTCAcaaag actca caaag 15 59 Flanking deletion ss 4480605 ]] ]]]]d delCTCA g.-19202G.C gtactGatcag gtactCatcag 5 CpG island SNP rs 2231134 ] ] g.-18845T.C tgagcTcgtcc tgagcCcgtcc 8 59 UTR SNP rs 2231135 ] ] g.-18604delA cggcaAggagg cggca ggagg 1 59 UTR deletion ss 4480606 ] ]d g.34G.A tcccaGtgtca tcccaAtgtca 2 Missense SNP rs 2231137 ] ] Val12Met g.8007G.A ttggaGggaaa ttggaAggaaa 3 Intronic SNP ss 4480607 ] ]d g.8825C.A acttaCagttc acttaAagttc 4 Missense SNP rs 2231142 ] ] Gln141Lys d g.44997G.A ttcttAaaatt ttcttGaaatt 9 Intronic SNP rs 2231164 ] ] a Sequence variant ID in accordance with the nomenclature for sequence variation described at http://www.dmd.nl/mutnomen.html.
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ABCG2 p.Gln141Lys 12694888:62:833
status: VERIFIED78 The deletion (g.-19572-19569delCTCA) was identified in the g.8825C.A SNP (Gln141Lys) occurred at a frequency of 59 flanking region.
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ABCG2 p.Gln141Lys 12694888:78:74
status: VERIFIED86 A one-base deletion (g.-18604delA) and 1 disequilibrium was observed over the region between SNP (g.-18845T.C) were detected in the untranslated g.-19572-19569delCTCA and g.8825C.A (Gln141Lys) exon 1.
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ABCG2 p.Gln141Lys 12694888:86:182
status: VERIFIED115 We also report the allele fre- g.8825C.A and low expression of the Gln141Lys ABCG2 quencies for four identified sequence variations, and the protein (Imai et al., 2002), suggested to be due to the degree of linkage disequilibrium over the region studied.
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ABCG2 p.Gln141Lys 12694888:115:67
status: VERIFIED208 Influence of CYP2C9 of Q141K protein and low-level drug resistance.
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ABCG2 p.Gln141Lys 12694888:208:23
status: VERIFIED
PMID: 14576842
[PubMed]
Doyle LA et al: "Multidrug resistance mediated by the breast cancer resistance protein BCRP (ABCG2)."
No.
Sentence
Comment
127
Allelic variation as a result of SNPs results in alterations of the BCRP protein at amino acids 12 (V12M), 141 (Q141K), 206 (I206L), and 590 (N590Y), with the most frequent polymorphisms being the exon 2 SNP (G34A) and the exon 5 SNP (C421A), which produce changes in amino acids 12 and 141 (Honjo et al., 2002; Imai et al., 2002a; Zamber et al., 2003).
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ABCG2 p.Gln141Lys 14576842:127:112
status: VERIFIED129 The effect of these polymorphisms on BCRP function remains to be determined, although one study suggested that the C421A/Q141K variant may result in Structure of the Human BCRP (ABCG2) Gene and Promoter (Chromosome 4q22) BCRP Gene Walker A Walker B TM 1,2 TM 3,4 TM 5,6 ABC Signature 1 2 3 4 5 6 7 8 9 10 11121314 15 16 NH2 COOHBCRP Protein -450 -400 -350 -300 -250 -200 -150 - -50 0 50 100 150 BCRP 5` Upstream Region (Promoter) Sp1 Sp1 5` AP1 Predicted Promoter CCAAT box CpG Island >66 kb / 2.4 kb 655 aa 100 (Chromosome 4q22) BCRP Gene Walker A Walker B TM 3,4 TM 5,6 ABC Signature 1 2 3 4 5 6 7 8 9 10 11121314 15 16 COOHBCRP Protein - - - - - BCRP 5` Upstream Region (Promoter) Sp1 Sp1AP1 Predicted Promoter CCAAT box CpG Island >66 kb / 2.4 kb 655 aa Figure 3 Structure of BCRP gene and promoter.
X
ABCG2 p.Gln141Lys 14576842:129:121
status: VERIFIED
PMID: 14750175
[PubMed]
Mizuarai S et al: "Single nucleotide polymorphisms result in impaired membrane localization and reduced atpase activity in multidrug transporter ABCG2."
No.
Sentence
Comment
2
In this study, we analyzed the effects of polymorphisms in ABCG2, V12M and Q141K on transporter function.
X
ABCG2 p.Gln141Lys 14750175:2:75
status: VERIFIED3 When polarized LLC-PK1 cells were transfected with variant ABCG2, drug-resistance to topoisomerase I inhibitor of cells expressing V12M or Q141K was less than 1/10 that of wild-type ABCG2 transfected cells, and was accompanied by increased drug accumulation and decreased drug efflux in the variant ABCG2-expressing cells.
X
ABCG2 p.Gln141Lys 14750175:3:139
status: VERIFIED6 Also, ATPase activities measured in the membrane of SF9 cells infected with variant ABCG2 showed that Q141K decreased activity by 1.3 below that of wild-type ABCG2.
X
ABCG2 p.Gln141Lys 14750175:6:102
status: VERIFIED7 In addition, kinetic analysis of ATPase activity showed that the Km value in Q141K was 1.4-fold higher than that of wild-type ABCG2.
X
ABCG2 p.Gln141Lys 14750175:7:77
status: VERIFIED15 Homozygous CC patients expressed lower P-gp in the intestine compared to TT patients, resulting in increased digoxin plasma concentration after orally administered digoxin.21 Another report showed that a naturally occurring mutation of R433S in MRP1 caused increased organic anion transport and decreased doxorubicin resistance.22 Several groups have reported naturally occurring ABCG2 SNPs in various ethnic populations, including Caucasian, Asian and African.23-27 In those reports, polymorphisms at V12M and Q141K occurred at high frequency in most of the ethnic populations.
X
ABCG2 p.Gln141Lys 14750175:15:511
status: VERIFIED17 For example, Q141K polymorphism has been reported to reduce protein expression level compared to wild-type ABCG2 in vitro;24 however, this observation was not confirmed by in vivo analysis using intestinal samples.25 Mutations at R482 have been well characterized by several groups including our previous studies,17,28-30 demonstrating that they affect drug resistance and are considered mutations acquired during drug selection and not naturally occurring polymorphisms.
X
ABCG2 p.Gln141Lys 14750175:17:13
status: VERIFIED21 The previously reported polymorphisms,V12M and Q141K, had high frequencies of 10.3% and 9.0%, respectively.
X
ABCG2 p.Gln141Lys 14750175:21:47
status: VERIFIED22 Drug resistance to the ABCG2 substrate, indolocarbazole topoisomerase I inhibitor, was reduced more than 10-fold in polarized cells that expressed variant ABCG2 with either V12M or Q141K compared Abbreviations: ABC, ATP-binding cassette; ABCP1, placenta-specific ABC transporter; BCRP, breast cancer-resistant protein; GFP, green fluorescent protein; in; HRP, horse radish peroxidase; MDR, multidrug resistance protein; MRP, multidrug resistance-associated prote; MXR, mitoxantrone resistance protein; P-gp, P-glycoprotein; PVDF, polyvinylidene difluoride; Sf9 cells, Spodoptera frugiperda ovarian cells; SNPs, single nucleotide polymorphisms.
X
ABCG2 p.Gln141Lys 14750175:22:181
status: VERIFIED28 We concluded that the functional impairment of these 2 variants were due to disturbance of apical plasma membrane localization for V12M and reduced ATPase activity for Q141K, indicating ABCG2 gene SNPs may greatly influence resistance to ABCG2 substrate.
X
ABCG2 p.Gln141Lys 14750175:28:168
status: VERIFIED43 Establishment of LLC-PK1 cells expressing wild-type and mutant ABCG2 Wild-type ABCG2 and mutated ABCG2 genes (G34A for V12M and C421A for Q141K), the point mutations of which were introduced by PCR mutagenesis, were cloned into HindIII and XhoI sites of pcDNA3.1(ϩ) (Invitrogen).
X
ABCG2 p.Gln141Lys 14750175:43:138
status: VERIFIED61 Drug efflux assay LLC-PK1 cells were incubated with the indicated concentration of indolocarbazole compound for 120 min under energy-depleted TABLE I - SINGLE NUCLEOTIDE POLYMORPHISMS IN ABCG21 SNP Effect Region Domain Frequency in 30 cell lines Frequency in 150 clinical samples Hetero Home Hetero Homo Allele (%) G34A V12M Exon2 N-terminal 5 (16.7%) 0 27 (18.0%) 2 (1.3%) 10.3 Aϩ10G Intron3 ND ND 21 (14.0%) 4 (2.7%) 9.7 C369T Wobble Exon4 ABC 0 0 1 (0.67%) 0 0.3 C376T Q126Term Exon4 ABC 0 1 (3.3%) 0 0 0.0 C421A Q141K Exon5 ABC 5 (16.7%) 1 (3.3%) 22 (15.3%) 2 (1.3%) 9.0 C458T T153M Exon5 ABC 1 (3.3%) 0 0 0 0.0 C474T Wobble Exon5 ABC 0 0 1 (0.67%) 0 0.3 Aϩ20G Intron11 ND ND 34 (22.7%) 10 (6.7%) 18.0 A1444G R482G Exon12 TM3 0 0 0 0 0.0 G1445C R482T Exon12 TM3 0 0 0 0 0.0 C-21T Intron13 ND ND 32 (21.3%) 4 (2.7%) 13.3 A1768T N590Y Exon15 EC3 0 0 1 (0.67%) 0 0.3 G2237T Exon16 3ЈUTR 1 (3.3%) 0 0 0 0.0 G2393T Exon16 3ЈUTR 1 (3.3%) 0 0 0 0.0 The positions of the polymorphisms correspond to that of the ABCG2 cDNA (GenBank accession number AB051855) with the first base of the ATG start codon set to 1.
X
ABCG2 p.Gln141Lys 14750175:61:522
status: VERIFIED89 Samples of 7 g RNA extracted from HeLa, control C4, WT, V12M and Q141K cells (lanes 1, 2, 3, 4 and 5 respectively) were subjected to Northern hybridization and the blots were probed with a cDNA fragment of ABCG2.
X
ABCG2 p.Gln141Lys 14750175:89:73
status: VERIFIED92 Vector transformant C4 (a) and stable clones expressing wild-type (b), V12M (c) and Q141K (d) were stained with monoclonal antibody BXP-34.
X
ABCG2 p.Gln141Lys 14750175:92:84
status: VERIFIED102 Two polymorphisms, V12M and Q141K, had high frequency rates of 10.3% and 9.0%, respectively, in the 150 Caucasian subjects.
X
ABCG2 p.Gln141Lys 14750175:102:28
status: VERIFIED103 V12M was located at the N-terminal intracellular region and Q141K at the ATP-binding cassette region.
X
ABCG2 p.Gln141Lys 14750175:103:60
status: VERIFIED108 LLC-PK1 cells expressing WT, V12M and Q141K were incubated with opti-MEM with 50 M (A) or 0.5 M (B) of radiolabeled topoisomerase inhibitor for 180 min.
X
ABCG2 p.Gln141Lys 14750175:108:38
status: VERIFIED119 TABLE II - RESISTANT PROFILE (IC50) OF ABCG2 TO ANTI-CANCER COMPOUNDS Anti-cancer compound IC50 (M)1 Control C4 Wild type V12M Q141K TopoI inhibitor2 0.12 Ͼ50 (420) 0.94 (7.8) 5.9 (49) Mitoxantrone 0.0015 0.029 (19) 0.00093 (0.62) 0.0053 (3.5) Topotecan 0.098 2.1 (22) 0.16 (1.7) 0.48 (4.9) Doxorubicin 0.010 0.039 (3.9) 0.0073 (0.73) 0.014 (1.4) Vincristine 0.0034 0.0053 (1.6) 0.0021 (0.62) 0.0058 (1.7) Camptothecin 0.0087 0.021 (2.4) 0.012 (1.4) 0.027 (3.1) 1 Relative resistances to control cells are described in parentheses.-2 TopoI inhibitor, Indolocarbazole topoisomerase I inhibitor.
X
ABCG2 p.Gln141Lys 14750175:119:135
status: VERIFIED120 Resistance profile of variant ABCG2 transporters to anticancer compounds Among the polymorphisms detected, V12M and Q141K had a high frequency of amino acid substitutions.
X
ABCG2 p.Gln141Lys 14750175:120:116
status: VERIFIED123 Northern blotting and immunocytochemical analysis with a monoclonal antibody revealed that approximately equal levels of ABCG2 were expressed in V12M and Q141K clones compared to the expression in the wild-type (WT) clone (Fig. 1).
X
ABCG2 p.Gln141Lys 14750175:123:154
status: VERIFIED125 Wild-type cells conferred greater than 420-fold higher resistance to an indolocarbazole I topoisomerase inhibitor compared to that of control C4 cells as previously reported.10 In contrast, IC50 values of variant ABCG2 clones, V12M and Q141K, were less than 1/10 that of WT cells.
X
ABCG2 p.Gln141Lys 14750175:125:236
status: VERIFIED127 The IC50 values of WT cells to mitoxantrone and topotecan increased 19- and 22-fold, respectively, over C4 cells, whereas in the variant V12M and Q141K cells, IC50 values to mitoxantrone and topotecan decreased as observed with the indolocarbazole compound.
X
ABCG2 p.Gln141Lys 14750175:127:146
status: VERIFIED130 Accumulation and efflux assay of topoisomerase I inhibitor in ABCG2 variant-expressing cells Increased sensitivities of V12M and Q141K cells are thought to arise from changes in the intracellular drug concentration of topoisomerase I inhibitor.
X
ABCG2 p.Gln141Lys 14750175:130:129
status: VERIFIED134 However, significantly higher indolocarbazole topoisomerase I inhibitor accumulation was observed in both V12M and Q141K cells compared to that in WT cells (2.7and 1.8-fold higher, respectively).
X
ABCG2 p.Gln141Lys 14750175:134:115
status: VERIFIED135 A drug accumulation assay performed at a low dose (0.5 M) of the compound confirmed that compound accumulations increased in variant cell lines (3.1and 2.8-fold increase for V12M and Q141K, respectively).
X
ABCG2 p.Gln141Lys 14750175:135:191
status: VERIFIED141 Compared to WT cells, Vmax of V12M and Q141K cells decreased 2.5-and 1.8-fold, respectively, indicating that the increased drug accumulation and consequent reduction in drug resistance were due to the decreased efflux velocity.
X
ABCG2 p.Gln141Lys 14750175:141:39
status: VERIFIED145 Vmax values of V12M and Q141K decreased 2.2- and 1.7-fold, respectively, which agrees well with the results of drug efflux assays using cell lines.
X
ABCG2 p.Gln141Lys 14750175:145:24
status: VERIFIED153 In Q141K cells, ABCG2 staining was detected in the apical side, similar to WT cells (Fig. 3d).
X
ABCG2 p.Gln141Lys 14750175:153:3
status: VERIFIED163 (A) Control C4 cells; (B) and E, WT cells; (C,F), V12M cells; (D,G), Q141K cells.
X
ABCG2 p.Gln141Lys 14750175:163:69
status: VERIFIED167 In WT and Q141K cells, apical membrane staining of ABCG2 was detected (Fig. 3E,G).
X
ABCG2 p.Gln141Lys 14750175:167:10
status: VERIFIED170 The expected pattern of apical staining with anti-ABCG2 antibody was observed in wild-type and Q141K variant expressing cell lines, whereas dispersed staining was confirmed in V12M cells (data not shown).
X
ABCG2 p.Gln141Lys 14750175:170:95
status: VERIFIED172 ATPase activity of variant ABCG2 Since Q141K was mapped in the ATP-binding cassette region, ATPase activity of the variant transporters was measured.
X
ABCG2 p.Gln141Lys 14750175:172:39
status: VERIFIED177 However, the ATPase activity of Q141K was reduced by about 1.3-fold compared to that of wild-type ABCG2.
X
ABCG2 p.Gln141Lys 14750175:177:32
status: VERIFIED182 We concluded that Q141K and V12M polymorphisms did not restore drug stimulation, which was observed in R482 mutant.
X
ABCG2 p.Gln141Lys 14750175:182:18
status: VERIFIED184 In the Q141K membrane, the Vmax value of ATPase activity decreased 1.3-fold in accordance with the values of Figure 4A.
X
ABCG2 p.Gln141Lys 14750175:184:7
status: VERIFIED185 Unexpectedly, the Km value of Q141K also increased 1.4-fold compared to that of WT (0.64 mM; WT, 0.64 mM; V12M, 0.91 mM; Q141K).
X
ABCG2 p.Gln141Lys 14750175:185:30
status: VERIFIEDX
ABCG2 p.Gln141Lys 14750175:185:121
status: VERIFIED188 DISCUSSION In our study, we confirmed the locations and frequencies of SNPs in ABCG2 using 30 cancer cell lines and 150 Caucasian clinical samples, and then characterized the functional effects of the major SNPs, V12M and Q141K (Fig. 5).
X
ABCG2 p.Gln141Lys 14750175:188:222
status: VERIFIED192 Membrane fractions isolated from Sf9 cells expressing wild-type, V12M and Q141K ABCG2 transporters were subjected to Western blotting with BXP-21 monoclonal antibody.
X
ABCG2 p.Gln141Lys 14750175:192:74
status: VERIFIED203 the impaired function of ABCG2, membrane localization of transporter for V12M and ATPase activity for Q141K.
X
ABCG2 p.Gln141Lys 14750175:203:102
status: VERIFIED210 The other variant, Q141K, also reduced drug resistance against previously known ABCG2 substrates when it was expressed in LLC-PK1 cells.
X
ABCG2 p.Gln141Lys 14750175:210:19
status: VERIFIED212 Several mutagenesis studies on ABC transporters have shown that introduced mutations in the ABC domain completely disrupted ATPase activity.30,38,39 For example, an induced mutation in ABCG2 prevented K86M from transporting ABCG2 substrates due to the loss of ATPase activity.30 When measured in the Sf9 membrane containing ABCG2 transporters, ATPase activity of Q141K was 1.3-fold lower than that of wild-type ABCG2, although the effect on ATPase activity was relatively moderate compared to that of the introduced mutation at K86M.
X
ABCG2 p.Gln141Lys 14750175:212:363
status: VERIFIED213 While K86M was located at the walker catalytic region in the ABC domain, Q141K was located between the walkerA and walkerB regions.
X
ABCG2 p.Gln141Lys 14750175:213:73
status: VERIFIED214 In addition to the changes in ATPase activity of Q141K, the Km value of Q141K was different from that of WT by a factor of 1.4.
X
ABCG2 p.Gln141Lys 14750175:214:49
status: VERIFIEDX
ABCG2 p.Gln141Lys 14750175:214:72
status: VERIFIED215 The change in Km value infers that the difference in ATPase activity of Q141K and WT might be larger than 1.3-fold at the physiological concentration of ATP.
X
ABCG2 p.Gln141Lys 14750175:215:72
status: VERIFIED216 Previously, the effects of Q141K on protein and mRNA expression were investigated in an ABCG2-overexpressing murine cell line24 or human clinical intestinal samples.25 The initial report showed that murine PA317 cells expressing Q141K increased intracellular drug accumulation compared to cells expressing WT ABCG2, coupled with reduced protein levels with similar mRNA expression, suggesting that the translation efficiency of ABCG2 was the cause of this phenomenon.
X
ABCG2 p.Gln141Lys 14750175:216:27
status: VERIFIEDX
ABCG2 p.Gln141Lys 14750175:216:229
status: VERIFIED217 In contrast, a second study involving 32 human intestinal samples demonstrated no correlation between the amount of ABCG2 protein and Q141K polymorphism.
X
ABCG2 p.Gln141Lys 14750175:217:134
status: VERIFIED218 Our study, using polarized LLC-PK1, agreed with the latter study in that Q141K did not affect ABCG2 protein expression; instead, it showed impaired Q141K transporting function.
X
ABCG2 p.Gln141Lys 14750175:218:73
status: VERIFIEDX
ABCG2 p.Gln141Lys 14750175:218:148
status: VERIFIED219 We also confirmed this observation using Sf9 membranes containing a similar amount of ABCG2 protein, in which WTand Q141K-expressing cells exhibited altered ATPase activity.
X
ABCG2 p.Gln141Lys 14750175:219:116
status: VERIFIED224 Three identified variants, which affect transporter function, were designated as V12M (1), Q126Term (2) and Q141K (3).
X
ABCG2 p.Gln141Lys 14750175:224:108
status: VERIFIED
PMID: 14754410
[PubMed]
Han B et al: "Multidrug resistance in cancer chemotherapy and xenobiotic protection mediated by the half ATP-binding cassette transporter ABCG2."
No.
Sentence
Comment
108
Nonsynonymous SNPs at nucleotide 238 (Val12 Met; exon 2) and nucleotide 625 (Gln141 Lys; exon 5) showed a greater frequency of heterozygosity (22.2% and 10%, respectively) than the SNP at 2062 (Asp620 Asn; exon 16).
X
ABCG2 p.Gln141Lys 14754410:108:77
status: VERIFIED113 Two non-synonymous SNPs, Val12 Met and Gln141 Lys, were also identified, which are consistent with the study by Honjo et al. [25].
X
ABCG2 p.Gln141Lys 14754410:113:39
status: VERIFIED115 Genotyping of these sequence variations revealed linkage between the CTCA deletion and the SNP of Gln141 Lys.
X
ABCG2 p.Gln141Lys 14754410:115:98
status: VERIFIED
No.
Sentence
Comment
294
Also a C421A polymorphism has been reported which substitutes lysine for glutamine at position 141 of the transporter.
X
ABCG2 p.Gln141Lys 15134482:294:62
status: VERIFIED
No.
Sentence
Comment
127
These SNPs yield ABCG2 variants containing V12M and Q141K.
X
ABCG2 p.Gln141Lys 15165903:127:52
status: VERIFIED
PMID: 15170677
[PubMed]
Yoshikawa M et al: "Novel camptothecin analogues that circumvent ABCG2-associated drug resistance in human tumor cells."
No.
Sentence
Comment
169
This type of variation (Gln141Lys) has hitherto been reported as a naturally occurring SNP of ABCG2.
X
ABCG2 p.Gln141Lys 15170677:169:24
status: VERIFIED170 The Gln141Lys polymorphism has recently been identified in healthy Japanese volunteers as well.29 We investigated the effects of this SNP on the substrate specificity of ABCG2, using ABCG2-transfected cells with Gln at amino acid 141.
X
ABCG2 p.Gln141Lys 15170677:170:4
status: VERIFIED
PMID: 15229462
[PubMed]
Sparreboom A et al: "Diflomotecan pharmacokinetics in relation to ABCG2 421C>A genotype."
No.
Sentence
Comment
56
Frequencies for studied variant genes and genotype-phenotype relationships Polymorphism and nomenclature Effect Allele frequencies Ratio (q/p) for intravenous AUC Ratio (q/p) for oral AUC p q Value† P value Value† P value ABCG2 421CϾA Q141K 0.88 0.12 2.98 .015 1.15 .74 ABCC2-24CϾT 5'-UTR 0.89 0.11 0.868 .82 0.890 .78 ABCC2 1249GϾA V417I 0.86 0.14 1.06 .92 2.10 .063 ABCC2 156231AϾG Intron 3 1.00 0.00 NA NA NA NA ABCB1 1236CϾT‡ (ABCB1*8§) G411G 0.40 0.60 0.877 .82 0.585 .31 ABCB1 2677GϾA/T (ABCB1*7§) A893S/T 0.63 0.34/0.03 0.784 .61 1.27 .55 ABCB1 3435CϾT‡ (ABCB1*6§) I1145I 0.45 0.55 0.978 .97 0.955 .93 CYP3A4 -392AϾG (CYP3A4*1B) Promotor 0.91 0.09 0.731 .63 0.834 .75 CYP3A4 15713TϾC‡ (CYP3A4*2) S222P 1.00 0.00 NA NA NA NA CYP3A4 23172TϾC (CYP3A4*3) M445T 1.00 0.00 NA NA NA NA CYP3A5 22893GϾA‡ (CYP3A5*3) Splice Variant 0.86 0.14 0.808 .77 0.813 .76 CYP3A5 30597GϾA (CYP3A5*6) Splice Variant 1.00 0.00 NA NA NA NA AUC, Area under plasma concentration-time curve normalized to dose (ie, observed AUC/dose in milligrams); NA, not available.
X
ABCG2 p.Gln141Lys 15229462:56:255
status: VERIFIED78 Plasma concentration-time profiles of diflomotecan as a function of ABCG2 421CϾA (Q141K) genotype (in which open symbols are homozygous wild-type patients [n ϭ 15] and solid symbols are heterozygous variant patients [n ϭ 5] receiving a 20-minute intravenous infusion of diflomotecan at a dose of 0.1-0.27 mg).
X
ABCG2 p.Gln141Lys 15229462:78:88
status: VERIFIED87 The studied variant in ABCG2 is a single nucleotide polymorphism causing a nonsynonymous change in the protein sequence, in which a 421C to A transition at exon 5 leads to a lysine to glutamine amino acid substitution at codon 141 (Q141K).
X
ABCG2 p.Gln141Lys 15229462:87:232
status: VERIFIED91 Area under curve (AUC) of diflomotecan as a function of ABCG2 421CϾA (Q141K) genotype.
X
ABCG2 p.Gln141Lys 15229462:91:76
status: VERIFIED
PMID: 15355921
[PubMed]
de Jong FA et al: "ABCG2 pharmacogenetics: ethnic differences in allele frequency and assessment of influence on irinotecan disposition."
No.
Sentence
Comment
23
In particular, a single nucleotide polymorphism in exon 5 of the ABCG2 gene has been described in which a 421CϾA transversion results in an amino acid change of glutamine to lysine at codon 141 (14-16).
X
ABCG2 p.Gln141Lys 15355921:23:167
status: VERIFIED108 However, the low frequency of ABCG2 421A (Ͻ 1%) in this population is in line with earlier observations in Africans north of the Fig. 1 Boxplot of dose-normalized AUC of irinotecan (A), SN-38 (B), and SN-38G (C) as a function of the ABCG2 421CϾA (Q141K) genotype.
X
ABCG2 p.Gln141Lys 15355921:108:259
status: VERIFIED
PMID: 15475413
[PubMed]
Kobayashi D et al: "Functional assessment of ABCG2 (BCRP) gene polymorphisms to protein expression in human placenta."
No.
Sentence
Comment
3
In placentas, G34A (Val12 Met) and C421A (Gln141 Lys) were frequently observed (18-36%), but C376T, which creates a stop codon (Gln126 stop codon), was found with an allelic frequency of 1%.
X
ABCG2 p.Gln141Lys 15475413:3:42
status: VERIFIED110 Of these, five SNPs resulted in the following amino acid substitutions: G34A (Val12Met), C376T (Gln126stop), C421A (Gln141Lys), G1322A (Ser441Asn), and T1465C (Phe489Leu).
X
ABCG2 p.Gln141Lys 15475413:110:116
status: VERIFIED112 C376T, which is associated with an amino acid substitution from Gln to a stop codon at codon 126 (Gln126stop), was detected in only two placental samples (1.0%) as TABLE 1 Genetic polymorphism in the BCRP gene in Japanese placentas (n ϭ 100) Location Positiona Reference Alleleb Variant Allele Amino Acid Substitution Genotype Frequency of Variant Allele R/R R/V V/V 5Ј-Flanking region -20445 gtctCctcc gtctTctcc 98 2 0 0.010 -20296 agctAttaa agctGttaa 80 18 2 0.110 -19781 aaaaAttat aaaaGttat 99 1 0 -19572_-19569 ctcaCTCAcaaa ctca--caaa 60 33 7 0.235 Exon 2 34 cccaGtgtc cccaAtgtc Val12Met 70 24 6 0.180 Intron 2 203 ϩ 16 tttaAttta tttaGttta 70 24 6 0.180 Intron 3 263 ϩ 10 tataAgaga tataGgaga 85 14 1 0.080 263 ϩ 72 ttttGtgtg ttttTGtgtg 99 1 0 0.005 Exon 4 376 ggtaCaagt ggtaTaagt Gln126stop 98 2 0 0.010 Exon 5 421 cttaCagtt cttaAagtt Gln141Lys 42 45 13 0.355 Intron 5 532-16 ttatAatat ttatGatat 99 1 0 0.005 Exon 9 1098 aggaGatca aggaAatca Synonymous 98 2 0 0.010 Intron 10 1277 ϩ 95 atagTgtaa atagAgtaa 97 3 0 0.015 Exon 11 1322 agcaGtgtt agcaAtgtt Ser441Asn 99 1 0 0.005 Intron 11 1367 ϩ 20 ttctAggaa ttctGggaa 71 25 4 0.165 Exon 12 1465 tataTttac tataCttac Phe489Leu 99 1 0 0.005 Intron 12 1492 ϩ 49 ctatGggtg ctatCggtg 44 45 11 0.335 Exon 13 1515 atgcCttct atgc-ttct Phe506Ser 99 1 0 0.005 Phe507Leu Val508Leu Met509stop Intron 13 1648-42 tgaaAttac tgaaTttac 99 1 0 0.005 1648-21 gactCttag gactTttag 71 25 4 0.165 Intron 14 1738-46 tcttAaaat tcttGaaat 24 52 24 0.500 3Ј-UTR 2332 cttcAgtct cttcTAgtct 86 14 0 0.070 2364 tgccAttat tgccCttat 99 1 0 0.005 2512 agaaCttac agaaTttac 99 1 0 0.005 R, reference allele; V, variant allele.
X
ABCG2 p.Gln141Lys 15475413:112:869
status: VERIFIED148 SNP Amino Acid Change Population Genotypes Frequency of Variant Allele R/R R/V V/V G34A Val12Met Japanese (n ϭ 120) 81 37 2 0.17 (0.12-0.22) Caucasian (n ϭ 150) 139 11 0 0.04 (0.02-0.06) African American (n ϭ 150) 132 17 1 0.06 (0.04-0.09) C376T Gln126stop Japanese (n ϭ 120) 118 2 0 0.01 (0.00-0.02) Caucasian (n ϭ 150) 150 0 0 0.00 African American (n ϭ 150) 150 0 0 0.00 C421A Gln141Lys Japanese (n ϭ 120) 61 45 14 0.30 (0.25-0.36) Caucasian (n ϭ 150) 121 25 4 0.11 (0.08-0.15) African American (n ϭ 150) 144 5 1 0.02 (0.01-0.04) R, reference allele; V, variant allele.
X
ABCG2 p.Gln141Lys 15475413:148:416
status: VERIFIED169 Among the nonsynonymous polymorphisms, G34A (Val12Met) and C421A (Gln141Lys) appeared commonly in Japanese subjects, and allelic frequencies of these polymorphisms were in keeping with those of a previous report (Imai et al., 2002).
X
ABCG2 p.Gln141Lys 15475413:169:66
status: VERIFIED
No.
Sentence
Comment
3
The cellular localization was identified using the wild type and seven different SNP variants of BCRP (V12M, Q141K, A149P, R163K, Q166E, P269S, and S441N BCRP) after transfection of their cDNAs in plasmid vector to LLC-PK1 cells.
X
ABCG2 p.Gln141Lys 15553238:3:109
status: VERIFIED7 The expression levels of Q141K and S441N BCRP proteins were significantly lower compared with the wild type and the other five variants.
X
ABCG2 p.Gln141Lys 15553238:7:25
status: VERIFIED8 Furthermore, the transport activity of E1S, DHEAS, MTX, and PAH normalized by the expression level of BCRP protein was almost the same for the wild type, V12M, Q141K, A149P, R163K, Q166E, and P269S BCRP.
X
ABCG2 p.Gln141Lys 15553238:8:160
status: VERIFIED10 These results suggest that Q141K SNPs may associate with a lower expression level, and S441N SNPs may affect both the expression level and cellular localization.
X
ABCG2 p.Gln141Lys 15553238:10:27
status: VERIFIED26 On analyzing the specimens from the 100 Japanese volunteers, 7 kinds of SNPs were identified for the BCRP gene: G34A (V12M), C376T (Q376Stop), C421A (Q141K), G1098A (E366E), G1322A (S441N), T1465C (F489L), and C1515- (AFFVM505-509ASSL Stop).
X
ABCG2 p.Gln141Lys 15553238:26:150
status: VERIFIED27 The allele frequencies of these SNPs are 18, 1, 36, 1, 0.5, 0.5, and 0.5%, respectively. In the 84 cell lines, 7 kinds of SNPs were identified and their frequency for G34A (V12M), C376T (Q126Stop), C421A (Q141K), G445C (A149P), G488A (R163K), C805T (P269S), and G1098A (E366E) are 22, 3, 29, 1, 0.6, 0.6 and 2%, respectively.
X
ABCG2 p.Gln141Lys 15553238:27:205
status: VERIFIED29 We constructed expression systems for the wild type and SNPs variants of BCRP (V12M, Q141K, A149P, R163K, Q166E, P269S, S441N BCRP) and examined whether these SNPs variants of BCRP alter its localization, expression level, and transport activity.
X
ABCG2 p.Gln141Lys 15553238:29:85
status: VERIFIED42 Using site-directed mutagenesis, SNP variants of BCRP (V12M, Q141K, A149P, R163K, Q166E, P269S and S441N BCRP) were constructed on pcDNA3.1 vector (SNPs type BCRP/pcDNA3.1).
X
ABCG2 p.Gln141Lys 15553238:42:61
status: VERIFIED44 Q141K BCRP was amplified with 5Ј-CGGTGAGAGAAAACT- TAAAGTTCTCAGCAG-3Ј and `-GCTGCTGAGAACTT- TAAGTTTTCTCTCACCG-3Ј.
X
ABCG2 p.Gln141Lys 15553238:44:0
status: VERIFIED52 For SNPs type BCRPs, viruses were prepared in the same way, resulting in the production of pAd-SNPs BCRP (pAd-V12M, Q141K, A149P, R163K, Q166E, P269S, and S441N BCRP).
X
ABCG2 p.Gln141Lys 15553238:52:116
status: VERIFIED97 Except for two BCRP variants (Q141K and S441N BCRP), the expression levels of each BCRP SNPs were approximately the same as that of the wild-type BCRP (Fig. 2).
X
ABCG2 p.Gln141Lys 15553238:97:30
status: VERIFIED98 The expression level of Q141K BCRP was approximately 30-40% of the wild-type BCRP, whereas that of S441N BCRP was much lower, and could not be determined with any accuracy (Fig. 2).
X
ABCG2 p.Gln141Lys 15553238:98:24
status: VERIFIED110 Except for two SNP variants of BCRP (Q141K and S441N BCRP), the ATP-dependent uptakes per mg membrane protein of SNP variants (V12M, A149P, R163K, Q166E, P269S BCRP) were similar to that of the wild-type BCRP (Fig. 3a).
X
ABCG2 p.Gln141Lys 15553238:110:37
status: VERIFIED111 The uptake activity of Q141K BCRP per mg membrane protein was approximately 30-40% of the wild-type BCRP, and that of S441N was almost the same as that of the GFP-infected control cells.
X
ABCG2 p.Gln141Lys 15553238:111:23
status: VERIFIED114 As shown in Fig. 3b, the transport activity of other SNP variants of BCRP (V12M, Q141K, A149P, R163K, Q166E, and P269S BCRP) was almost identical to that of the wild-type BCRP.
X
ABCG2 p.Gln141Lys 15553238:114:81
status: VERIFIED115 As far as V12M and Q141K BCRP were concerned, these have a high allele frequency in Japanese and we determined the kinetic parameters for the transport of [3 H]E1S.
X
ABCG2 p.Gln141Lys 15553238:115:19
status: VERIFIED116 As shown in Fig. 4, the ATP-dependent uptake of [3 H]E1S was saturable, and the Km values were 11.6 ± 4.79, 9.07 ± 1.52, and 14.0 ± 7.27 M, and the Vmax values were 13.3 ± 3.3, 13.5 ± 1.29, and 4.57 ± 1.58 nmol min-1 mg-1 protein, for the wild type, V12M, and Q141K BCRP, respectively. In addition to [3 H]E1S, the transport of other BCRP substrates was examined.
X
ABCG2 p.Gln141Lys 15553238:116:298
status: VERIFIED120 Figure 5a shows the ATP-dependent uptake of DHEAS, PAH, and MTX per mg membrane protein for the wild-type and SNPs BCRP (V12M, Q141K, A149P, R163K, Q166E, P269S, and S441N BCRP).
X
ABCG2 p.Gln141Lys 15553238:120:127
status: VERIFIED121 Although Q141K BCRP exhibited a lower activity than wild type BCRP, no significant transport was observed for S441N BCRP (Fig. 5a).
X
ABCG2 p.Gln141Lys 15553238:121:9
status: VERIFIED133 Q141K BCRP showed a lower expression level, which is approximately 30-40% of that of the wild type.
X
ABCG2 p.Gln141Lys 15553238:133:0
status: VERIFIED134 This result is consistent with the previous report that the transfection of Q141K BCRP cDNA to PA317 cells and KB-3-1 human cells also resulted in lower expression levels (19).
X
ABCG2 p.Gln141Lys 15553238:134:76
status: VERIFIED137 Although more detailed analysis is required to clarify the mechanism governing the reduced protein expression of Q141K BCRP, immunohistochemical staining revealed that this variant is expressed on the plasma membrane and, therefore, the altered cellular localization may not be related to the reduced protein level.
X
ABCG2 p.Gln141Lys 15553238:137:113
status: VERIFIED139 In addition, in the human intestine, the expression of BCRP mRNA was similar in subjects with wild type and Q141K BCRP genes, whereas there was no significant correlation between the protein and mRNA levels for BCRP (20).
X
ABCG2 p.Gln141Lys 15553238:139:108
status: VERIFIED140 It has also been suggested that linkage disequilibrium is present between a CTCA deletion in the 5Ј-flanking region (g-19572-19569) and Q141K in Swedish subjects (21).
X
ABCG2 p.Gln141Lys 15553238:140:142
status: VERIFIED162 For these compounds, our results indicated that the transport activity per BCRP molecule for 6 kinds of SNP variants (V12M, A149P, R163K, Q166E, P269S, and also Q141K BCRP) is almost the same as that of the wild type BCRP (Figs.
X
ABCG2 p.Gln141Lys 15553238:162:161
status: VERIFIED173 Saturation of [3 H]E1S transport was determined for the wild-type, V12M, and Q141K BCRP.
X
ABCG2 p.Gln141Lys 15553238:173:77
status: VERIFIED180 Furthermore, the Km values for E1S were similar between the wild type, V12M and Q141K BCRP (Fig. 4).
X
ABCG2 p.Gln141Lys 15553238:180:80
status: VERIFIED181 It has been reported that there is a marked ethnic difference in the frequency of Q141K SNPs, and this is the prevalent allele in the Japanese population (19,21).
X
ABCG2 p.Gln141Lys 15553238:181:82
status: VERIFIED183 In particular, the frequency of the Q141K variant was 29-36% in the Japanese, whereas the frequency in 26 Caucasians subjects was only 8%.
X
ABCG2 p.Gln141Lys 15553238:183:36
status: VERIFIED188 Since pheophorbide a is also transported by human BCRP (10), it is likely that Q141K and S441N SNPs may be involved in the phototoxicity and protoporphyria induced by the intake of chlorophyll.
X
ABCG2 p.Gln141Lys 15553238:188:79
status: VERIFIED190 These data suggest that the ability to protect stem cells from some genotoxic xenobiotics might be lower in subjects who have Q141K and S441N SNPs in BCRP gene.
X
ABCG2 p.Gln141Lys 15553238:190:126
status: VERIFIED197 Since BCRP also transports SN-38 (28), it is possible that subjects who have Q141K or S441N SNPs variants of BCRP are more sensitive to SN-38.
X
ABCG2 p.Gln141Lys 15553238:197:77
status: VERIFIED198 In conclusion, we have shown that two kinds of SNP variants of BCRP (Q141K and S441N BCRP) are associated with the reduced expression.
X
ABCG2 p.Gln141Lys 15553238:198:69
status: VERIFIED200 Since the allele frequency of Q141K in Japanese subjects is as high as 29-36%, it is possible that the interindividual variations in in vivo disposition of BCRP substrates may result from the genotype of BCRP.
X
ABCG2 p.Gln141Lys 15553238:200:30
status: VERIFIED
PMID: 15598215
[PubMed]
Wang H et al: "Linkage disequilibrium and haplotype architecture for two ABC transporter genes (ABCC1 and ABCG2) in Chinese population: implications for pharmacogenomic association studies."
No.
Sentence
Comment
57
SNP Nucleotide sequence Minor allele dbSNP ID effect position (major/minor) frequency (%) ABCC1 1 5`FR/-1862 gacccG/Aggcca 44.4 2 5`FR/-1830 atcctA/Gtctac 1.9 3 5`FR/-1680 gaggaG/Aaaaag 1.9 4 5`FR/-471 cggatA/Gctgtc 7.4 5 E2/218 caaaaC/Tcaaaa 3.7 Thr73Ile 6 I2/-26 gttgtG/Aggggg 1.9 rs8187842 7 I3/-66 ctgggT/Cgacaa 37.0 rs4148337 8 I7/+54 ccactC/Actgtg 9.3 rs903880 9 I7/+64 ggcctC/Gaatcc 48.1 rs246232 10 E8/816 cagccG/Agtgaa 1.9 wobble 11 E8/825 aaggtT/Cgtgta 38.9 rs246221 wobble 12 E9/1062 gtgaaT/Cgacac 35.2 rs35587 wobble 13 I9/+8 aggggA/Gcgctg 37.0 rs35588 14 I12/-37 cactcA/Ggggca 20.4 rs35604 15 E13/1684 tggccT/Ctgtgc 20.4 rs35605 wobble 16 I13/+105 ccggtC/Tgggct 20.4 rs35606 17 I14/+105 ccagcC/Tgcttg 1.9 18 I15/+627 gctgtA/Gtttta 25.8 rs35628 19 I15/+669 aatctG/Ttagaa 7.4* rs4148353 20 I15/-967 ctttcT/Ggctgt 37.0 rs152029 21 E16/2007 atcccC/Tgaagg 3.7 rs2301666 wobble 22 E17/2168 tctccG/Aagaaa 5.6 rs4148356 Arg723Gln 23 I18/-30 gcactG/Cacgtg 16.7 rs2074087 24 I22/+62 aattaT/Ctccct 27.8 rs3887893 25 I22/-43 gtcagC/Ttccct 3.7 26 E27/3915 gaggaC/Tctgga 1.9 wobble 27 E28/4002 aagtcG/Atccct 11.1 rs2239330 wobble 28 I28/-35 tcagcA/Gtgaca 27.8 rs212087 29 I30/+30 gcacaG/Atggcc 29.6 rs212088 30 3`UTR/+801 accccC/Gactcc 33.3 rs129081 noncoding 31 3`UTR/+866 tactgT/Atccca 14.8 rs212090 noncoding 32 3`FR/+1513 gttctT/Ctaagg 27.8 ABCG2 1 5`UTR/-407 cgcagC/Tgcctc 1.9 2 5`UTR/-376 ggggaG/Acgctc 1.9 3 E2/34 tcccaG/Atgtca 20.4 rs2231137 Val12Met 4 I2/+36 ttttaA/Gtttac 25.9 rs4148152 5 I3/+10 gtataA/Ggagag 20.4 rs2231138 6 E5/421 acttaC/Agttct 22.2 rs2231142 Gln141Lys 7 E7/805 acgggC/Tctgct 3.7 Pro269Ser 8 I9/-126 agccaT/Gtgagt 7.4 9 I11/+20 gttctA/Gggaac 31.5 rs2231153 10 I12/+49 cctatG/Tggtga 16.7 rs2231156 11 I13/+40 tgtttT/Ctttcc 24.1 rs2231157 12 I13/-21 tgactC/Tttagt 29.6 rs2231162 13 I14/-46 ttcttG/Aaaatt 48.1 rs2725267 SNPs in specific regions, i.e. 5`flanking region (5`FR), 5`untranslated region (5`UTR), intron (I), exon (E), 3`UTR, and 3`FR, are presented as region/+(-): for 5`FR and 5`UTR, n nucleotides upstream (-) from the translation initiation site; for 3`UTR and 3`FR, n nt downstream (+) from the third base of stop codon; for coding regions, n corresponds to positions of their cDNA with the first base of start codon set to 1; and for introns, n nt upstream (-) from 3` site or downstream (+) from 5` site of introns.
X
ABCG2 p.Gln141Lys 15598215:57:1572
status: VERIFIED
PMID: 15618737
[PubMed]
Itoda M et al: "Eight novel single nucleotide polymorphisms in ABCG2/BCRP in Japanese cancer patients administered irinotacan."
No.
Sentence
Comment
46
Information on ABCG2WBCRP single nucleotide polymorphisms (SNPs) has been published.8-10) Five naturally occurring nonsynonymous SNPs have been reported in Japanese and Caucasians: V12M, Q126Stop, Q141K, I206L, and N590Y.8-10) SNP Q126Stop was found in 3 out of 124 healthy Japanese subjects.9) Since it may be possible that ABCG2WBCRP polymorphisms are associated with the eŠectiveness and adverse eŠects of irinotecan, ABCG2WBCRP exons and their ‰anking regions were sequenced to identify Japanese speciˆc SNPs.
X
ABCG2 p.Gln141Lys 15618737:46:197
status: VERIFIED126 Masaya ITODA, et al.SNP18 (216) Novel ABCG2 SNPs SNP19 (217) tion of ABCG2WBCRP haplotypes in conjunction with other frequently found SNPs, including non-synonymous ones (34GÀA (V12M, SNP frequency 19z) and 421CÀA (Q141K, SNP frequency 33z)) in the Japanese population.
X
ABCG2 p.Gln141Lys 15618737:126:227
status: VERIFIED128 MPJ6äAG2012 was closely associated with the known SNP, IVS1-99GÀA (rs1584481, ssj0001922), but not with the SNPs, 34GÀA (V12M) and 421CÀA (Q141K).
X
ABCG2 p.Gln141Lys 15618737:128:159
status: VERIFIED
PMID: 15684613
[PubMed]
Robey RW et al: "ABCG2-mediated transport of photosensitizers: potential impact on photodynamic therapy."
No.
Sentence
Comment
148
We and others described a 421C>A nonsynonymous single nucleotide polymorphism (glutamine to lysine, Q141K, amino acid change) that impairs the transport activity of the protein.40-42 Cells expressing Q141K ABCG2 were shown to be more sensitive to the ABCG2 substrate drugs mitoxantrone, SN-38, topotecan and diflomotecan compared to cells expressing comparable cell surface levels of wild-type protein.42 Expression of the Q141K SNP has also been linked to higher serum levels of diflomotecan in patients receiving the drug orally, suggesting the Q141K polymorphism may affect the pharmacokinetics of ABCG2 substrate drugs.43 In light of the affect of the Q141K polymoprhism on the disposition of ABCG2 substrate drugs, it is tempting to speculate that the Q141K polymorphism may play a role in this observed extended sensitivity due to decreased transporter activity of the resulting ABCG2 protein.
X
ABCG2 p.Gln141Lys 15684613:148:100
status: VERIFIEDX
ABCG2 p.Gln141Lys 15684613:148:200
status: VERIFIEDX
ABCG2 p.Gln141Lys 15684613:148:423
status: VERIFIEDX
ABCG2 p.Gln141Lys 15684613:148:547
status: VERIFIEDX
ABCG2 p.Gln141Lys 15684613:148:656
status: VERIFIEDX
ABCG2 p.Gln141Lys 15684613:148:757
status: VERIFIED154 These results suggest that PDT with photosensitizers that are ABCG2 substrates may be rendered less effective in ABCG2 expressing cancers and that the Q141K polymorphism in ABCG2 may explain increases in the duration of photosensitivity in some patients.
X
ABCG2 p.Gln141Lys 15684613:154:151
status: VERIFIED
PMID: 15743976
[PubMed]
Vethanayagam RR et al: "Functional analysis of the human variants of breast cancer resistance protein: I206L, N590Y, and D620N."
No.
Sentence
Comment
20
Two variants, V12M and Q141K, occurred at particularly high allele frequencies in Chinese and Japanese populations (30-60%) and at relatively lower allele frequencies in white people and African-Americans (5-26%) (Zamber et al., 2003).
X
ABCG2 p.Gln141Lys 15743976:20:23
status: VERIFIED28 6 Copyright (c) 2005 by The American Society for Pharmacology and Experimental Therapeutics 3657/3131752 DMD 33:697-705, 2005 Printed in U.S.A. 697 Q141K seems to be associated with reduced protein expression compared with wild-type BCRP in mammalian expression systems (Imai et al., 2002; Kondo et al., 2004).
X
ABCG2 p.Gln141Lys 15743976:28:149
status: VERIFIED207 Imai et al. (2002) demonstrated that Q141K was expressed at a lower level in transfected murine fibroblast PA317 cells and conferred lower levels of drug resistance compared with wild-type BCRP, whereas V12M exhibited an expression level and drug resistance profiles very similar to those of wild-type protein (Imai et al., 2002).
X
ABCG2 p.Gln141Lys 15743976:207:37
status: VERIFIED208 Another study (Mizuarai et al., 2004) showed that V12M and Q141K were expressed in the polarized LLC-PK1 porcine kidney cells at levels comparable to that of wild-type protein; however, both V12M and Q141K conferred significantly lower drug resistance than wild-type protein, accompanied with increased drug accumulation and decreased drug efflux.
X
ABCG2 p.Gln141Lys 15743976:208:59
status: VERIFIEDX
ABCG2 p.Gln141Lys 15743976:208:200
status: VERIFIED209 Further analysis of the mechanism of transport dysfunction revealed that the apical membrane localization of V12M was disrupted, whereas the expression and apical membrane localization of Q141K were not affected; however, the ATPase activity of Q141K was decreased.
X
ABCG2 p.Gln141Lys 15743976:209:188
status: VERIFIEDX
ABCG2 p.Gln141Lys 15743976:209:245
status: VERIFIED210 A recent study illustrated that V12M was expressed in HEK cells at levels similar to that of wild-type BCRP, whereas the Q141K level was significantly decreased compared with wild-type protein; however, the transport activity normalized by the BCRP expression was almost the same for V12M, Q141K and wild-type BCRP (Kondo et al., 2004).
X
ABCG2 p.Gln141Lys 15743976:210:121
status: VERIFIEDX
ABCG2 p.Gln141Lys 15743976:210:290
status: VERIFIED212 However, the lower Q141K expression appears to be consistent with in vivo data.
X
ABCG2 p.Gln141Lys 15743976:212:19
status: VERIFIED213 When 99 Japanese placental samples were analyzed, the subjects who were homozygous for Q141K were found to express significantly lower amounts of BCRP (Kobayashi et al., 2005).
X
ABCG2 p.Gln141Lys 15743976:213:87
status: VERIFIED214 The lower protein expression and/or transport dysfunction of Q141K could affect drug disposition.
X
ABCG2 p.Gln141Lys 15743976:214:61
status: VERIFIED215 A recent clinical study has shown that Q141K is associated with significant changes in pharmacokinetics of diflomotecan (Sparreboom et al., 2004).
X
ABCG2 p.Gln141Lys 15743976:215:39
status: VERIFIED216 In five patients heterozygous for Q141K, the plasma levels of diflomotecan after intravenous administration were 299% of those in 15 patients expressing wild-type BCRP.
X
ABCG2 p.Gln141Lys 15743976:216:34
status: VERIFIED269 These data suggest that, whereas ATPase activities of BCRP could be affected by mutations in the NBD (e.g., Q141K and I206L), mutations in other regions including the TM segments (e.g., G406L/G410L) and extracellular loops (e.g., N590Y and D620N) can also influence ATP hydrolysis.
X
ABCG2 p.Gln141Lys 15743976:269:108
status: VERIFIED
PMID: 15753373
[PubMed]
Elkind NB et al: "Multidrug transporter ABCG2 prevents tumor cell death induced by the epidermal growth factor receptor inhibitor Iressa (ZD1839, Gefitinib)."
No.
Sentence
Comment
320
Imai Y, Nakane M, Kage K, et al. C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 15753373:320:140
status: NEW317 Imai Y, Nakane M, Kage K, et al. C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 15753373:317:140
status: NEW
PMID: 15801936
[PubMed]
Zhou Q et al: "Pharmacogenetic profiling across the irinotecan pathway in Asian patients with cancer."
No.
Sentence
Comment
236
29 Imai Y, Nakane M, Kage K, et al. C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low level drug resistance.
X
ABCG2 p.Gln141Lys 15801936:236:143
status: VERIFIED
PMID: 15838659
[PubMed]
Morisaki K et al: "Single nucleotide polymorphisms modify the transporter activity of ABCG2."
No.
Sentence
Comment
0
ORIGINAL ARTICLE Kuniaki Morisaki Æ Robert W. Robey Csilla O¨ zvegy-Laczka Æ Yasumasa Honjo Orsolya Polgar Æ Kenneth Steadman Bala´ zs Sarkadi Æ Susan E. Bates Single nucleotide polymorphisms modify the transporter activity of ABCG2 Received: 21 July 2004 / Accepted: 1 October 2004 / Published online: 19 April 2005 Ó Springer-Verlag 2005 Abstract Single nucleotide polymorphism (SNP) analyses of the ABCG2 gene have revealed three nonsynonymous SNPs resulting in the amino acid changes at V12M, Q141K and D620N.
X
ABCG2 p.Gln141Lys 15838659:0:532
status: VERIFIED2 In 4-day cytotoxicity assays with mitoxantrone, topotecan, SN-38 or diflomotecan, cells transfected with wild-type R482 ABCG2 showed IC50 values up to 1.2-fold to 5-fold higher than cells expressing comparable levels of Q141K ABCG2, suggesting that the Q141K SNP affects drug transport.
X
ABCG2 p.Gln141Lys 15838659:2:220
status: VERIFIEDX
ABCG2 p.Gln141Lys 15838659:2:253
status: VERIFIED3 FTC-inhibitable mitoxantrone efflux normalized to ABCG2 surface expression as assayed by the anti-ABCG2 antibody 5D3 was significantly lower in cells transfected with Q141K ABCG2 than in those transfected with wild-type R482 ABCG2 (P=0.0048).
X
ABCG2 p.Gln141Lys 15838659:3:167
status: VERIFIED6 Basal ATPase activity in cells transfected with Q141K ABCG2 was 1.8-fold lower than in cells transfected with wild-type ABCG2, but was comparable among cells expressing wild-type, V12M or D620N ABCG2.
X
ABCG2 p.Gln141Lys 15838659:6:48
status: VERIFIED7 Confocal studies of ABCG2 localization revealed higher intracellular staining in the Q141K transfectants than in cells transfected with wild-type or V12M ABCG2.
X
ABCG2 p.Gln141Lys 15838659:7:85
status: VERIFIED9 These results suggest that the Q141K SNP affects the transport efficiency of ABCG2 and may result in altered pharmacokinetics or drug-resistance profiles in clinical oncology.
X
ABCG2 p.Gln141Lys 15838659:9:31
status: VERIFIED30 We previously sequenced the ABCG2 gene in 90 genomic DNA samples representing a global genetic diversity and identified three nonsynonymous SNPs -34G fi A, substituting a valine for methionine (V12M); 421C fi A, substituting a glutamine for lysine (Q141K); and 1858C fi A, substituting an aspartic acid for asparagine (D620N)-in the coding region of ABCG2 [18].
X
ABCG2 p.Gln141Lys 15838659:30:249
status: VERIFIED33 In a study of SNPs in ABCG2 in the general Japanese population, the V12M and Q141K SNPs were observed at higher allelic frequencies (17.2% and 26.6%, respectively) [19].
X
ABCG2 p.Gln141Lys 15838659:33:77
status: VERIFIED34 Similarly, in other studies, the V12M and Q141K SNPs have also been found to be the most frequent polymorphisms in various ethnic and racial groups including Caucasian, Asian, and Swedish populations [3, 48].
X
ABCG2 p.Gln141Lys 15838659:34:42
status: VERIFIED37 containing full-length ABCG2 encoding wild-type (R482), mutant (R482T, R482G), or SNP variants (V12M, Q141K, or D620N) of ABCG2.
X
ABCG2 p.Gln141Lys 15838659:37:102
status: VERIFIED98 Clones were initially screened using the anti-ABCG2 antibody 5D3 and, from the positive clones obtained, 12 clones transfected with V12M, Q141K, D620N, or 1_11delV12M were selected for further study: V12M-12, -13 and -14; Q141K-5, -8, -13 and -16; D620N-2, -3 and -23; and 1_11delV12M-2 and -8.
X
ABCG2 p.Gln141Lys 15838659:98:138
status: VERIFIEDX
ABCG2 p.Gln141Lys 15838659:98:222
status: VERIFIED101 Although Northern blot analysis demonstrated higher expression of ABCG2 mRNA in wild-type (482R) ABCG2-transfected clones than in V12M-13 and Q141K-8 clones, immunoblot analysis showed generally comparable (within two- to threefold) ABCG2 protein expression in 482R, V12M-13, and Q141K-8 transfectants.
X
ABCG2 p.Gln141Lys 15838659:101:142
status: VERIFIEDX
ABCG2 p.Gln141Lys 15838659:101:280
status: VERIFIED103 Differential resistance among cells transfected with wild-type, V12M and Q141K ABCG2 To determine whether the SNPs affected the transport activity of ABCG2, 4-day cytotoxicity assays were performed with the ABCG2 substrates mitoxantrone, topotecan, SN-38, and diflomotecan (BN80915) on ABCG2-transfected HEK-293 cells expressing comparable amounts of ABCG2.
X
ABCG2 p.Gln141Lys 15838659:103:73
status: VERIFIED105 Comparable surface expression of ABCG2 in the 482R-2, Q141K-5, Q141K-8 and V12M-13 clones was confirmed using the 5D3 antibody, as shown in Fig. 2a.
X
ABCG2 p.Gln141Lys 15838659:105:54
status: VERIFIEDX
ABCG2 p.Gln141Lys 15838659:105:63
status: VERIFIED108 a Northern blot analysis of ABCG2 expression in representative HEK-293 cells transfected with wild-type, V12M, Q141K, or D620N ABCG2.
X
ABCG2 p.Gln141Lys 15838659:108:111
status: VERIFIED114 Except for the Q141K-5 clone with diflomotecan, P values for this comparison were <0.05.
X
ABCG2 p.Gln141Lys 15838659:114:15
status: VERIFIED116 The V12M-13 and 482R-2 clones were comparably resistant to mitoxantrone, topotecan, SN-38 and diflomotecan, whereas the Q141K-5 and -8 clones had IC50 values that were 3-fold to 5-fold lower for mitoxantrone and topotecan, 2-fold to 3.4-fold lower for SN-38, and 1.2-fold to 2.3-fold lower for diflomotecan.
X
ABCG2 p.Gln141Lys 15838659:116:120
status: VERIFIED118 These results suggest that the Q141K SNP has functional consequences in the resulting ABCG2 protein.
X
ABCG2 p.Gln141Lys 15838659:118:31
status: VERIFIED119 Correlation between FTC-inhibitable mitoxantrone efflux and surface expression in ABCG2 transfectants To confirm the impaired transport of mitoxantrone in cells expressing Q141K ABCG2, we selected two to six Fig. 2 Impact of SNPs on ABCG2-mediated resistance.
X
ABCG2 p.Gln141Lys 15838659:119:172
status: VERIFIED121 b Cytotoxicity assays were performed with mitoxantrone, topotecan, SN-38, or diflomotecan on HEK-293 cells transfected with empty vector (filled circles), or the 482R-2 (open circles), V12M-13 (filled triangles), Q141K-5 (open squares), and Q141K-8 (hatched squares) clones from a.
X
ABCG2 p.Gln141Lys 15838659:121:213
status: VERIFIEDX
ABCG2 p.Gln141Lys 15838659:121:241
status: VERIFIED122 Representative results are shown clones each of ABCG2-transfected cells expressing R482, R482T, R482G, V12M, Q141K or D620N ABCG2.
X
ABCG2 p.Gln141Lys 15838659:122:111
status: VERIFIED133 Efflux and expression values for cells transfected with V12M and D620N ABCG2 fell close to the line, while values for cells transfected with Q141K ABCG2 fell predominantly below the line.
X
ABCG2 p.Gln141Lys 15838659:133:141
status: VERIFIED135 Among the transfectants, Q141K variants showed significantly lower values compared to the transfectants with wild-type ABCG2 and the other SNP variants, V12M and D620N (P=0.0048, 0.0005, and 0.0126, respectively), suggesting that Q141K ABCG2 transports mitoxantrone less efficiently than wild-type ABCG2.
X
ABCG2 p.Gln141Lys 15838659:135:25
status: VERIFIEDX
ABCG2 p.Gln141Lys 15838659:135:230
status: VERIFIED140 We next examined the ATPase activity of V12M, Q141K, and D620N variants using this system.
X
ABCG2 p.Gln141Lys 15838659:140:46
status: VERIFIED143 Despite similar levels of ABCG2 expression, the basal ATPase activity was significantly lower in the case of the Q141K variant than in wild-type ABCG2, whereas in the other SNP variants, the ATPase activity was similar to that observed in wild-type ABCG2 (Fig. 5b).
X
ABCG2 p.Gln141Lys 15838659:143:113
status: VERIFIED146 The lower basal ATPase activity in the Q141K variant persisted in the presence of mitoxantrone (Fig. 5b).
X
ABCG2 p.Gln141Lys 15838659:146:39
status: VERIFIED148 At 1 lM Clone Mitoxantrone Topotecan SN-38 Diflomotecan IC50 RR IC50 RR IC50 RR IC50 RR pcDNA3-10 0.6±0.3 - 8.7±1.2 - 1.2±0.7 - 0.3±0.2 - 482R-2 34±5.4 57 275±150 32 123±68 103 1.4±0.6 5 V12M-13 44±15 73 250±71 29 100±1 83 1±0.1 3 Q141K-5 7.4±1.8 12 55±7 6 36±11 30 0.6±0.07 2 Q141K-8 10.8±5.3 18 90±14 10 66±11 55 0.9±0.1 3 Table 1 Relative resistance (RR) of ABCG2-transfected cells to ABCG2 substrates.
X
ABCG2 p.Gln141Lys 15838659:148:291
status: VERIFIEDX
ABCG2 p.Gln141Lys 15838659:148:357
status: NEW151 In all cases P<0.05 except for the Q141K-5 clone with diflomotecan where P=0.09 (IC50 values are in nanomoles) Ko143, ATPase activity in membrane protein from cells expressing any of the ABCG2 proteins was almost completely abrogated.
X
ABCG2 p.Gln141Lys 15838659:151:35
status: VERIFIED157 Effect of SNPs on cellular localization of ABCG2 To determine if the SNPs affected membrane localization of ABCG2, we performed immunofluorescence studies on HEK-293 cells stably transfected with wild-type, V12M or Q141K ABCG2.
X
ABCG2 p.Gln141Lys 15838659:157:215
status: VERIFIED160 In contrast, HEK-293 cells expressing Q141K ABCG2 demonstrated high intracellular staining with the BXP-21 antibody, as well as cell surface staining (Fig. 6c).
X
ABCG2 p.Gln141Lys 15838659:160:38
status: VERIFIED161 These results, despite the selection of clones expressing comparable levels of cell surface ABCG2, suggest impaired membrane trafficking or incorrect membrane insertion of Q141K ABCG2.
X
ABCG2 p.Gln141Lys 15838659:161:172
status: VERIFIED163 To examine whether the nonsynonymous SNPs in ABCG2 affect the transport of this compound, Hoechst 33342 dye transport was measured in intact Sf9 cells expressing wild-type, V12M, Q141K, or D620N ABCG2, as well as the nonfunctional mutant, R482G/K86M.
X
ABCG2 p.Gln141Lys 15838659:163:179
status: VERIFIED164 Immunoblot analysis of protein obtained from the infected cells is shown in Fig. 7a. Hoechst 33342 transport was comparable in cells expressing wild-type, Q141K or D620N ABCG2.
X
ABCG2 p.Gln141Lys 15838659:164:155
status: VERIFIED172 Representative histograms for 482R-9, 482G-1, V12M-13, D620N-2, Q141K-5, and 1_11delV12M-8 are shown substrate-free medium for 60 min continuing with or without FTC.
X
ABCG2 p.Gln141Lys 15838659:172:64
status: VERIFIED174 No significant difference in FTC-inhibitable Hoechst efflux was observed between cells expressing wild-type (R482), V12M or Q141K ABCG2 (Fig. 7c, right column).
X
ABCG2 p.Gln141Lys 15838659:174:124
status: VERIFIED178 Discussion We and others have recently identified several polymorphisms in ABCG2, including three nonsynonymous SNPs resulting in amino acid substitution in the coding region of ABCG2: V12M, Q141K, D620N [4, 19, 20, 50].
X
ABCG2 p.Gln141Lys 15838659:178:191
status: VERIFIED180 Our results suggest that the Q141K SNP affects the transport efficiency of ABCG2.
X
ABCG2 p.Gln141Lys 15838659:180:29
status: VERIFIED189 Values from the experiment in a were obtained for ABCG2-transfected HEK-293 clones expressing varying levels of 482R, R482G, R482T, V12M, Q141K, and D620N ABCG2 and a box plot was generated.
X
ABCG2 p.Gln141Lys 15838659:189:138
status: VERIFIED199 Imai et al. have previously reported that the Q141K variant is associated with decreased protein expression in transfected cells and therefore results in increased sensitivity to chemotherapeutic agents [20].
X
ABCG2 p.Gln141Lys 15838659:199:46
status: VERIFIED200 In contrast, we did not observe decreased expression of ABCG2 in HEK-293 cells transfected with Q141K ABCG2.
X
ABCG2 p.Gln141Lys 15838659:200:96
status: VERIFIED201 Supporting our findings, Zamber et al. have found no correlation between the Q141K SNP and level of expression of ABCG2 protein [50].
X
ABCG2 p.Gln141Lys 15838659:201:77
status: VERIFIED202 The Q141K SNP does not appear to prevent expression of the protein on the cell surface.
X
ABCG2 p.Gln141Lys 15838659:202:4
status: VERIFIED204 Four-day cytotoxicity assays demonstrated that, among HEK-293 cells transfected with wild-type, V12M, or Q141K ABCG2, those expressing Q141K ABCG2 had IC50 values for mitoxantrone, topotecan, SN-38 and diflomotecan that were as much as fivefold lower than those for cells expressing comparable levels Fig. 5 ATPase activity in Sf9 insect cells infected with ABCG2-bearing baculovirus.
X
ABCG2 p.Gln141Lys 15838659:204:105
status: VERIFIEDX
ABCG2 p.Gln141Lys 15838659:204:135
status: VERIFIED205 a Immunoblot detection of human wild-type, D620N, Q141K and V12M ABCG2 expressed in Sf9 insect cells.
X
ABCG2 p.Gln141Lys 15838659:205:50
status: VERIFIED206 Membranes of Sf9 cells (1.5 lg total protein from V12M/Sf9, Q141K/Sf9 and D620N/Sf9, 1.0 lg from wild-type ABCG2/Sf9, and 1.2 lg from b-galactosidase/Sf9) dissolved in disaggregation buffer were subjected to electrophoresis on 7.5% Laemmli-type gels and blotted onto PVDF membranes, followed by immunodetection with the BXP-21 antibody. b ATPase activity measured in membranes of Sf9 cells expressing the wild-type, V12M, Q141K, and D620N variants of human ABCG2.
X
ABCG2 p.Gln141Lys 15838659:206:60
status: VERIFIEDX
ABCG2 p.Gln141Lys 15838659:206:422
status: VERIFIED210 HEK-293 cells transfected with wild-type (482R-2) (a), V12M (V12M-13) (b), or Q141K (Q141K-8) (c) ABCG2 were fixed, permeabilized, and then incubated with the mouse monoclonal anti-ABCG2 antibody, BXP-21.
X
ABCG2 p.Gln141Lys 15838659:210:78
status: VERIFIEDX
ABCG2 p.Gln141Lys 15838659:210:85
status: VERIFIED212 When surface ABCG2 expression was used to normalize the FTC-inhibitable mitoxantrone efflux, we found that HEK-293 cells expressing Q141K ABCG2 transported mitoxantrone less efficiently than cells expressing wild-type, V12M or D620N ABCG2.
X
ABCG2 p.Gln141Lys 15838659:212:132
status: VERIFIED213 These findings are in agreement with those of Mizuarai et al., who found that polarized LLC/ PK1 cells transfected with Q141K ABCG2 are more sensitive to mitoxantrone, topotecan and an indolocarbazole topoisomerase I inhibitor, all of which are known ABCG2 substrates [30].
X
ABCG2 p.Gln141Lys 15838659:213:120
status: VERIFIED221 The Q141K SNP has also recently been shown to significantly affect the pharmacokinetics of diflomotecan.
X
ABCG2 p.Gln141Lys 15838659:221:4
status: VERIFIED223 Despite the relatively poor transport of diflomotecan by ABCG2, Sparreboom et al. have reported that, in patients heterozygous for the Q141K SNP, plasma diflomotecan levels are approximately threefold higher than in patients expressing the wild-type allele [44].
X
ABCG2 p.Gln141Lys 15838659:223:135
status: VERIFIED225 These results suggest that the Q141K SNP may alter the pharmacokinetic profile of other ABCG2 substrate drugs.
X
ABCG2 p.Gln141Lys 15838659:225:31
status: VERIFIED226 Basal ATPase activity was determined to be 1.8-fold lower in membrane protein isolated from Sf9 insect cells infected with recombinant baculoviruses containing full-length Q141K ABCG2 compared to protein from cells expressing wild-type or the other SNP variant ABCG2 forms.
X
ABCG2 p.Gln141Lys 15838659:226:172
status: VERIFIED227 Our results are in agreement with those of Mizuarai et al. who reported that the ATPase activity of Q141K ABCG2 is 1.3-fold lower than wild-type in the Sf9 system [30].
X
ABCG2 p.Gln141Lys 15838659:227:100
status: VERIFIED241 Consistent with other reports, we found that the Q141K polymorphism impaired the activity of the ABCG2 protein.
X
ABCG2 p.Gln141Lys 15838659:241:49
status: VERIFIED244 Taken together, the results presented here support the hypothesis that the Q141K variant has the potential to alter the pharmacokinetics of ABCG2 substrates.
X
ABCG2 p.Gln141Lys 15838659:244:75
status: VERIFIED245 Whether the presence of the Q141K polymorphism in clinical tumors could promote chemosensitivity is unknown, but remains a question for further study.
X
ABCG2 p.Gln141Lys 15838659:245:28
status: VERIFIED
PMID: 15882131
[PubMed]
Lepper ER et al: "Mechanisms of resistance to anticancer drugs: the role of the polymorphic ABC transporters ABCB1 and ABCG2."
No.
Sentence
Comment
122
The common ABCG2 C421A variant in exon 5, in which the C to A transversion results in an amino acid change of Gln to Lys at codon 141, has been associated with low ABCG2 expression levels [50,85,91-93].
X
ABCG2 p.Gln141Lys 15882131:122:110
status: NEW157 Position in gene* Nucleotide‡ Region Wild-type allele Variant allele Amino acid Change -19572 to -19569 5`-Flanking region CTCA - CTCA deletion -19202 5` UTR G C -18845 5` UTR T C -18604 5` UTR A - Deletion -18482 -113 Exon 1 C T Non-coding -18398 -29 Exon 1 A G Non-coding 34 34 Exon 2 G A 12 Val to Met 71 71 Exon 2 C T 24 Ala to Val 114 114 Exon 2 T C 38 Synonymous 239 Intron 2 A G 7268 Intron 2 T C 7420 Intron 3 - T Insertion 8007 Intron 3 G A 8184 369 Exon 4 C T 123 Synonymous 8191 376 Exon 4 C T 126 Gln to Term 8825 421 Exon 5 C A 141 Gln to Lys 8862 458 Exon 5 C T 153 Thr to Met 8878 474 Exon 5 C T 158 Synonymous 8900 496 Exon 5 C G 166 Gln to Glu 18186 Intron 5 A G 18286 616 Exon 6 A C 206 Ile to Leu 18293 623 Exon 6 T C 208 Phe to Ser 21530 Intron 6 C T 21718 Intron 6 A G 21903 Intron 7 A G 24618 Intron 7 T A 26297 1098 Exon 9 G A 366 Synonymous 38389 1291 Exon 11 T C 431 Phe to Leu 38485 Intron 11 A G 40111 Intron 11 G A 40303 1425 Exon 12 A G 475 Synonymous 40322 1444 Exon 12 A G 482 Arg to Gly 40323 1445 Exon 12 G C 482 Arg to Thr 40343 1465 Exon 12 T C 489 Phe to Leu 40419 Intron 12 G T 42314 Intron 13 T G 44997 Intron 14 A G 45022 Intron 14 C T 45073 1768 Exon 15 A T 590 Asn to Tyr 47355 1858 Exon 16 G A 620 Asp to Asn 47734 2237 Exon 16 G T Non-coding 47890 2393 Exon 16 G T Non-coding 47891 2394 Exon 16 C A Non-coding ABC: ATP-binding cassette; UTR: Untranslated region.
X
ABCG2 p.Gln141Lys 15882131:157:548
status: NEW524 85. Imai Y, Nakane M, Kage K et al.: C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 15882131:524:144
status: NEW553 Morisaki K, Robey RW, Nadjem T et al.: The Q141K single-nucleotide polymorphism impacts the transporter activity of ABCG2.
X
ABCG2 p.Gln141Lys 15882131:553:43
status: NEW
PMID: 15906349
[PubMed]
Korenaga Y et al: "Association of the BCRP C421A polymorphism with nonpapillary renal cell carcinoma."
No.
Sentence
Comment
0
Association of the BCRP C421A polymorphism with nonpapillary renal cell carcinoma Yoshihito Korenaga1 , Katsusuke Naito1*, Naoko Okayama2 , Hiroshi Hirata1 , Yutaka Suehiro2 , Yuichiro Hamanaka2 , Hideyasu Matsuyama1 and Yuji Hinoda2 1 Department of Urology, Yamaguchi University School of Medicine, Yamaguchi, Japan 2 Department of Clinical Laboratory Science, Yamaguchi University School of Medicine, Yamaguchi, Japan Breast cancer resistance protein (BCRP), the second member of the ATP-binding cassette membrane transporter family, has a single nucleotide polymorphism, C421A (resulting in Q141K), that is of functional importance.
X
ABCG2 p.Gln141Lys 15906349:0:594
status: VERIFIED33 SNP analysis of the BCRP gene We used the TaqMan technique, which combines DNA amplification and genotype detection in a single assay.17 The primer set used to amplify the exon 5 SNP (C421A), which results in Q141K, was GGCACTGACGGTGAGA (forward) and CATAGTTGTTGCAAGCCGAAGAG (reverse).
X
ABCG2 p.Gln141Lys 15906349:33:209
status: VERIFIED65 Our data demonstrated that the frequency of the C/C genotype of C421A (resulting in Q141K) was significantly higher in RCC patients than in controls.
X
ABCG2 p.Gln141Lys 15906349:65:84
status: VERIFIED
PMID: 15908806
[PubMed]
Sparreboom A et al: "Effect of ABCG2 genotype on the oral bioavailability of topotecan."
No.
Sentence
Comment
13
In recent years, various naturally occurring variants in ABCG2 have been identified that affect the function and/or expression of its encoded protein.4-6 In the present pilot study, we prospectively evaluated the potential functional significance of a common single-nucleotide polymorphism (SNP) in ABCG2 (421C>A; Q141K) in a cohort of cancer patients treated with topotecan.
X
ABCG2 p.Gln141Lys 15908806:13:314
status: VERIFIED41 Human embryonic kidney cells (HEK293) cells transfected with pcDNA3 (HEK293/Neo, control cells), wild-type ABCG2 (HEK293/R) and an ABCG2 Q141K clone (HEK293/5)10 were provided by Dr. Susan E. Bates (National Cancer Institute, Bethesda, MD).
X
ABCG2 p.Gln141Lys 15908806:41:137
status: VERIFIED75 The studied variant in ABCG2 is a SNP causing a nonsynonymous change in the protein sequence, in which a 421C to A transition at exon 5 leads to a Glutamine to Lysine amino acid substitution at codon 141 (Q141K).
X
ABCG2 p.Gln141Lys 15908806:75:205
status: VERIFIED80 In vitro transport studies presented here in HEK293 cells transfected with the Q141K variant showed an increase of 30% in the intracellular accumulation of topotecan relative to wild-type ABCG2.
X
ABCG2 p.Gln141Lys 15908806:80:79
status: VERIFIED84 (A) Intracellular accumulation of topotecan in human embryonic kidney cells (HEK293) transfected with pcDNA3 (HEK293/Neo, Control), wild-type ABCG2 (HEK293/R) and an ABCG2 Q141K clone (HEK293/5, Q141K-5).
X
ABCG2 p.Gln141Lys 15908806:84:172
status: VERIFIEDX
ABCG2 p.Gln141Lys 15908806:84:195
status: VERIFIED86 (B) Western blot data for ABCG2 expression in control, wild-type ABCG2 and the ABCG2 Q141K clone.
X
ABCG2 p.Gln141Lys 15908806:86:85
status: VERIFIED87 A B www.landesbioscience.com Cancer Biology & Therapy e Topotecan Pharmacogenetics In support of this theory, Mizuarai6 described recently that the ATPase activity of the Q141K variant, which is localized in the ATP-binding cassette region, was reduced approximately 1.3-fold compared to the activity of the wild type ABCG2.
X
ABCG2 p.Gln141Lys 15908806:87:173
status: VERIFIED89 However, our finding is not entirely conclusive as the sole contributing factor, since the increased accumulation in the Q141K variant compared to the wild type was not statistically significant (P = 0.16).
X
ABCG2 p.Gln141Lys 15908806:89:121
status: VERIFIED90 Support for additional mechanisms that might be of relevance, including altered protein expression, comes from the presently performed analysis of the duodenal mucosa biopsies; these preliminary data show that the ABCG2 421C>A genotype is possibly related with reduced mRNA expression of ABCG2 and ABCB1 in intestinal enterocytes, although this seems to contradict earlier findings.22 Nonetheless, earlier data obtained in PA317 cells transfected with the Q141K mutant have indicated that intracellular topotecan accumulation was higher than that in cells with wild-type ABCG2, and this was also ascribed in that case to markedly reduced protein expression levels.23 These authors have speculated that substitution of Glutamine for Lysine at amino acid position 141 might alter the tertiary structure of ABCG2, and lead to increased susceptibility to degradation.23 Clearly, further investigation is required to resolve this issue.
X
ABCG2 p.Gln141Lys 15908806:90:456
status: VERIFIEDX
ABCG2 p.Gln141Lys 15908806:90:718
status: VERIFIED
PMID: 15939339
[PubMed]
Ozvegy-Laczka C et al: "Tyrosine kinase inhibitor resistance in cancer: role of ABC multidrug transporters."
No.
Sentence
Comment
215
Of special interest is the ABCG2 variant Q141K (glutamine to lysine replacement).
X
ABCG2 p.Gln141Lys 15939339:215:41
status: VERIFIED
PMID: 15955871
[PubMed]
Hirano M et al: "Involvement of BCRP (ABCG2) in the biliary excretion of pitavastatin."
No.
Sentence
Comment
224
The elimination of diflomotecan from plasma has been found to be delayed in patients with frequently observed SNP in BCRP (C421A/Q141K) (Sparreboom et al., 2004).
X
ABCG2 p.Gln141Lys 15955871:224:129
status: VERIFIED
PMID: 16061644
[PubMed]
Huss WJ et al: "Breast cancer resistance protein-mediated efflux of androgen in putative benign and malignant prostate stem cells."
No.
Sentence
Comment
371
Clin Cancer Res 2004;10:440-8. 51. Imai Y, Nakane M, Kage K, et al. C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 16061644:371:175
status: NEW366 Clin Cancer Res 2004;10:440-8. 51. Imai Y, Nakane M, Kage K, et al. C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 16061644:366:175
status: NEW
PMID: 16108826
[PubMed]
Sugimoto Y et al: "Breast cancer resistance protein: molecular target for anticancer drug resistance and pharmacokinetics/pharmacodynamics."
No.
Sentence
Comment
12
The C421A (Q141K) polymorphism is also significant as Q141K-BCRP-transfected cells show markedly low protein expression levels and low-level drug resistance.
X
ABCG2 p.Gln141Lys 16108826:12:11
status: VERIFIEDX
ABCG2 p.Gln141Lys 16108826:12:54
status: VERIFIED165 From these analyses, we identified three BCRP coding SNP, G34A (V12M), C376T (Q126Stop) and C421A (Q141K), and a splicing variant, ∆315-6, that lacked nucleotides 944-949 (deletion of A315 and T316) (Fig.
X
ABCG2 p.Gln141Lys 16108826:165:99
status: VERIFIED174 In addition, Q141K-BCRP-transfected PA317 cells showed markedly lower levels of both BCRP protein expression and drug resistance than wild-type BCRP-transfected cells (Fig. 4a).
X
ABCG2 p.Gln141Lys 16108826:174:13
status: VERIFIED175 It was noteworthy in this case that Q141K-BCRP-transfectants and wild-type BCRP-transfectants expressed similar levels of BCRP transcripts (Fig. 4a).
X
ABCG2 p.Gln141Lys 16108826:175:36
status: VERIFIED178 (42) Low expression levels of the Q141K BCRP protein have been confirmed using various experimental systems.
X
ABCG2 p.Gln141Lys 16108826:178:34
status: VERIFIED179 (43-45) These results suggest that some individuals harbor a C421A polymorphic BCRP gene and express low amounts of Q141K BCRP (Fig. 4b).
X
ABCG2 p.Gln141Lys 16108826:179:116
status: VERIFIED208 We have identified two important functioning BCRP SNP, C376T (Q126Stop) and C421A (Q141K), that greatly diminish the expression of this protein.
X
ABCG2 p.Gln141Lys 16108826:208:83
status: VERIFIED210 Furthermore, cells transfected with Q141K-BCRP cDNA express low amounts of BCRP protein and show only low levels of drug resistance.
X
ABCG2 p.Gln141Lys 16108826:210:36
status: VERIFIED214 Effect of C376T (Q126Stop) and C421A (Q141K) single nucleotide polymorphisms in the breast cancer resistance protein (BCRP) gene on protein expression.
X
ABCG2 p.Gln141Lys 16108826:214:38
status: VERIFIED216 PA317 cells transfected with wild-type, G34A, C421A and ∆944-949 BCRP cDNAs were termed PA/WT, PA/V12M, PA/Q141K and PA/∆315-6, respectively.
X
ABCG2 p.Gln141Lys 16108826:216:114
status: VERIFIED
PMID: 16116030
[PubMed]
Meissner K et al: "The ATP-binding cassette transporter ABCG2 (BCRP), a marker for side population stem cells, is expressed in human heart."
No.
Sentence
Comment
126
Among the four identified naturally occurring single nucleotide polymorphisms, 34G.A (V12M) and 421C.A (Q141K) were most common in diverse populations of different ethnic origin in North America (Zamber et al. 2003).
X
ABCG2 p.Gln141Lys 16116030:126:104
status: NEW127 Among the four identified naturally occurring single nucleotide polymorphisms, 34G.A (V12M) and 421C.A (Q141K) were most common in diverse populations of different ethnic origin in North America (Zamber et al. 2003).
X
ABCG2 p.Gln141Lys 16116030:127:104
status: NEW
PMID: 16146333
[PubMed]
Mao Q et al: "Role of the breast cancer resistance protein (ABCG2) in drug transport."
No.
Sentence
Comment
160
A variety of naturally occurring variants of BCRP have been identified in DNA samples of ethnically diverse origins.95-98 Notably, the alterations of BCRP protein at position 12 (V12M) and 141 (Q141K) occur frequently in Asia populations (~30%-60%) and relatively low frequencies in Caucasians and African-Americans (~5%-10%).
X
ABCG2 p.Gln141Lys 16146333:160:194
status: NEW161 For example, in a Japanese population studied, 39% to 50% are heterozygous and 7% are homozygous for the variant Q141K.95,96 In a Chinese population, 60% are heterozygous for Q141K.95 Several other variants such as I206L, N590Y, and D620N are much less frequent with allele frequencies of ~1%.95,97 For instance, N590Y is present in ~1.5% of Caucasians.95 I206L is found only in Hispanic populations so far.95 D620N is detected in 1.1% of all DNA samples examined with unknown genetic origin.97 In addition, a polymorphism in exon 4 that results in a substitution of stop codon for Gln at position 126 has also been identified.96 Amino acid changes at position 482 that were found in some drug-selected resistant cell lines have so far not been identified in normal populations or in DNA samples from cancer patients.49 In vitro functional characterization of the variants V12M and Q141K produced contradicting results.
X
ABCG2 p.Gln141Lys 16146333:161:113
status: NEWX
ABCG2 p.Gln141Lys 16146333:161:175
status: NEWX
ABCG2 p.Gln141Lys 16146333:161:882
status: NEW162 One study reported that Q141K was expressed at lower levels in transfected cells and therefore conferred lower drug resistance compared with the wild-type protein.96 The variant V12M displayed expression levels and drug-resistance properties similar to the wild-type protein.96 Another study reported that V12M and Q141K were expressed at levels comparable to the wild-type protein; however, both V12M and Q141K conferred significantly lower levels of drug resistance relative to the wild-type protein as compared with increased drug accumulation and decreased drug efflux.98 Further analysis of the mechanism of the transport dysfunction revealed that the apical membrane localization of V12M was disrupted and that ATPase activity of Q141K was decreased.98 A recent clinical study by Sparreboom et al73 has shown that the Q141K polymorphism is associated with significant changes of pharmacokinetic properties of diflomotecan, a substrate of BCRP.
X
ABCG2 p.Gln141Lys 16146333:162:24
status: NEWX
ABCG2 p.Gln141Lys 16146333:162:315
status: NEWX
ABCG2 p.Gln141Lys 16146333:162:406
status: NEWX
ABCG2 p.Gln141Lys 16146333:162:736
status: NEWX
ABCG2 p.Gln141Lys 16146333:162:824
status: NEW
PMID: 16158227
[PubMed]
Krishnamurthy P et al: "The ABC transporter Abcg2/Bcrp: role in hypoxia mediated survival."
No.
Sentence
Comment
127
The SNPs in Bcrp that produce non-synonymous changes (i.e., amino acid substitutions) are at amino acids 12 (V12M), 141 (Q141K), 206 (I206L), and 590 (N590Y).
X
ABCG2 p.Gln141Lys 16158227:127:121
status: VERIFIED128 The most frequent polymorphisms being the exon 2 SNP (G34A/ V12M) and the exon 5 SNP (C421A/Q141K), which produce changes in amino acids 12 and 141 (Imai et al. 2002; Mizuarai et al. 2004).
X
ABCG2 p.Gln141Lys 16158227:128:92
status: VERIFIED
PMID: 16160819
[PubMed]
Ishikawa T et al: "Pharmacogenomics of the human ABC transporter ABCG2: from functional evaluation to drug molecular design."
No.
Sentence
Comment
87
Non-synonymous SNPs are located at nucleotides 238 (exon 2) and 625, resulting in amino acid substitutions: V12M and Q141K.
X
ABCG2 p.Gln141Lys 16160819:87:116
status: NEW94 The Q141K polymorphism located in exon 5 (c.421C>A) leads to the replacement of the negatively charged glutamic acid residue with a positively charged lysine residue.
X
ABCG2 p.Gln141Lys 16160819:94:4
status: VERIFIED96 The Q141K variant was also detected in all ethnic groups tested: the allele frequency ranged between 0% and 35%, (the Africans in north of Sahara, the Africans sub-Saharan, the African American subjects with low, and the Japanese and Chinese populations with high allele frequencies) (Imai et al. 2002; Zamber et al. 2003; de Jong et al. 2004; Kobayashi et al. 2005).
X
ABCG2 p.Gln141Lys 16160819:96:4
status: VERIFIED97 Imai et al. (2002) have demonstrated that the ABCG2 Q141K variant-transfected PA317 cells showed a low-level of drug resistance associated with decreased protein expression.
X
ABCG2 p.Gln141Lys 16160819:97:52
status: VERIFIED99 The SNP (Q141K) was postulated to cause increased sensitivity of normal cells to anticancer agents that are ABCG2 substrates such as topotecan, diflomotecan, and SN-38.
X
ABCG2 p.Gln141Lys 16160819:99:9
status: VERIFIED100 An investigation of the expression level of ABCG2 in 99 Japanese placenta samples revealed that individuals homozygous for the Q141K variant showed significantly lower expression levels of this transporter protein, while the heterozygous samples displayed an intermediate expression level (Kobayashi et al. 2005).
X
ABCG2 p.Gln141Lys 16160819:100:127
status: VERIFIED102 Based on these observations, it is assumed that the protein stability of the Q141K variant is significantly reduced without significant changes in its mRNA levels.
X
ABCG2 p.Gln141Lys 16160819:102:77
status: VERIFIED109 Imai et al. (2002) reported that the Q141K variant of ABCG2, stably expressed in PA317 cells, had a markedly lower expression level than the wild-type ABCG2 or the V12M variant.
X
ABCG2 p.Gln141Lys 16160819:109:37
status: VERIFIED110 In their study, the Q141K variant-transfected PA317 cells exhibited a low-level drug resistance compared with the wild-type ABCG2-transfected cells.
X
ABCG2 p.Gln141Lys 16160819:110:20
status: VERIFIED111 On the other hand, Mizuarai et al. (2004) expressed ABCG2 in polarized LLC-PK1 cells, and by using confocal microscopy demonstrated that the wild-type and the Q141K variant of ABCG2 mainly showed apical staining, while the V12M variant showed intracellular localization.
X
ABCG2 p.Gln141Lys 16160819:111:159
status: VERIFIED112 However, Kondo et al. (2004) demonstrated that both V12M and Q141K variants were localized at the apical membrane in LLC-PK1 cells.
X
ABCG2 p.Gln141Lys 16160819:112:61
status: VERIFIED113 These contradictory expression and localization data for ABCG2 variants indicate that differences in transfection conditions (transient or stable expression), the copy number of cDNA incorporated in genomic DNA or other cellular determinants may variably Table 2 Frequencies of ABCG2 alleles in different ethnic groups Position Ethnic group Variant allele Allele Reference Amino acid cDNA N Hetero Homo Frequency (%) V12M c.34G>A Japanese 29 9 1 19.0 Imai et al. (2002) Japanese 10 - - 15.0 Zamber et al. (2003) Japanese 220 61 8 17.5 Kobayashi et al. (2005) Chinese 10 - - 20.0 Zamber et al. (2003) Southeast Asians 10 - - 45.0 Zamber et al. (2003) Pacific Islanders 7 - - 64.0 Zamber et al. (2003) Swedish 60 2 0 1.7 B¨ackstr¨om et al. (2003) Dutch 100 11 1 6.5 Bosch et al. (2005) Caucasian 86 - - 2.0 Zamber et al. (2003) Caucasian 150 27 2 10.3 Mizuarai et al. (2004) Caucasian 150 11 0 3.7 Kobayashi et al. (2005) Ashkenazi Jewish 10 - - 10.0 Zamber et al. (2003) Middle Eastern 20 - - 5.0 Zamber et al. (2003) Africans North of Sahara 7 - - 14.0 Zamber et al. (2003) African American 150 17 1 6.3 Kobayashi et al. (2005) Mexicans 10 - - 10.0 Zamber et al. (2003) Hispanic Livers 5 - - 40.0 Zamber et al. (2003) Mexican Indians 5 - - 90.0 Zamber et al. (2003) Q126Stop c.376C>T Japanese 124 3 0 1.2 Imai et al. (2002) Japanese 60 2 0 1.7 Itoda et al. (2003) Japanese 220 4 0 0.9 Kobayashi et al. (2005) Caucasian 150 0 0 0.0 Mizuarai et al. (2004) Caucasian 150 0 0 0.0 Kobayashi et al. (2005) African American 150 0 0 0.0 Kobayashi et al. (2005) Q141K c.421C>A Japanese 124 48 9 26.6 Imai et al. (2002) Japanese 10 - - 35.0 Zamber et al. (2003) Japanese 220 90 27 32.7 Kobayashi et al. (2005) Chinese 95 43 11 34.2 de Jong et al. (2004) Chinese 10 - - 35.0 Zamber et al. (2003) Southeast Asians 10 - - 15.0 Zamber et al. (2003) Pacific Islanders 7 - - 14.0 Zamber et al. (2003) Swedish 60 10 1 10.0 B¨ackstr¨om et al. (2003) Dutch 100 20 2 12.0 Bosch et al. (2005) Caucasian 85 - - 14.0 Zamber et al. (2003) Caucasian 172 33 3 11.3 de Jong et al. (2004) Caucasian 150 22 2 8.7 Mizuarai et al. (2004) Caucasian 150 25 4 11.0 Kobayashi et al. (2005) Ashkenazi Jewish 10 - - 5.0 Zamber et al. (2003) Middle Eastern 20 - - 13.0 Zamber et al. (2003) Africans North of Sahara 7 - - 0.0 Zamber et al. (2003) African, Sub-Saharan 938 14 1 0.9 de Jong et al. (2004) African American 24 - - 0.0 Zamber et al. (2003) African American 150 5 1 2.3 Kobayashi et al. (2005) African American 94 8 1 5.3 de Jong et al. (2004) Mexicans 10 - - 5.0 Zamber et al. (2003) Hispanic Livers 5 - - 10.0 Zamber et al. (2003) Mexican Indians 5 - - 10.0 Zamber et al. (2003) R160Q c.479G>A Dutch 100 1 0 0.5 Bosch et al. (2005) I206L c.616A>C Japanese 10 - - 0.0 Zamber et al. (2003) Chinese 10 - - 0.0 Zamber et al. (2003) Southeast Asians 10 - - 0.0 Zamber et al. (2003) Pacific Islanders 7 - - 0.0 Zamber et al. (2003) Caucasian 65 - - 0.0 Zamber et al. (2003) Table 2 Continued Position Ethnic group Variant allele Allele Reference Amino acid cDNA N Hetero Homo Frequency (%) Ashkenazi Jewish 10 - - 0.0 Zamber et al. (2003) Middle Eastern 20 - - 0.0 Zamber et al. (2003) Africans North of Sahara 7 - - 0.0 Zamber et al. (2003) African American 15 - - 0.0 Zamber et al. (2003) Mexicans 10 - - 0.0 Zamber et al. (2003) Hispanic Livers 5 - - 10.0 Zamber et al. (2003) Mexican Indians 5 - - 0.0 Zamber et al. (2003) F431L c.1291T>C Japanese 60 1 0 0.8 Itoda et al. (2003) S441N c.1322G>A Japanese 100 1 0 0.5 Kobayashi et al. (2005) F489L c.1465T>C Japanese 60 1 0 0.8 Itoda et al. (2003) Japanese 100 1 0 0.5 Kobayashi et al. (2005) R575Stop c.1723C>T Dutch 100 1 0 0.5 Bosch et al. (2005) N590Y c.1768A>T Caucasian 65 - - 1.0 Zamber et al. (2003) Caucasian 150 1 0 0.3 Mizuarai et al. (2004) African Americans 15 - - 0.0 Zamber et al. (2003) D620N c.1858G>A Dutch 100 1 0 0.5 Bosch et al. (2005) affect the cellular processing and sorting of these proteins.
X
ABCG2 p.Gln141Lys 16160819:113:1565
status: VERIFIED114 Detailed studies are needed to clarify the mechanism of a reduced protein expression for Q141K and the altered cellular localization of V12M and Q141K variants.
X
ABCG2 p.Gln141Lys 16160819:114:89
status: VERIFIEDX
ABCG2 p.Gln141Lys 16160819:114:145
status: VERIFIED118 For this purpose, we have created variant forms of ABCG2 (V12M, G51C, Q126stop, Q141K, T153M, Q166E, I206L, E334stop, N590Y, D620N, R482G, and R482T) by site-directed mutagenesis.
X
ABCG2 p.Gln141Lys 16160819:118:80
status: VERIFIED131 Interestingly, the MTX transport activity of the Q141K variant was even higher than the wild type.
X
ABCG2 p.Gln141Lys 16160819:131:49
status: VERIFIED211 However, one of the two homozygous individuals showed increased accumulation of SN-38 and SN-38 glucuronide, indicating that the Q141K homodimer may have an im- Fig. 5 Molecular structures of newly synthesized CPT analogues and their anticancer activity in ABCG2-transfected HEK293 (HEK293/ABCG2) cells.
X
ABCG2 p.Gln141Lys 16160819:211:129
status: VERIFIED
PMID: 16169662
[PubMed]
Huang Y et al: "Membrane transporters and channels in chemoresistance and -sensitivity of tumor cells."
No.
Sentence
Comment
79
Two additional SNPs, i.e. V12M and Q141K, also affect substrate specificity and transport capacity of ABCG2 [26].
X
ABCG2 p.Gln141Lys 16169662:79:35
status: VERIFIED
PMID: 16259577
[PubMed]
Sakurai A et al: "Genetic polymorphisms of ATP-binding cassette transporters ABCB1 and ABCG2: therapeutic implications."
No.
Sentence
Comment
210
In different ethnic groups, seven naturally-occurring non-synonymous SNPs have been reported: V12M, Q126Stop, Q141K, I206L, F431L, S441N, F489L, N590Y and D620N.
X
ABCG2 p.Gln141Lys 16259577:210:110
status: VERIFIED211 Among the above variations, two alterations (c.34G > A [V12M], c.421C > A [Q141K]) affecting the protein structure have been reported to be polymorphic in several populations.
X
ABCG2 p.Gln141Lys 16259577:211:75
status: VERIFIED215 Non-synonymous SNPs are located at nucleotides 238 (exon 2) and 625 (exon 5), resulting in the amino acid substitutions V12M and Q141K.
X
ABCG2 p.Gln141Lys 16259577:215:129
status: VERIFIED221 The Q141K polymorphism located in exon 5 (c.421C > A) leads to the replacement of the negatively charged glutamic acid residue with a positively charged lysine residue.
X
ABCG2 p.Gln141Lys 16259577:221:4
status: VERIFIED223 The Q141K variant was also detected in all ethnic groups tested: the allele frequency was 1 - 35% (the African and African-American subjects had low allele frequencies, whereas those of the Table 4.
X
ABCG2 p.Gln141Lys 16259577:223:4
status: VERIFIED225 Location Position Allele Amino acid Allele frequency in Caucasian populations Allele frequency in Japanese populatins Allele frequency in African populations n % n % n % Exon 2 34 G A 12 Val 12 Met 546 94.4 5.6 259 82.4 17.6 181 93.7 6.3 Exon 4 376 C T 126 Gln 126 stop 300 100 0 404 98.9 1.1 150 100 0 Exon 5 421 C A 141 Gln 141 Lys 717 89.0 11.0 354 69.4 30.6 1213 98.6 1.4 Exon 5 479 G A 160 Arg 160 Gln 100 99.5 0.5 ND ND ND ND ND ND Exon 11 1291 T C 431 Phe 431 Leu ND ND ND 60 99.2 0.8 ND ND ND Exon 11 1322 G A 441 Ser 441 Asn ND ND ND 100 99.5 0.5 ND ND ND Exon 12 1465 T C 489 Phe 489 Leu ND ND ND 160 99.4 0.6 ND ND ND Exon 14 1723 C T 575 Arg 575 stop 100 99.5 0.5 ND ND ND ND ND ND Exon 15 1768 A T 590 Asn 590 Tyr 215 99.5 0.5 ND ND ND 15 100 0 Exon 16 1858 T A 620 Asp 620 Asp 100 99.5 0.5 ND ND ND ND ND ND Data are from [129-135,137].
X
ABCG2 p.Gln141Lys 16259577:225:322
status: VERIFIED229 Imai et al. [129] have demonstrated that the ABCG2 Q141K variant-transfected PA317 cells showed a low-level of drug resistance associated with decreased protein expression.
X
ABCG2 p.Gln141Lys 16259577:229:51
status: VERIFIED231 The SNP (Q141K) was postulated to cause increased sensitivity of normal cells to anticancer agents that are ABCG2 substrates, such as topotecan, diflomotecan and SN-38.
X
ABCG2 p.Gln141Lys 16259577:231:9
status: VERIFIED232 An investigation of the expression level of ABCG2 in 99 Japanese placenta samples revealed that individuals homozygous for the Q141K variant showed significantly lower expression levels of this transporter protein, and the heterozygous samples displayed an intermediate expression level [134].
X
ABCG2 p.Gln141Lys 16259577:232:127
status: VERIFIED235 It is assumed that the protein stability of the Q141K variant is reduced without significant changes in its mRNA levels.
X
ABCG2 p.Gln141Lys 16259577:235:48
status: VERIFIED237 It has been postulated that the 376C > T SNP may have higher impact than the 421C > A polymorphism causing Q141K because active ABCG2 protein will not be synthesised from the variant allele.
X
ABCG2 p.Gln141Lys 16259577:237:107
status: VERIFIED242 Imai et al. [129] reported that the Q141K variant of ABCG2 stably expressed in PA317 cells had a markedly lower expression level than the wild-type ABCG2 or the V12M variant.
X
ABCG2 p.Gln141Lys 16259577:242:36
status: VERIFIED243 In their study, the Q141K variant-transfected PA317 cells exhibited a low-level drug resistance compared with that of wild-type ABCG2-transfected cells.
X
ABCG2 p.Gln141Lys 16259577:243:20
status: VERIFIED244 On the other hand, Mizuarai et al. [135] expressed ABCG2 in polarised LLC-PK1 cells, and by using confocal microscopy demonstrated that the wild-type and the Q141K variant of ABCG2 showed mainly apical staining, and the V12M variant showed intracellular localisation.
X
ABCG2 p.Gln141Lys 16259577:244:158
status: VERIFIED245 However, Kondo et al. [138] demonstrated that both V12M and Q141K variants were localised at the apical membrane in LLC-PK1 cells.
X
ABCG2 p.Gln141Lys 16259577:245:60
status: VERIFIED250 COOH H2N N590Y V12M G51C Q126stop Q141K T153M Q166E I206L F208S S248P E334stop F431L F489L D620N R482G R482T S441N F571I EXTRACELLULAR INTRACELLULAR R160Q R575stop ATP-binding site (transient or stable expression), the copy number of cDNA incorporated in genomic DNA or other cellular determinants may variably affect the cellular processing and sorting of these proteins.
X
ABCG2 p.Gln141Lys 16259577:250:34
status: VERIFIED251 Detailed studies are needed to clarify the mechanism of a reduced protein expression for Q141K and the altered cellular localisation of V12M and Q141K variants.
X
ABCG2 p.Gln141Lys 16259577:251:89
status: VERIFIEDX
ABCG2 p.Gln141Lys 16259577:251:145
status: VERIFIED255 For this purpose, variant forms of ABCG2 (V12M, G51C, Q126stop, Q141K, T153M, Q166E, I206L, E334stop, N590Y, D620N, R482G and R482T) were created by site-directed mutagenesis (Figure 3).
X
ABCG2 p.Gln141Lys 16259577:255:64
status: VERIFIED268 Interestingly, the MTX transport activity of the Q141K variant was even higher than the wild type.
X
ABCG2 p.Gln141Lys 16259577:268:49
status: VERIFIED768 IMAI Y, NAKANE M, KAGE K et al.: C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance. Mol. Cancer Ther. (2002) 1(8):611-616.
X
ABCG2 p.Gln141Lys 16259577:768:140
status: VERIFIED651 IMAI Y, NAKANE M, KAGE K et al.: C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance. Mol. Cancer Ther. (2002) 1(8):611-616. 130.
X
ABCG2 p.Gln141Lys 16259577:651:140
status: NEW
PMID: 16271446
[PubMed]
Smith NF et al: "Pharmacogenetics of irinotecan metabolism and transport: an update."
No.
Sentence
Comment
998
Of these, the most extensively studied is the 421C > A transversion, which results in an amino acid change of glutamine to lysine at codon 141 (Q141K).
X
ABCG2 p.Gln141Lys 16271446:998:110
status: NEWX
ABCG2 p.Gln141Lys 16271446:998:144
status: NEW
PMID: 16303243
[PubMed]
Yanase K et al: "Functional SNPs of the breast cancer resistance protein-therapeutic effects and inhibitor development."
No.
Sentence
Comment
1
We have previously identified three polymorphisms within the BCRP gene, G34A (substituting Met for Val-12), C376T (substituting a stop codon for Gln-126) and C421A (substituting Lys for Gln-141).
X
ABCG2 p.Gln141Lys 16303243:1:178
status: VERIFIED42 C421A (Q141K) BCRP SNP We have previously identified three variant BCRP cDNAs, containing the substitutions G34A (V12M), C421A (Q141K) and a 944-949 deletion lacking Ala-315 and Thr-316 (D315-6) [23].
X
ABCG2 p.Gln141Lys 16303243:42:7
status: VERIFIEDX
ABCG2 p.Gln141Lys 16303243:42:128
status: VERIFIED44 We have subsequently found that C421A BCRP-transfected murine fibroblast PA317 (PA/Q141K) cells show markedly decreased exogenous protein expression and also a low-level of drug resistance when normalized to wild-type BCRP-transfected (PA/WT) cells (Fig. 1 and Table 1).
X
ABCG2 p.Gln141Lys 16303243:44:83
status: VERIFIED46 We had already shown in our previous study that the intracellular topotecan accumulation in PA/Q141K cells was higher than in other BCRP transfectants [23].
X
ABCG2 p.Gln141Lys 16303243:46:95
status: VERIFIED47 Kondo et al. have also reported low Q141K-BCRP protein expression levels using adenovirus-mediated gene transfection [24].
X
ABCG2 p.Gln141Lys 16303243:47:36
status: VERIFIED56 This may be associated with a greater susceptibility ofthe resultingBCRP protein (Q141K) to degradation [23].
X
ABCG2 p.Gln141Lys 16303243:56:82
status: VERIFIED58 We previously examined the frequency of the C421A SNP in a normal Japanese population and found that 57/124 samples carried the A421 allele and that nine of these were homozygous for this polymorphism [23], indicating that some individuals possess the C421A polymorphic BCRP gene and express low amounts of the Q141K BCRP.
X
ABCG2 p.Gln141Lys 16303243:58:311
status: VERIFIED74 However, in our Table 1 Drug sensitivities of BCRP-transfected PA317 cells Cells IC50 (ng/ml) SN-38 Topotecan MXR PA317 2.5 0.060 17 PA/WT 98 0.58 O200 PA/V12M 98 0.63 O200 PA/Q141K 30 0.25 100 PA/D315-6 55 0.42 190 Cells were cultured for 5 days in the absence or presence of increasing concentrations of the indicated anticancer agents.
X
ABCG2 p.Gln141Lys 16303243:74:176
status: VERIFIED92 Therefore, we first Table 3 SNPs within the BCRP gene Variation Region Effect Domain A-1379G 50 -flanking (promoter) - D-654-651 50 -flanking (promoter) - G-286C 50 -flanking (promoter) - T-476C Exon 1 (50 - UTR) - D-235A Exon 1 (50 - UTR) - A-113G Exon 1 (50 - UTR) - A-29G Exon 1 (50 - UTR) - G34A Exon 2 V12M N-terminal T114C Exon 2 No change N-terminal G151T Exon 2 G51C N-terminal C369T Exon 4 No change NBD C376T Exon 4 Q126stop NBD C421A Exon 5 Q141K NBD C458T Exon 5 T153M NBD C474T Exon 5 No change NBD C496G Exon 5 Q166E NBD A564G Exon 6 No change NBD A616C Exon 6 I206L NBD T623C Exon 6 F208S NBD T742C Exon 7 S248P Linker G1000T Exon 9 E334stop Linker G1098A Exon 9 No change Linker T1291C Exon 11 F431L TMD A1425G Exon 12 No change TMD T1465C Exon 12 F489L TMD A1768T Exon 15 N590Y TMD G1858A Exon 16 D620N TMD G2237T Exon 16 (30 - UTR) - G2393T Exon 16 (30 - UTR) - Abbreviations: UTR, untranslated region; NBD, nucleotide-binding domain; TMD, transmembrane domain.
X
ABCG2 p.Gln141Lys 16303243:92:452
status: VERIFIED187 [23] Y. Imai, M. Nakane, K. Kage, S. Tsukahara, E. Ishikawa, T. Tsuruo, et al., C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance, Mol. Cancer Ther. 1 (2002) 611-616.
X
ABCG2 p.Gln141Lys 16303243:187:187
status: VERIFIED
PMID: 16309825
[PubMed]
Nakagawa H et al: "Molecular modeling of new camptothecin analogues to circumvent ABCG2-mediated drug resistance in cancer."
No.
Sentence
Comment
112
However, one of the two homozygous individuals showed increased accumulation of SN-38 and SN-38 glucuronide, indicating that the Q141K homodimer may have an impaired function.
X
ABCG2 p.Gln141Lys 16309825:112:129
status: VERIFIED
PMID: 16337740
[PubMed]
Cervenak J et al: "The role of the human ABCG2 multidrug transporter and its variants in cancer therapy and toxicology."
No.
Sentence
Comment
109
To date, altogether eight non-synonymous (V12M, Q141K, I206L, F431L, S441N, F489L, N590Y, D620N), five synonymous (silent) (c.114TOC, c.369COT, c.474COT, c.1098GOA, c.1425AOG) missense mutations, one nonsense (Q126X), and one frameshift (c.1515delC) mutations were identified in the coding region of ABCG2 in healthy individuals or in patients [43-46,49,63-65].
X
ABCG2 p.Gln141Lys 16337740:109:48
status: VERIFIED110 Among the above variations, affecting the protein structure, two alterations [c.34GOA (V12M), c.421CO A (Q141K)] have been reported to be polymorphic in several populations.
X
ABCG2 p.Gln141Lys 16337740:110:105
status: VERIFIED119 The Q141K polymorphism located in exon 5 (c.421COA) leads to the replacement of the negatively charged glutamic acid residue with a positively charged lysine residue.
X
ABCG2 p.Gln141Lys 16337740:119:4
status: VERIFIED121 The Q141K variant was also detected in all ethnic groups tested: the allele frequency ranged between 1 and 35%, (the African and African-American subjects with low, while the Japanese and Chinese populations with high allele frequencies) [46,63].
X
ABCG2 p.Gln141Lys 16337740:121:4
status: VERIFIED123 On the basis of definitive molecular haplotype analyses (PCR-RFLP) for the three major variants [c.34GOA (V12M), c.376COT (Q126X), c.421COA (Q141K)] in a Japanese population, four haplotypes were identified G-C-C (V-Q-Q), G-C-A (V-Q-K), A-CC (M-Q-Q), and G-T-C (V-X-Q).
X
ABCG2 p.Gln141Lys 16337740:123:141
status: VERIFIED127 The above results collectively suggest that the V12M, Q126X, and Q141K variants are likely to occur on separate chromosomes.
X
ABCG2 p.Gln141Lys 16337740:127:65
status: VERIFIED130 Mainly the two major non-synonymous polymorphisms, V12M and Q141K, were investigated.
X
ABCG2 p.Gln141Lys 16337740:130:60
status: VERIFIED132 Imai et al. [64] and Morisaki et al. [66] in stable mammalian expression systems found that in PA317 or HEK-293 cells the expressed Q141K ABCG2 protein had a lower expression level than the wild-type ABCG2, or the V12M variant.
X
ABCG2 p.Gln141Lys 16337740:132:132
status: VERIFIED133 Morisaki et al. demonstrated that both the V12M and Q141K ABCG2 could reach the plasma membrane in the HEK-293 cells, while a significant portion of Table 1 Summary of population genetics data on naturally occurring sequence variations, affecting the coding region of the human ABCG2 gene Position in the ABCG2 genea Position in the ABCG2 cDNAb Amino acid substitution Population n C/K C/C AF (%G 95%CI) Ref.
X
ABCG2 p.Gln141Lys 16337740:133:52
status: VERIFIED134 g.34GOA (exon 2) c.34GOA V12M Caucasian 150 27 2 10.3G3.5 [47] Caucasian 150 11 0 3.7G2.2 [46] Caucasian 86 n.a n.a 2.0Gn.a [49] Swedish 60 2 0 1.7G2.3 [43] Total Caucasian 360 40 2 6.1G1.8 Japanese 220 61 8 17.5G3.6 [46] Japanese 29 9 1 19.0G10.3 [64] Total Japanese 249 70 9 17.7G3.4 African-American 150 17 1 6.3G2.8 [46] g.8191COT (exon 4) c.376COT Q126X Caucasian 150 0 0 0.0 [46] Caucasian 150 0 0 0.0 [47] Total Caucasian 300 0 0 0.0 Japanese 220 4 0 0.9G0.9 [46] Japanese 124 3 0 1.2G1.4 [64] Japanese 60 2 0 1.7G2.3 [45] Total Japanese 404 9 0 1.1G0.7 African-American 150 0 0 0.0 [46] g.8825CO A (exon 5) c.421COA Q141K Caucasian 172 33 3 11.3G3.4 [63] Caucasian 150 25 4 11.0G3.6 [46] Caucasian 150 22 2 8.7G3.2 [47] Caucasian 85 n.a n.a 14.0Gn.a [49] Swedish 60 10 1 10.0G5.5 [43] Total Caucasian 532 90 10 10.3G1.9 Japanese 220 90 27 32.7G4.5 [46] Japanese 124 48 9 26.6G5.6 [64] Chinese 95 43 11 34.2G6.9 [63] Total Asian 439 181 47 31.3G3.1 African, Sub-Saharan 938 14 1 0.9G0.4 [63] African-American 150 5 1 2.3G1.7 [46] African-American 94 8 1 5.3G3.3 [63] Total Africanc 1182 27 3 1.4G0.5 g.40645AO T (exon 12) c.1465TOC F489L Japanese 100 1 0 0.5G1.0 [46] Japanese 60 1 0 0.8G1.7 [45] Total Japanese 160 2 0 0.6G0.9 g.45367AO T (exon 15) c.1768AOT N590Y Caucasian 150 1 0 0.3G0.7 [47] Caucasian 65 1 0 0.8G1.5 [49] Total Caucasian 215 2 0 0.5G0.7 Only those cDNA SNPs were listed that were detected in at least two independent studies.
X
ABCG2 p.Gln141Lys 16337740:134:624
status: VERIFIED142 J. Cervenak et al. / Cancer Letters 234 (2006) 62-72 67 Q141K (though having a lower expression level), remained intracellular [66].
X
ABCG2 p.Gln141Lys 16337740:142:57
status: VERIFIED143 According to other studies, a 30-40% reduction in cell surface expression of the Q141K variant, although having a similar mRNA level than the wild-type ABCG2, was observed [55,64].
X
ABCG2 p.Gln141Lys 16337740:143:81
status: VERIFIED144 Recent investigation of the expression level of ABCG2 in 99 Japanese placenta samples revealed that individuals homozygous for the Q141K variant showed significantly lower expression levels of this transporter protein, while the heterozygous samples displayed an intermediate expression level [46].
X
ABCG2 p.Gln141Lys 16337740:144:131
status: VERIFIED146 Mizuarai et al. expressed ABCG2 in polarized LLC-PKI cells, and by using confocal microscopy demonstrated that the wtABCG2 and Q141K showed mainly apical staining, while the V12M variant showed intracellular localization [47].
X
ABCG2 p.Gln141Lys 16337740:146:127
status: VERIFIED147 In a recent study, similarly LLC-PKI cells where used to express the V12M and Q141K variants and additionally five other polymorphisms (A149P, R163K, Q166E, P269S and S441N [55]).
X
ABCG2 p.Gln141Lys 16337740:147:78
status: VERIFIED148 Interestingly, they found that all polymorphisms, including V12M and Q141K, had an apical localization, and only the S441N variant showed intracellular staining.
X
ABCG2 p.Gln141Lys 16337740:148:69
status: VERIFIED151 Clearly, more detailed studies are required to clarify the mechanism of a reduced protein expression for Q141K, and the altered cellular localization found for the V12M and Q141K variants under certain conditions.
X
ABCG2 p.Gln141Lys 16337740:151:105
status: VERIFIEDX
ABCG2 p.Gln141Lys 16337740:151:173
status: VERIFIED153 When the functions of the ABCG2 variants were examined in cytotoxicity assays, a 10-fold decrease in drug resistance, as compared to the wild-type ABCG2, was reported by Mizuarai et al., when the V12M or Q141K-transfected LLC-PKI cells were challenged by mitoxantrone, topotecan, or an indolocarbazole topoisomerase I inhibitor [47].
X
ABCG2 p.Gln141Lys 16337740:153:204
status: VERIFIED154 In contrast, Morisaki et al. found that only the Q141K variant had a moderately lower level resistance against mitoxantrone, topotecan or SN-38, as compared to the wild-type ABCG2-transfected cells [66].
X
ABCG2 p.Gln141Lys 16337740:154:49
status: VERIFIED161 Q141K is mapped in the functionally important ATP-binding cassette region of ABCG2 (Fig. 1) between the Walker A and the signature motifs, therefore, it is possible that the ATPase activity of this variant is altered.
X
ABCG2 p.Gln141Lys 16337740:161:0
status: VERIFIED162 Two studies compared the vanadate-sensitive ATPase activity of ABCG2 V12M and Q141K variants, using Sf9 (Spodoptera frugiperda) cell membranes [47,66].
X
ABCG2 p.Gln141Lys 16337740:162:78
status: VERIFIED163 A reduced, 1.3 and 1.8-fold lower basal ATPase activity was observed by Mizuarai et al. and Morisaki et al., respectively, for the Q141K than for wild-type ABCG2.
X
ABCG2 p.Gln141Lys 16337740:163:131
status: VERIFIED182 A recent investigation performed an exploratory, retrospective evaluation of the functional consequence of the ABCG2 421COA (Q141K) variant in 20 adult white patients, treated with diflomotecan [72].
X
ABCG2 p.Gln141Lys 16337740:182:125
status: VERIFIED185 This observation is in harmony with studies indicating a reduced protein expression and function for the Q141K variant, while seems to contradict the results of de Jong et al. As mentioned above, the allele frequency of ABCG2 421COA (Q141K) varies in diverse populations (Table 1), and in Japan and China this polymorphism appears to be common, with an overall allele frequency of 31.3G3.1%.
X
ABCG2 p.Gln141Lys 16337740:185:105
status: VERIFIEDX
ABCG2 p.Gln141Lys 16337740:185:234
status: VERIFIED
No.
Sentence
Comment
202
This ABCG2 421COA transversion results in an amino acid change of glutamine to lysine at codon 141 [151-153], and leads to altered substrate specificity and function of the mutant protein [151,154].
X
ABCG2 p.Gln141Lys 16343744:202:66
status: VERIFIED
PMID: 16399366
[PubMed]
Ishikawa T et al: "High-speed screening of human ATP-binding cassette transporter function and genetic polymorphisms: new strategies in pharmacogenomics."
No.
Sentence
Comment
115
For this purpose, variant forms (V12M, G51C, Q126stop, Q141K, T153M, Q166E, I206L, E334stop, N590Y, D620N, R482G, and R482T) have been created by site‐ directed mutagenesis with the QuikChange site‐directed mutagensis kit (Stratagene, La Jolla, CA).
X
ABCG2 p.Gln141Lys 16399366:115:55
status: NEW233 Figure 13 shows the result of SNP array detection where nonsynonymous polymorphisms of ABCG2, that is, Q126stop and Q141K, were analyzed.
X
ABCG2 p.Gln141Lys 16399366:233:116
status: NEW235 Imai et al. (2002) identified three allelic variants in the ABCG2 gene, of which two were nonsynonymous SNPs (V12M and Q141K) and the third was a splice variant with deletion of nucleotides 944-949 that lacks Ala‐315 and Thr‐316 (Á315‐6).
X
ABCG2 p.Gln141Lys 16399366:235:119
status: NEW236 Compared with wild‐type transfected cells, ABCG2 Q141K variant‐transfected cells showed a low level of drug resistance that is associated with decreased protein expression.
X
ABCG2 p.Gln141Lys 16399366:236:56
status: NEW237 The SNP (Q141K) was postulated to cause increased sensitivity of normal cells to anticancer agents that are ABCG2 substrates such as SN‐38.
X
ABCG2 p.Gln141Lys 16399366:237:9
status: NEW242 It has been postulated that the 376C>T SNP may have a higher impact than the 421C>A polymorphism causing Q141K because active ABCG2 protein will not be synthesized from the variant allele.
X
ABCG2 p.Gln141Lys 16399366:242:105
status: NEW249 Detection of nonsynonymous polymorphisms (Q126stop and Q141K) of ABCG2 with the SNP array.
X
ABCG2 p.Gln141Lys 16399366:249:55
status: NEW
No.
Sentence
Comment
296
The two SNPs most frequently identified were in exon 2 (G34A, resulting in a V12M change) and exon 5 (C421A, resulting in a Q141K substitution).
X
ABCG2 p.Gln141Lys 16402910:296:124
status: NEW
PMID: 16454695
[PubMed]
Tian Q et al: "Topotecan is a substrate for multidrug resistance associated protein 4."
No.
Sentence
Comment
47
However, resistance levels of TPT are inconsistent in different BCRP overexpressing cell lines [51-59], probably due to the existence of three mutant variants of BCRP resulting in the amino acid changes at V12M, Q141K and D620N [63-67].
X
ABCG2 p.Gln141Lys 16454695:47:212
status: VERIFIED
PMID: 16520651
[PubMed]
Ahmed-Belkacem A et al: "Inhibitors of cancer cell multidrug resistance mediated by breast cancer resistance protein (BCRP/ABCG2)."
No.
Sentence
Comment
81
Iressa transport/binding appears to be dependent on natural ABCG2 polymorphisms such as Q141K [36].
X
ABCG2 p.Gln141Lys 16520651:81:88
status: VERIFIED
PMID: 16608919
[PubMed]
Tamura A et al: "Functional validation of the genetic polymorphisms of human ATP-binding cassette (ABC) transporter ABCG2: identification of alleles that are defective in porphyrin transport."
No.
Sentence
Comment
2
In the present study, based on the currently available data on SNPs and acquired mutations, we have created a total of 18 variant forms of ABCG2 (V12M, G51C, Q126stop, Q141K, T153M, Q166E, I206L, F208S, S248P, E334stop, F431L, S441N, R482G, R482T, F489L, F571I, N590Y, and D620N) by site-directed mutagenesis and expressed them in insect cells.
X
ABCG2 p.Gln141Lys 16608919:2:168
status: NEW82 GC indicates the percentage of guanine and cytosine contents in the PCR primer set. Tm shows the melting temperature (Tm) for each PCR primer set. Variant and Primers Primer Sequence (5Ј 3 3Ј) Primer Length GC Tm bases % °C V12M 33 39 55 Forward CGAAGTTTTTATCCCAATGTCACAAGGAAACAC Reverse GTGTTTCCTTGTGACATTGGGATAAAAACTTCG G51C 42 35 59 Forward ATCGAGTAAAACTGAAGAGTTGCTTTCTACCTTGTAGAAAAC Reverse GTTTTCGACAAGGTAGAAAGCAACTCTTCAGTTTTACTCGAT Q126stop 40 40 62 Forward GTAATTCAGGTTACGTGGTATAAGATGATGTTGTGATGGG Reverse CCCATCACAACATCATCTTATACCACGTAACCTGAATTAC Q141K 35 42 55 Forward CGGTGAGAGAAAACTTAAAGTTCTCAGCAGCTCTT Reverse AAGAGCTGCTGAGAACTTTAAGTTTTCTCTCACCG T153M 42 40 60 Forward CGGCTTGCAACAACTATGATGAATCATGAAAAAAACGAACGG Reverse CCGTTCGTTTTTTTCATGATTCATCATAGTTGTTGCAAGCCG Q166E 35 42 55 Forward GGATTAACAGGGTCATTGAAGAGTTAGGTCTGGAT Reverse ATCCAGACCTAACTCTTCAATGACCCTGTTAATCC I206L 36 44 59 Forward CTTATCACTGATCCTTCCCTCTTGTTCTTGGATGAG Reverse CTCATCCAAGAACAAGAGGGAAGGATCAGTGATAAG F208S 35 45 55 Forward TGATCCTTCCATCTTGTCCTTGGATGAGCCTACAA Reverse TTGTAGGCTCATCCAAGGACAAGATGGAAGGATCA S248P 35 40 55 Forward TTCATCAGCCTCGATATCCCATCTTCAAGTTGTTT Reverse AAACAACTTGAAGATGGGATATCGAGGCTGATGAA E334stop 35 31 55 Forward TCATAGAAAAATTAGCGTAGATTTATGTCAACTCC Reverse GGAGTTGACATAAATCTACGCTAATTTTTCTATGA F431L 28 60 62 Forward AGCTGGGGTTCTCCTCTTCCTGACGACC Reverse GGTCGTCAGGAAGAGGAGAACCCCAGCT S441N 34 47 59 Forward AACCAGTGTTTCAGCAATGTTTCAGCCGTGGAAC Reverse GTTCCACGGCTGAAACATTGCTGAAACACTGGTT F489L 46 34 62 Forward GAGGATGTTACCAAGTATTATACTTACCTGTATAGTGTACTTCATG Reverse CATGAAGTACACTATACAGGTAAGTATAATACTTGGTAACATCCTC F571I 36 47 61 Forward GTCATGGCTTCAGTACATCAGCATTCCACGATATGG Reverse CCATATCGTGGAATGCTGATGTACTGAAGCCATGAC N590Y 42 38 62 Forward CATAATGAATTTTTGGGACAATACTTCTGCCCAGGACTCAAT Reverse ATTGAGTCCTGGGCAGAAGTATTGTCCCAAAAATTCATTATG D620N 32 56 62 Forward GGTAAAGCAGGGCATCAATCTCTCACCCTGGG Reverse CCCAGGGTGAGAGATTGATGCCCTGCTTTACC veloped by using Western Lighting Chemiluminescent Reagent Plus (PerkinElmer Life and Analytical Sciences, Boston, MA) and detected by Lumino Imaging Analyzer FAS-1000 (Toyobo Engineering, Osaka, Japan).
X
ABCG2 p.Gln141Lys 16608919:82:571
status: NEW144 For this purpose, based on the currently available data on SNPs and acquired mutations, we generated variant forms (i.e., V12M, G51C, Q126stop, Q141K, T153M, Q166E, I206L, F208S, S248P, E334stop, F431L, S441N, R482G, R482T, F489L, F571I, N590Y, and D620N) by site-directed mutagenesis.
X
ABCG2 p.Gln141Lys 16608919:144:144
status: NEW214 In the present study, based on the currently available data on SNPs and acquired mutations, we have created a total of 18 variant forms of ABCG2 (V12M, G51C, Q126stop, Q141K, T153M, Q166E, I206L, F208S, S248P, E334stop, F431L, S441N, R482G, R482T, F489L, F571I, N590Y, and D620N) by site-directed mutagenesis and expressed them in insect cells.
X
ABCG2 p.Gln141Lys 16608919:214:168
status: NEW219 The frequencies of the Q126stop, S441N, and F489L alleles are relatively low (less than 2%) compared with those of the V12M and Q141K alleles.
X
ABCG2 p.Gln141Lys 16608919:219:128
status: NEW224 Potential Risk Amino Acid Transport Allele Frequency cDNA Position Located on Exon Allele Data Sourcea Hemato MTX Wild-Type Allele % V12M ϩϩ ϩϩ 2.0-90.0 34 2 G A 1, 2, 4, 5, 7, 8 ૽૽ Q126stop - - 0.0-1.7 376 4 C T 1, 3, 5, 7 Q141K ϩϩ ϩϩ 0.0-35.5 421 5 C A 1, 2, 4, 5, 6, 7, 8 T153M ϩϩ ϩϩ 3.3 458 5 C T 5 R160Q N.D. N.D. 0.5 479 5 G A 8 Q166E ϩϩ ϩϩ N.D. 496 5 C G NCBI dbSNP rs1061017 I206L ϩϩ ϩϩ 10.0 616 6 A C 2 ૽૽ F208S - - N.D. 623 6 T C NCBI dbSNP rs1061018 ૽૽ S248P - - N.D. 742 7 T C NCBI dbSNP rs3116448 ૽૽ E334stop - - N.D. 1000 9 G T NCBI dbSNP rs3201997 F431L ϩϩ - 0.8 1291 11 T C 3 ૽૽ S441N - - 0.5 1322 11 G A 7 ૽ F489L ϩ - 0.5-0.8 1465 12 T C 3, 7 F571L ϩϩ ϩϩ 0.5 1711 14 T A NCBI dbSNP rs9282571 (૽૽) R575stop N.D. N.D. 0.5 1723 14 C T 8 N590Y ϩϩ ϩϩ 0.0-1.0 1768 15 A T 2, 5 D620N ϩϩ ϩϩ 0.5 1858 16 G A 8 Hemato, hematoporphyrin; NCBI, National Center for Biotechnology Information; N.D., not determined; ૽, risk of porphyria; (૽), potential risk is assumed as the lack of transport activity being as a result of a truncated protein.
X
ABCG2 p.Gln141Lys 16608919:224:260
status: NEW
PMID: 16702730
[PubMed]
Maekawa K et al: "Genetic variation and haplotype structure of the ABC transporter gene ABCG2 in a Japanese population."
No.
Sentence
Comment
17
In vitro studies have also indicated that a number of anticancer drugs are good substrates for ABCG2: e.g. topotecan, an irinotecan metabolite, 7-ethyl-10-hydroxycamptothecin (SN-38), and its glucuronide conjugate, SN-38G.810) Indeed, inhibition of the murine ABCG2 homologue, Bcrp 1, increases the bioavailability of topotecan when orally administered to mdr1aW1b- decient mice.11) In a clinical study, coadministration of topotecan with GF120918, a dual inhibitor for ABCG2 and P-glycoprotein, was shown to markedly increase the bioavailability and systemic exposure of topotecan.12) The cloning of ABCG2 from drug-selected cell lines revealed that acquired amino acid substitutions at residue 482 (Arg482Gly and Arg482Thr) of ABCG2 resulted in marked alterations in substrate recognition and transport ability.13) Thereafter, naturally occurring genetic variations in ABCG2 have been extensively examined in various ethnic populations1421) because they were expected to explain interindividual dierences in oral bioavailability and clearance of ABCG2 substrate drugs.22) Two nonsynonymous polymorphisms, 34GÀA (Val12Met) and 421CÀA (Gln141Lys), were detected at relatively high frequencies in most ethnic groups including Caucasians, Asians, and Africans.1416,1821,23) Both polymorphisms were reported to be associated with reduced protein expression in vitro andWor the increased sensitivity of the expressed cells toward several anticancer drugs although conicting data were also reported.16,2426) The expression of ABCG2 protein in placenta was signicantly lower in homozygotes with the 421A alleles than in those with the 421C alleles, while 34GÀA (Val12Met) did not aect ABCG2 protein expression.23) However, in intestinal samples, no association was found between the ABCG2 protein levels and the 421CÀA (Gln141Lys) genotype.18) A pharmacokinetic study showed that 421A (Gln141Lys) was unlikely to inuence the in vivo disposition of irinotecan in European Caucasian cancer patients.27) On the other hand, diomotecan pharmacokinetics were signicantly aected by the 421A genotype.28) To explain these inconsistencies, the elucidation of the haplotype structure of ABCG2 would be helpful; however, only limited information is available for the linkage disequilibrium (LD) prole and haplotype structure of this gene.20,21) Also, to facilitate future pharmacogenetic studies on ABCG2 genetic variations, haplotype analysis using its high-density SNPs found in a large number of samples is warranted.
X
ABCG2 p.Gln141Lys 16702730:17:1170
status: VERIFIEDX
ABCG2 p.Gln141Lys 16702730:17:1171
status: NEWX
ABCG2 p.Gln141Lys 16702730:17:1894
status: VERIFIED80 However, marked ethnic dierences in the allele frequencies were observed with |1203ä |1200delCTCA, 34GÀA (Val12Met), 421CÀA (Gln141Lys), and some intronic variations.
X
ABCG2 p.Gln141Lys 16702730:80:146
status: VERIFIED85 115Haplotype Structure in Human ABCG2 (from |1836 to |1175 bp upstream of the translational start site) of the basal promoter,30) and was suggested to inuence irinotecan pharmacokinetics.31) The frequencies of two well-known nonsynonymous SNPs, 34GÀA (Val12Met) and 421CÀA (Gln141Lys), were 0.192 and 0.319 in our study, which were comparable to those in Chinese (0.204 and 0.2220.350, respectively).20,27) However, the frequencies were much higher than those in Caucasians (0.020.065 and 0.080.15), African-Americans (00.09 and 00.05), and a Swedish population (0.02 and 0.1).18,19,21,23,27) Of other relatively rare nonsynonymous SNPs, 376CÀT (Gln126X), 1291TÀC (Phe431Leu), 1322GÀA (Ser441Asn), 1465TÀC (Phe489Leu), and 1515delC (Phe506SerfsX4) were already detected in a Japanese population by Itoda et al.17) andWor Kobayashi et al.,23) but not found in other ethnic groups.
X
ABCG2 p.Gln141Lys 16702730:85:290
status: VERIFIED101 Strong LDs (r2 À0.7) were observed between |262CÀT and 1098GÀA (Glu366Glu) (r2 0.798), between 421CÀA (Gln141Lys) and IVS12{49GÀT (r2 0.709), and among IVS11{20AÀG, IVS1321CÀT, and IVS15{110CÀT (r2 À0.720).
X
ABCG2 p.Gln141Lys 16702730:101:129
status: VERIFIED115 No close associations were observed (r2 º0.70) between the variations across the blocks except for one pair of SNPs, 421CÀA (Gln141Lys) and IVS12{49GÀT, Fig. .
X
ABCG2 p.Gln141Lys 16702730:115:135
status: VERIFIED130 In Block 1, seven haplotype groups (*1 to *7) were inferred, and the groups of *2 to *7 harbored non-synonymous SNPs, 421CÀA (Gln141Lys) (*2), 34GÀA (Val12Met) (*3), 376CÀT (Gln126X) (*4), 38CÀT (Ser13Leu) (*5), 479GÀA (Arg160Gln) (*6), and 1060GÀA (Gly354Arg) (*7).
X
ABCG2 p.Gln141Lys 16702730:130:130
status: NEW134 The haplotype-tagging SNPs (htSNPs) that were able to resolve the 8 common haplotypes were the following 7 variations: IVS199GÀA, 34GÀA (Val12Met), IVS293TÀC, 376CÀT (Gln126X), 421CÀA (Gln141Lys), IVS6217AÀG, and IVS6204CÀT.
X
ABCG2 p.Gln141Lys 16702730:134:222
status: VERIFIED154 Mizuarai et al. showed that 34GÀA (Val12Met) was associated with reduced drug resistance in polarized LLC-PK1 cells, which might be caused by its impaired apical membrane localization.25) In contrast, several groups did not nd any signicant eects of Val12Met on the protein expression levels as well as drug resistance using stable and transient mammalian expression systems.16,24,26) According to Imai et al. and Kondo et al.,16,24) the Gln141Lys substitution resulted in decreased protein expression and reduced drug resistance.
X
ABCG2 p.Gln141Lys 16702730:154:461
status: VERIFIED162 Except for Val12Met, Gln126X, and Gln141Lys, the allele frequencies of eight nonsynonymous SNPs were less than 0.01, and these low frequency variations do not largely contribute to the overall heterozygosity of ABCG2; however, they might have clinical importance.
X
ABCG2 p.Gln141Lys 16702730:162:34
status: VERIFIED174 Nevertheless, the frequency (31.9z) of the haplotype *2a in Block 1 harboring 421CÀA (Gln141Lys) was comparable to their counterpart (20.4z).
X
ABCG2 p.Gln141Lys 16702730:174:91
status: VERIFIED176 Therefore, the substitution itself of Gln141 to Lys is likely to be responsible for the reduced expression of ABCG2 protein in placenta as demonstrated by Kobayashi et al.23) Furthermore, Chinese and Japanese share several common Block 2 haplotypes, *1a, *1b, *1c, and *1dW *1e.
X
ABCG2 p.Gln141Lys 16702730:176:38
status: VERIFIED
PMID: 16766035
[PubMed]
Cascorbi I et al: "Role of pharmacogenetics of ATP-binding cassette transporters in the pharmacokinetics of drugs."
No.
Sentence
Comment
901
Both identified 34G>A (V12M) and 421C>A (Q141K).
X
ABCG2 p.Gln141Lys 16766035:901:41
status: NEW909 5.3. Association to activity and drug bioavailability HEK-293 cells, transfected with wild-type or V12N, ABCG2 showed apical staining with an ABCG2 antibody, but high intracellular staining in case of Q141K, suggesting impaired membrane trafficking or incorrect membrane insertion.
X
ABCG2 p.Gln141Lys 16766035:909:201
status: NEW917 0.005 Exon 4 c. 376 C>T Q126stop 0.01 Lack of function 0.00a 0.00b Exon 5 c. 421 C>A Q141K 0.35 Reduced activity (Mizuarai et al., 2004; Kobayashi et al., 2005; Sparreboom et al., 2005) 0.11a 0.02b IVS 5-16 A>G ?
X
ABCG2 p.Gln141Lys 16766035:917:85
status: NEW
PMID: 16784736
[PubMed]
Zhang W et al: "Role of BCRP 421C>A polymorphism on rosuvastatin pharmacokinetics in healthy Chinese males."
No.
Sentence
Comment
91
In most of the ethnic populations, the 421C>A (Q141K) polymorphism occurred at high frequency.
X
ABCG2 p.Gln141Lys 16784736:91:47
status: VERIFIED93 It is concluded that the functional impairment of 421C>A variant was due to reduced ATPase activity for Q141K [11].
X
ABCG2 p.Gln141Lys 16784736:93:104
status: VERIFIED
PMID: 16808938
[PubMed]
Robey RW et al: "The livestock photosensitizer, phytoporphyrin (phylloerythrin), is a substrate of the ATP-binding cassette transporter ABCG2."
No.
Sentence
Comment
54
A non-synonymous single nucleotide polymorphism in the human ABCG2 gene resulting in a glutamine to lysine change at amino acid 141 (Q141K) of the protein has been shown to result in impaired transport of substrate drugs and decreased ATPase activity compared to wild-type protein (Mizuarai et al., 2004; Morisaki et al., 2005).
X
ABCG2 p.Gln141Lys 16808938:54:87
status: VERIFIEDX
ABCG2 p.Gln141Lys 16808938:54:133
status: VERIFIED
PMID: 16842198
[PubMed]
Perez-Tomas R et al: "Multidrug resistance: retrospect and prospects in anti-cancer drug treatment."
No.
Sentence
Comment
219
The results showed three BCRP-coding SNPs [G34A (V12M), C376T (Q126stop) and C421A (Q141K)] (Fig. 6).
X
ABCG2 p.Gln141Lys 16842198:219:84
status: VERIFIED220 The V12M and the Q141K SNPs greatly Fig. (6).
X
ABCG2 p.Gln141Lys 16842198:220:17
status: VERIFIED223 In addition, cells transfected with Q141K-BCRP cDNA expressed low amounts of this protein and showed low levels of drug resistance than did wild-type BCRP-transfected cells.
X
ABCG2 p.Gln141Lys 16842198:223:36
status: VERIFIED
PMID: 16863427
[PubMed]
Xia CQ et al: "Breast cancer resistance protein in pharmacokinetics and drug-drug interactions."
No.
Sentence
Comment
173
The mutation C421A at exon 5, with an amino acid change of Gln to Lys at codon 141, has been reported with a reduced BCRP protein level, but not mRNA level in PA-317 cells, and a decreased BCRP efflux function in transfected LLC-PK and HEK-283 cells [73,74,76].
X
ABCG2 p.Gln141Lys 16863427:173:59
status: NEW511 Pharmacogenetics (2003) 13:19-28. 73. IMAI Y, NAKANE M, KAGE K et al.: C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 16863427:511:178
status: NEW
PMID: 16877258
[PubMed]
Wakabayashi K et al: "Human ABC transporter ABCG2 in xenobiotic protection and redox biology."
No.
Sentence
Comment
176
Based on the currently available data on SNPs and acquired mutations, we have created a total of 18 variant forms of ABCG2 (V12M, G51C, Q126stop, Q141K, T153M, Q166E, I206L, F208S, S248P, E334stop, F431L, S441N, R482G, R482T, F489L, F571I, N590Y, and D620N) by site-directed mutagenesis and expressed them in Sf9 insect cells.
X
ABCG2 p.Gln141Lys 16877258:176:146
status: NEW
PMID: 16890580
[PubMed]
Gardner ER et al: "Association of enzyme and transporter genotypes with the pharmacokinetics of imatinib."
No.
Sentence
Comment
1
Methods: Imatinib transport in vitro was studied by use of human embryonic kidney 293 cells transfected with wild-type ABCG2 and an ABCG2 Q141K clone.
X
ABCG2 p.Gln141Lys 16890580:1:138
status: VERIFIED4 Results: Human embryonic kidney 293 cells transfected with ABCG2 Q141K exhibited greater drug accumulation in vitro in comparison with cells expressing wild-type ABCG2 (P ؍ .028).
X
ABCG2 p.Gln141Lys 16890580:4:65
status: VERIFIED26 In particular, a functional single-nucleotide polymorphism (SNP) has been identified in exon 5 of the ABCG2 gene, in which a CϾA nucleotide transition at position 421 (ABCG2 421CϾA) results in a nonsynonymous variant protein with a glutamine-to-lysine amino acid substitution at codon 141 (Q141K).5 In this study we tested the hypothesis that the extensive interindividual variability in the pharmacokinetics of imatinib is associated with the ABCG2 421CϾA polymorphism in a cohort of patients with gastrointestinal stromal tumors.
X
ABCG2 p.Gln141Lys 16890580:26:302
status: VERIFIED29 Human embryonic kidney cells (HEK293) transfected with pcDNA3, wild-type ABCG2, or an ABCG2 Q141K clone were generated as described previously.8 Cells were maintained in N-[2-hydroxyethyl]piperazine-NЈ-[2-ethanesulfonic acid] (HEPES)-buffered RPMI-1640 medium (Gibco BRL, Paisley, United Kingdom) supplemented with 10% (vol/vol) fetal calf serum.
X
ABCG2 p.Gln141Lys 16890580:29:92
status: VERIFIED82 To investigate the potential effect of the ABCG2 421CϾA variant on the protein`s ability to transport imatinib, human embryonic kidney cells (HEK293) transfected with pcDNA3, wild-type ABCG2, or an ABCG2 Q141K clone were exposed to 14 C-labeled imatinib for 2 hours, and the intracellular concentration was determined.
X
ABCG2 p.Gln141Lys 16890580:82:210
status: VERIFIED84 The cells homozygous for the studied variant exhibited significantly greater drug accumulation than the cells expressing wild-type ABCG2 (P ϭ .028), suggesting impaired outward-directed transport of imatinib by the ABCG2 Q141K variant (Fig 1).
X
ABCG2 p.Gln141Lys 16890580:84:227
status: VERIFIED102 Top, Comparative intracellular accumulation of 14 C-labeled imatinib in human embryonic kidney cells (HEK293) transfected with wild-type ABCG2 (HEK293/R) and ABCG2 Q141K clone (HEK293/K-5).
X
ABCG2 p.Gln141Lys 16890580:102:164
status: VERIFIED117 The studied variant in ABCG2 is an SNP causing a nonsynonymous change in the protein sequence, in which a 421C-to-A transition in exon 5 leads to a glutamine-to-lysine amino acid substitution at codon 141 (Q141K).
X
ABCG2 p.Gln141Lys 16890580:117:206
status: VERIFIED119 Although our own current in vitro transport studies in HEK293 cells transfected with the homozygous Q141K variant show Table I.
X
ABCG2 p.Gln141Lys 16890580:119:100
status: VERIFIED120 Genotype and allele frequencies for studied variant genes Variant† Effect‡ Activity§ Genotype frequency [No. of patients (%)] Allele frequency¶ Wt Het Var p q Enzyme genotypes CYP2C9*2 (430CϾT) R144C (exon 3) Decreased 60 (85.7) 9 (12.9) 1 (1.43) 0.921 0.0786 CYP2C9*3 (1075AϾC) I359L (exon 7) Decreased 60 (85.7) 10 (14.3) 0 (0) 0.929 0.0714 CYP2C19*2 (681GϾA) Splice defect (exon 4) None 40 (57.1) 27 (38.6) 3 (4.29) 0.764 0.236 CYP2C19*3 (636GϾA) W212X (exon 5) None 70 (100) 0 (0) 0 (0) 1.000 0.000 CYP2D6*4 (1846GϾA) Splice defect (exon 4) None 42 (62.7) 24 (35.8) 1 (1.49) 0.806 0.194 CYP3A4*1B (-392AϾG) Promoter Normal/ increased 64 (91.4) 6 (8.57) 0 (0) 0.957 0.0429 CYP3A5*3C (6986AϾG) Splice defect (intron 3) Severely decreased 0 (0) 13 (18.6) 57 (81.4) 0.0929 0.907 Transporter genotypes ABCB1 3435CϾT I1145I (exon 26) Reduced 21 (25.6) 41 (50.0) 20 (24.4) 0.506 0.494 ABCG2 421CϾA Q141K (exon 5) Reduced 66 (80.5) 16 (19.5) 0 (0) 0.902 0.0976 Wt, Homozygous wild-type patient; Het, heterozygous patient; Var, homozygous variant patient; p, frequency for wild-type allele; q, frequency for variant allele.
X
ABCG2 p.Gln141Lys 16890580:120:980
status: VERIFIED
PMID: 16922639
[PubMed]
Scherrmann JM et al: "Expression and function of multidrug resistance transporters at the blood-brain barriers."
No.
Sentence
Comment
505
IMAI Y, NAKANE M, KAGE K et al.: C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 16922639:505:140
status: NEW
PMID: 17015488
[PubMed]
Sarkadi B et al: "Human multidrug resistance ABCB and ABCG transporters: participation in a chemoimmunity defense system."
No.
Sentence
Comment
997
In healthy individuals or patients, altogether eight nonsynonymous (V12M, Q141K, I206L, F431L, S441N, F489L, N590Y, D620N), five synonymous (silent) (c.
X
ABCG2 p.Gln141Lys 17015488:997:74
status: VERIFIED1006 From these numerous reported alterations, two protein variants, V12M, and Q141K, were found in relatively high frequencies, with significant differences in allele frequencies in different areas of the world (Fig. 11).
X
ABCG2 p.Gln141Lys 17015488:1006:74
status: VERIFIED1010 The Q141K polymorphism leads to the replacement of the uncharged glutamine residue with a positively charged lysine within the ATP-binding domain, between the Walker A motif (amino acids 83-89) and the signature region (amino acids 186-189).
X
ABCG2 p.Gln141Lys 17015488:1010:4
status: VERIFIED1011 The Q141K variant was also detected in all ethnic groups tested: the allele frequency ranged between 1 and 35% (the African and African-American subjects with low, while the Japanese and Chinese populations with high allele frequencies; see Refs. 45, 74, 185).
X
ABCG2 p.Gln141Lys 17015488:1011:4
status: VERIFIED1016 (251), by using stable mammalian expression systems, found that in PA317 or HEK-293 cells the expressed Q141K ABCG2 protein had a lower expression level than the wild-type ABCG2, or the V12M variant.
X
ABCG2 p.Gln141Lys 17015488:1016:104
status: VERIFIED1018 (251) demonstrated that both the V12M and Q141K ABCG2 could reach the plasma membrane in the HEK-293 cells, while a significant portion of Q141K remained intracellular.
X
ABCG2 p.Gln141Lys 17015488:1018:42
status: VERIFIEDX
ABCG2 p.Gln141Lys 17015488:1018:139
status: VERIFIED1019 Other studies found a 30-40% reduction in cell surface expression of the Q141K variant, despite a similar mRNA level than the wild-type ABCG2 (145, 188).
X
ABCG2 p.Gln141Lys 17015488:1019:73
status: VERIFIED1020 Recent investigation of 99 Japanese placenta samples revealed that individuals homozygous for the Q141K variant showed significantly lower expression levels of this transporter protein, while the heterozygous samples displayed an intermediate expression level (185).
X
ABCG2 p.Gln141Lys 17015488:1020:98
status: VERIFIED1023 (247) expressed ABCG2 in polarized LLC-PK1 cells, and by using confocal microscopy, the authors observed that the wild-type ABCG2 and Q141K showed mainly apical staining, while the V12M variant 1210 SARKADI, HOMOLYA, SZAKA´ CS, AND VA´ RADI Physiol Rev • VOL 86 • OCTOBER 2006 • www.prv.org showed mostly intracellular localization.
X
ABCG2 p.Gln141Lys 17015488:1023:134
status: VERIFIED1025 (188) also used LLC-PK1 cells to express the V12M and Q141K variants and found that all polymorphisms, including V12M and Q141K, had an apical localization.
X
ABCG2 p.Gln141Lys 17015488:1025:54
status: VERIFIEDX
ABCG2 p.Gln141Lys 17015488:1025:122
status: VERIFIED1028 (247), when the V12M or Q141K-transfected LLC-PK1 cells were challenged by mitoxantrone, topotecan, or an indolocarbazole topoisomerase I inhibitor.
X
ABCG2 p.Gln141Lys 17015488:1028:24
status: VERIFIED1030 (251) found that only the Q141K variant had a moderately lower level resistance against mitoxantrone, topotecan, or SN-38, compared with the wild-type ABCG2-transfected cells.
X
ABCG2 p.Gln141Lys 17015488:1030:26
status: VERIFIED1032 Q141K is mapped to a functionally important ABC region of ABCG2; therefore, it is possible that the ATPase activity of this variant is altered.
X
ABCG2 p.Gln141Lys 17015488:1032:0
status: VERIFIED1033 Two studies compared the vanadate-sensitive ATPase activity of ABCG2 V12M and Q141K variants, using Sf9 (Spodoptera frugiperda) cell membranes (247, 251).
X
ABCG2 p.Gln141Lys 17015488:1033:78
status: VERIFIED1034 A reduced basal ATPase activity was observed by both groups for the Q141K variant.
X
ABCG2 p.Gln141Lys 17015488:1034:68
status: VERIFIED1038 Clearly, more detailed studies are required to clarify the mechanism of a reduced protein expression for Q141K, and the altered cellular localization found for the V12M and Q141K variants under certain conditions.
X
ABCG2 p.Gln141Lys 17015488:1038:105
status: VERIFIEDX
ABCG2 p.Gln141Lys 17015488:1038:173
status: VERIFIED1047 A recent investigation performed an exploratory, retrospective evaluation of the functional consequence of the ABCG2 Q141K variant in 20 adult patients, treated with diflomotecan, a synthetic derivative of camptothecin (350).
X
ABCG2 p.Gln141Lys 17015488:1047:117
status: VERIFIED1050 This observation is in harmony with studies indicating a reduced protein expression and function for the Q141K variant, while it seems to contradict the results of De Jong et al.
X
ABCG2 p.Gln141Lys 17015488:1050:105
status: VERIFIED1052 As mentioned above, the allele frequency of Q141K varies in diverse populations, and in Japan and China, this polymorphism appears to be common, with an overall allele frequency of ϳ30%.
X
ABCG2 p.Gln141Lys 17015488:1052:44
status: VERIFIED
PMID: 17027309
[PubMed]
Li YF et al: "Towards understanding the mechanism of action of the multidrug resistance-linked half-ABC transporter ABCG2: a molecular modeling study."
No.
Sentence
Comment
112
Q141K, a SNP [22,23], is located on the surface of the small sub-domain near the conserved H3 helix Y.-F Li et al. / Journal of Molecular Graphics and Modelling 25 (2007) 837-851 841 Table 1 Sequence identity and similarity in the NBD and TMD between ABCG2 and selected ABC transporters ABC transporter NBD domain (%)a ABC transporter TM domain (%)b Identity Similarityc Identity Similarity ABCG2 100.0 (234)d 100.0 (234) ABCG2 100.0 (295) 100.0 (295) EcMalK 26.5 (62) 42.7 (100) VcMsbA 9.5 (28) 19.5 (56) TlMalK 22.6 (53) 42.3 (99) EcMsbA 6.4 (19) 18.3 (54) His-P 18.4 (43) 40.6 (95) LcLmrA 8.5 (25) 21.0 (62) MJ1267 17.5 (41) 38.0 (89) Pgp-n 6.1 (18) 19.7 (58) LMR-A 20.9 (49) 40.2 (94) Pgp-c 6.1 (18) 15.6 (46) CFTR-N1 20.5 (48) 34.6 (81) Dro-Wht 22.0 (65) 40.3 (119) TAP1 17.1 (40) 42.7 (100) Pgp-n-reve (16) (30) a Sequence identities and similarities are based on alignments in Fig. 2. b Sequence identities and similarities are based on alignments in Fig. 4. c Similarity is defined for amino acid residues in the alignment, which share common physical or chemical properties such as size, hydrophobicity or charge.
X
ABCG2 p.Gln141Lys 17027309:112:0
status: VERIFIED123 Patients carrying the Q141K SNP were shown to have elevated drug levels in plasma when treated with topotecan or diflomotecan [22,44-49].
X
ABCG2 p.Gln141Lys 17027309:123:22
status: VERIFIED124 From its location in the molecule, the Q141K polymorphism should not disrupt the folding of the subunit; rather it introduces an additional positive charge in an already very positively charged surface (residues R137, R147, K157, R160, and R163 are in close proximity).
X
ABCG2 p.Gln141Lys 17027309:124:39
status: VERIFIED174 Subsequently, a symmetric dimer Y.-F Li et al. / Journal of Molecular Graphics and Modelling 25 (2007) 837-851844 Table 4 Locations of mutations as predicted by the ABCG2 model and functional correlation Mutation Position in ABCG2 Phenotype Reference V12M N-terminal Membrane localization, SNP, and somewhat lower expression and lower resistance [22] S25Pa N-terminal Low drug resistance for the cell line due to lower expression at cell surface [42] T82Aa NBD, Walker A Low drug resistance for the cell line due to lower expression at cell surface [42] K86M NBD, Walker A No expression at cell surface, retained in the Golgi [43] K86I NBD, Walker A No expressed at cell surface [43] Q141K NBD SNP with lower protein expression and low drug resistance [22,23] T237V NBD Fully functional b I239K,R NBD Loss of expression may be due to structural disruption b R309G Linkerc Low drug resistance [42] D315-6 Linker Deletion mutant for A315 and T316.
X
ABCG2 p.Gln141Lys 17027309:174:684
status: VERIFIED
PMID: 17062685
[PubMed]
Hahn NM et al: "Hoosier Oncology Group randomized phase II study of docetaxel, vinorelbine, and estramustine in combination in hormone-refractory prostate cancer with pharmacogenetic survival analysis."
No.
Sentence
Comment
11
Conclusions: DV and DE doublets are active with a tolerable toxicity profile in patients with HRPC; however, efficacy does not seem superior to standard single-agent docetaxel.The ABCG2 421C>A (Q141K) polymorphism may be an important predictor of response and survival in HRPC patients treated with docetaxel-based chemotherapy.
X
ABCG2 p.Gln141Lys 17062685:11:194
status: VERIFIED121 In this pilot analysis, it was noted that 4 of 6 (66%) patients with the ABCG2 421 C>A (Q141K) polymorphism were alive past 15 months compared with only 12 of 44 (27%) patients with wild-type (C/C; P = 0.05).
X
ABCG2 p.Gln141Lys 17062685:121:88
status: VERIFIED
PMID: 17093005
[PubMed]
Enokizono J et al: "Involvement of breast cancer resistance protein (BCRP/ABCG2) in the biliary excretion and intestinal efflux of troglitazone sulfate, the major metabolite of troglitazone with a cholestatic effect."
No.
Sentence
Comment
192
BCRP has some functional single nucleotide polymorphisms (SNP), such as C376T (Q126stop), C421A (Q141K), and G1322A (S441N).
X
ABCG2 p.Gln141Lys 17093005:192:97
status: NEW
PMID: 17148776
[PubMed]
Cusatis G et al: "Pharmacogenetics of ABCG2 and adverse reactions to gefitinib."
No.
Sentence
Comment
5
One variant, a common functional single-nucleotide polymorphism (SNP) in the ABCG2 gene, was associated with diarrhea in 124 patients treated with oral gefitinib 250 mg once daily; seven (44%) of 16 patients heterozygous for ABCG2 421C>A (Q141K) developed diarrhea, versus only 13 (12%) of 108 patients homozygous for the wild-type sequence (P = .0046).
X
ABCG2 p.Gln141Lys 17148776:5:239
status: VERIFIED21 In particular, a functional single-nucleotide polymorphism (SNP) has been identified in exon 5 of the ABCG2 gene, in which a C → A nucleotide transition at position 421 (ABCG2 421C>A) results in a nonsynonymous variant protein in which a glutamine at position 141 is changed to lysine (Q141K) (15).
X
ABCG2 p.Gln141Lys 17148776:21:293
status: VERIFIED64 The mechanism underlying the functional impact of the ABCG2 Q141K amino acid change is not entirely known, but it is most likely associated with reduced protein levels and altered ATPase activity and not with a change in localization of the protein (14).
X
ABCG2 p.Gln141Lys 17148776:64:60
status: VERIFIED
PMID: 17159598
[PubMed]
Deeken JF et al: "Toward individualized treatment: prediction of anticancer drug disposition and toxicity with pharmacogenetics."
No.
Sentence
Comment
326
These SNPs occur at mRNA positions 34 (V12M; exon 2), 421 (Q141K, exon 16), 616 (I206L, exon 6) and 1768 (N590Y, exon 15).
X
ABCG2 p.Gln141Lys 17159598:326:59
status: VERIFIED329 The nonsynonymous substitution C421A, in which a lysine is substituted for glutamine at codon 141 (Q141K), has been shown to have a functional significance.
X
ABCG2 p.Gln141Lys 17159598:329:99
status: VERIFIED331 Table 12 Ethnic frequencies (%) of allelic variants in ABCG2 gene Allelic variant Caucasians African-Americans Asians Hispanics Africans Middle Easterns V12M 2 4 20-45 40 5 Q141K 11-14 2.3-5.0 15-35 10 1.0 13 I206L 0 0 0 10 0 N590Y 1 Sources: [150-153].
X
ABCG2 p.Gln141Lys 17159598:331:173
status: VERIFIED334 Plasma concentrations of orally administered drugs, including oral topotecan, are higher in patients with the Q141K SNP, which correlates with the protein`s role in drug excretion.
X
ABCG2 p.Gln141Lys 17159598:334:110
status: VERIFIED
PMID: 17224914
[PubMed]
Marsh S et al: "Pharmacogenetic analysis of paclitaxel transport and metabolism genes in breast cancer."
No.
Sentence
Comment
16
ABCB1 appears to be the main paclitaxel transporter23,24 and variants in ABCB1 have been demonstrated to alter P-glycoprotein expression.25,26 A non-synonymous variant in ABCG2 (421C4A; Q141K) has been associated with drug resistance in vitro and in vivo,27-29 and with survival in prostate cancer patients receiving docetaxel chemotherapy (P ¼ 0.05),30 consequently, despite the lack of evidence associating taxane transport with ABCG2 the 421C4A variant was included in this study.
X
ABCG2 p.Gln141Lys 17224914:16:186
status: VERIFIED
PMID: 17228519
[PubMed]
Tamura A et al: "Genetic polymorphisms of human ABC transporter ABCG2: development of the standard method for functional validation of SNPs by using the Flp recombinase system."
No.
Sentence
Comment
48
Standard method for functional validation of ABCG2 SNPs Journal of Experimental Therapeutics and Oncology Vol. 6 2006 3 Plasma Membrane inside outside S S S homodimer A B CH2N COOH V12M Q141K F208S S248P F431L S441N F489L R482G R482T Acquired mutation Figure 1.
X
ABCG2 p.Gln141Lys 17228519:48:186
status: VERIFIED67 PCR primers and conditions for site-directed mutagenesis to create variants of ABCG2 Variant Forward/Reverse Primer sequence (5` →→ 3`) Primer length % GC Tm (ºC) (F/R) primers (bases) V12M F CGAAGTTTTTATCCCAATGTCACAAGGAAACAC 33 39 55 R GTGTTTCCTTGTGACATTGGGATAAAAACTTCG Q141K F CGGTGAGAGAAAACTTAAAGTTCTCAGCAGCTCTT 35 42 55 R AAGAGCTGCTGAGAACTTTAAGTTTTCTCTCACCG F208S F TGATCCTTCCATCTTGTCCTTGGATGAGCCTACAA 35 45 55 R TTGTAGGCTCATCCAAGGACAAGATGGAAGGATCA S248P F TTCATCAGCCTCGATATCCCATCTTCAAGTTGTTT 35 40 55 R AAACAACTTGAAGATGGGATATCGAGGCTGATGAA F431L F AGCTGGGGTTCTCCTCTTCCTGACGACC 28 60 62 R GGTCGTCAGGAAGAGGAGAACCCCAGCT S441N F AACCAGTGTTTCAGCAATGTTTCAGCCGTGGAAC 34 47 59 R GTTCCACGGCTGAAACATTGCTGAAACACTGGTT F489L F GAGGATGTTACCAAGTATTATACTTACCTGTATAGTGTACTTCATG 46 34 62 R CATGAAGTACACTATACAGGTAAGTATAATACTTGGTAACATCCTC Sites of mutagenesis are indicated by underbars.
X
ABCG2 p.Gln141Lys 17228519:67:290
status: VERIFIED104 Standard method for functional validation of ABCG2 SNPs Journal of Experimental Therapeutics and Oncology Vol. 6 2006 0 1 2 RelativemRNAlevel Mock WT V12M Q141K mRNA A ABCG2 GAPDH Mock WT F208S S248P F431L S441N F489L ABCG2 GAPDH 0 1 2 RelativemRNAlevel mRNA B GAPDH ABCG2 Mock WT F208S S248P F431L S441N F489L Protein 0 1 2 Relativeproteinlevel * * * C DProtein GAPDH ABCG2 0 1 2 Relativeproteinlevel * * Mock WT V12M Q141K Figure 3. mRNA and protein expression levels of ABCG2 WT and variants expressed in Flp-In-293 cells.
X
ABCG2 p.Gln141Lys 17228519:104:156
status: VERIFIEDX
ABCG2 p.Gln141Lys 17228519:104:420
status: VERIFIED114 Characterization of V12M, Q141K, F208S, S248P, F431L, S441N, and F489L variants expressed in Flp-In-293 cells The mRNA levels of ABCG2 and GAPDH were measured by quantitative PCR, and the ratios of ABCG2 variants vs. GAPDH were plotted.
X
ABCG2 p.Gln141Lys 17228519:114:26
status: VERIFIED119 Figure 3 demonstrates mRNA and protein levels of ABCG2 WT and V12M, Q141K, F208S, S248P, F431L, S441N, and F489L variants expressed in Flp-In-293 cells.
X
ABCG2 p.Gln141Lys 17228519:119:68
status: VERIFIED121 The Q141K variant of ABCG2 stably expressed in Flp-In-293 cells had a lower expression level than did the wild-type ABCG2 or the V12M variant (Fig. 3C).
X
ABCG2 p.Gln141Lys 17228519:121:4
status: VERIFIED124 The other variants, i.e., V12M, Q141K, S248P, F431L, and F489L, were expressed in plasma membrane as was ABCG2 WT.
X
ABCG2 p.Gln141Lys 17228519:124:32
status: VERIFIED130 It is important to note that IC50 values of Q141K-expressing cells toward doxorubicin and daunorubicin were greater than that of WT-expressing cells, while Q141K-expressing cells were more sensitive to SN-38 and mitoxantron as compared with WT-expressing cells.
X
ABCG2 p.Gln141Lys 17228519:130:44
status: VERIFIEDX
ABCG2 p.Gln141Lys 17228519:130:156
status: VERIFIED132 Figure 4 summarizes the characteristics of those Tamura et al. 8 Journal of Experimental Therapeutics and Oncology Vol. 6 2006 Class Class Class Class WT V12M Q141K F431L S248P F489L F208S S441N R482G R482T Protein expression + + + + + + - - + + SN-38 resistance + + + + + / - - - - + + MX resistance + + + + / - - - - - + + Doxorubicin resistance - - - - - - - - + + Daunorubicin resistance - - - - - - - - + + Figure 4.
X
ABCG2 p.Gln141Lys 17228519:132:159
status: VERIFIED138 WT, V12M, and Q141K form one group where protein expression and resistance to SN-38 and mitoxantrone are positive, but contribution to doxorubicin- and daurorubicin-resistance are negative.
X
ABCG2 p.Gln141Lys 17228519:138:14
status: VERIFIED142 Finally, the acquired mutants R482G and R482T form another group, which is characteristic Standard method for functional validation of ABCG2 SNPs Journal of Experimental Therapeutics and Oncology Vol. 6 2006 9 Table 3 Remarks mRNA Protein Author Ref Host cell Vector Expression SNP expression expression Imai et al. (15) PA317 pHaL-IRES-DHFR bicistronic Stable V12M Similar to WT Similar to WT - - retrovirus vector plasmid - Q141K Similar to WT Lower than WT Mizuarai et al. (18) LLC-PK1 pcDNA3.1(+) Stable V12M Similar to WT N.D. - - - - Q141K Similar to WT N.D. Morisaki et al. (25) HEK293 pcDNA3.1 Stable V12M Vary among clones Vary among clones - - - - Q141K Vary among clones Vary among clones - - - - D620N Vary among clones Vary among clones Kondo et al. (26) LLC-PK1/ pcDNA3.1/ Stable/ V12M N.D. Similar to WT - HEK293 Adenovirus Transient Q141K N.D. 30 - 40% of WT - - - - A149P N.D. Similar to WT - - - - R163K N.D. Similar to WT - - - - Q166E N.D. Similar to WT - - - - P269S N.D. Similar to WT - - - - S441N N.D. Lower than WT Vethanayagam (27) HEK293 pcDNA3.1/myc-His(-) Stable I206L N.D. Vary among clones et al. - - - - N590Y N.D. Vary among clones - - - - D620N N.D. Vary among clones N.D.: No data Table 2.
X
ABCG2 p.Gln141Lys 17228519:142:426
status: VERIFIEDX
ABCG2 p.Gln141Lys 17228519:142:540
status: VERIFIEDX
ABCG2 p.Gln141Lys 17228519:142:658
status: VERIFIEDX
ABCG2 p.Gln141Lys 17228519:142:849
status: VERIFIED143 Resistance profile (IC50 ) of ABCG2 Compounds IC50 (nM) Mock WT V12M Q141K F208S S248P F431L S441N F489L SN-38 1.0 ± 0.2 49.9 ± 6.0 51.1 ± 13.8 17.7 ± 0.9 0.7 ± 0.0 3.6 ± 0.4 12.1 ± 1.5 0.8 ± 0.0 3.9 ± 0.4 (49.9)* (51.1)* (17.7)* (0.7) (3.6) (12.1)* (0.8) (3.9) Mitoxantorone 7.0 ± 1.1 108.0 ± 4.9 94.0 ± 18.6 46.7 ± 12.7 5.1 ± 1.0 13.4 ± 1.3 15.2 ± 1.4 5.7 ± 0.8 12.1 ± 6.2 (15.4)* (13.4)* (6.7)* (0.7) (1.9) (2.2)* (0.8) (1.7) Doxorubicin 38.8 ± 3.8 105.2 ± 24.9 123.6 ± 35.3 156.8 ± 27.5 19.9 ± 8.7 23.7 ± 6.7 43.5 ± 6.1 39.4 ± 4.1 47.6 ± 3.1 (2.7) (3.2) (4.0) (0.5) (0.6) (1.1) (1.0) (1.2) Daounorubicin 13.0 ± 0.6 32.3 ± 6.5 58.2 ± 5.0 57.7 ± 4.1 14.1 ± 2.3 22.1 ± 4.2 15.9 ± 1.2 13.3 ± 1.1 23.6 ± 1.6 (2.5) (4.5) (4.4) (1.1) (1.7) (1.2) (1.0) (1.8) Etoposide 117.1 ± 16.0 210.2 ± 18.4 297.3 ± 58.5 233.9 ± 54.2 122.9 ± 17.6 137.7 ± 14.8 139.1 ± 12.3 154.3 ± 8.5 186.9 ± 10.1 (1.8) (2.5) (2.0) (1.0) (1.2) (1.2) (1.3) (1.6) Vincristine 1.8 ± 0.2 4.3 ± 0.3 7.1 ± 1.4 5.6 ± 1.6 0.6 ± 0.0 4.3 ± 0.9 1.8 ± 0.3 0.9 ± 0.1 3.0 ± 0.7 (2.4) (3.0) (3.1) (0.3) (2.4) (1.0) (0.5) (1.7) The drug resistance profiles of ABCG2 WT and variants were obtained by incubating Flp-In-293/ABCG2 WT, V12M, Q141K, F208S, S248P, F431L, S441N, or F489L cells in the presence of SN-38, mitoxantrone, doxorubicin, daunorubicin, etoposide, or vincristine at different concentrations as described in Materials and Methods.
X
ABCG2 p.Gln141Lys 17228519:143:69
status: VERIFIEDX
ABCG2 p.Gln141Lys 17228519:143:1458
status: VERIFIED
PMID: 17237154
[PubMed]
Lee SS et al: "Identification and functional assessment of BCRP polymorphisms in a Korean population."
No.
Sentence
Comment
3
BCRP V12M, Q141K, P269S, and Q126Stop were detected at frequencies of 23, 28, 0.2, and 1.9%, respectively. These four coding variants were also screened in Chinese and Vietnamese subjects; the allelic frequencies among the three populations were compared; and predictions were made as to the potential frequency of each variant.
X
ABCG2 p.Gln141Lys 17237154:3:11
status: VERIFIED23 According to the current literature, the most frequent BCRP polymorphisms detected among different ethnic groups are 34GϾA, which codes for V12M, and 421CϾA, which codes for Q141K (Zamber et al., 2003).
X
ABCG2 p.Gln141Lys 17237154:23:186
status: VERIFIED24 The BCRP Q141K SNP has been associated with decreased expression of the BCRP protein in that this genotype produces a reduced transporter activity phenotype (Imai et al., 2002; Kondo et al., 2004).
X
ABCG2 p.Gln141Lys 17237154:24:9
status: VERIFIED34 The functional capability of the P269S variant to take up [3 H]estrone-3-sulfate (ES) and [3 H]MTX has been reported as being comparable with that of the wild-type protein TABLE 1 Primer sequences used for the amplification of the BCRP gene fragment and the annealing temperatures used in the PCR Name Region Primer Sequence (5Ј33Ј) Size PCR Condition base pair Tm; °C BCRP1P Promoter F: AACCCAGCTAGGTCAGACGA 557 60.0 R: TTTGAGTGGGCACAGCAC BCRP2P Promoter F: TTCCTAGGGTAGATGCAGCAG 509 60.0 R: CAGGGACAAGCCAAACACTC BCRP3P Promoter F: GTAGAGGCAGGGTTTCACCA 559 60.0 R: AAGTGATTGCGCATGTTCAG BCRP4P Promoter F: CGTGCCTGGCCTCTATGTAT 572 60.0 R: CTGACGCAGGCAGATCACT BCRP5P Promoter F: GCCACCACACCCAGTGTAAT 518 64.7 R: TGCAAAGTAAAAACAAATCAAAACC BCRP1E Exon 1 F: AGCTCGTCCCCTGGATGT 516 54.0 R: CCACCAACCTTTCCAGACAC BCRP2E Exon 2 F: CTGCTCATTGCCACACATTT 400 54.0 R: GCCAAAACCTGTGAGGTTCA BCRP3E Exon 3 F: GTCTCAAACTCCTGGCCTCA 403 54.0 R: GCGTTGCAAATGCTCAATAA BCRP4E Exon 4 F: TGGATTCAAAGTAGCCATGAGA 402 54.0 R: ATTCTCCCTGCCTTTTCACA BCRP5E Exon 5 F: GGTTCATCATTAGCTAGAACTTTACC 403 54.0 R: TGGAAAGCAACCATTTTTGA BCRP6E Exon 6 F: TCTTACAGGACTGGCACACG 426 54.0 R: CCTTCCCTACATTCTTACCTGCT BCRP7E Exon 7 F: TCAGGCTGAACTAGAGCAAACA 387 60.0 R: AGCACCAAATGGAACAAACA BCRP8E Exon 8 F: CATGGGAAGAAGAGAGAAAGAAA 412 60.0 R: CAAAAACACCAACAGCACTCA BCRP9E Exon 9 F: GGTGTTAGGGAAGCATCCAA 413 54.0 R: TGAAGCAGATGATAACAGAACCA BCRP10E Exon 10 F: GCCAAGCCATTGAGTGTTTA 386 60.0 R: TGGGCAACAGAGCATGAC BCRP11E Exon 11 F: CCACAACAATCCAAGACTGTG 423 60.0 R: GTAATCCTCCGGATCCCATC BCRP12E Exon 12 F: GGTCTAGCCCTGAGGATGTG 403 64.7 R: GAGTGCAAAATGGACAGGTG BCRP13E Exon 13 F: AGGGTGGTTGGAGAGTGGAT 412 60.0 R: AGCAGAGCCCCATTTACAGA BCRP14E Exon 14 F: TGAGTGTCTTGAGTAAGTGGAGAGA 420 54.0 R: GACTCCCCAGCCTTGTGTTA BCRP15E Exon 15 F: TCTTGATTGCCAGGGAAAAT 404 60.0 R: CGCGCACAACTCACTTTATG BCRP16E Exon 16 F: TGACGGATGCTAGGAATGAA 430 64.7 R: CCCATGGTTACTGTCTGAGGA TABLE 2 Primer sequences used for the pyrosequencing-based genotyping of functional BCRP variants SNPa Variant Primer Sequence (5Ј33Ј) Size PCR Condition base pair Tm; °C 34GϾA V12M 5Ј-Biotin-CTCTCCAGATGTCTTCCAGTAATG-3Ј 278 54.0 5Ј-GCCAAAACCTGTGAGGTTCA-3Ј For sequencing: 5Ј-AGTGTTCCTTTGTGGTTAC-3Ј 8191CϾT Q126Stop 5Ј-Biotin-ACTATCAGCCAAAGCACTTACCC-3Ј 174 54.5 5Ј-GTCTTAGCTGCAAGGAAAGATCCA-3Ј For sequencing: 5Ј-AATGTAATTCAGGTTACGTG-3Ј 8825CϾA Q141K 5Ј-Biotin-GTTGCAAGCCGAAGAGCTG-3Ј 69 54.0 5Ј-TGATGTTGTGATGGGCACTC-3Ј For sequencing: 5Ј-GACGGTGAGAGAAAACTT-3Ј 21850CϾT P269S 5Ј-Biotin-TAGCACCAAATGGAACAAACAC-3Ј 236 54.0 5Ј- TGTTTGATAGCCTCACCTTATTGG-3Ј For sequencing: 5Ј-GAAGACTTATGTTCCACG-3Ј a Position is indicated with respect to the start codon (ATG) of the BCRP gene; the A in the ATG triplet is designated as ϩ1, and the next base toward the 5Ј-end is designated as -1.
X
ABCG2 p.Gln141Lys 17237154:34:2477
status: VERIFIED37 Functional information on P269S is sparse, as compared with the amount of information that has been collected for other coding variants, such as V12M, Q141K, and the null allele Q126Stop.
X
ABCG2 p.Gln141Lys 17237154:37:151
status: VERIFIED39 Therefore, we performed a functional study of the P269S variant among the four variants identified in the study (V12M, Q141K, P269S, and Q126Stop).
X
ABCG2 p.Gln141Lys 17237154:39:119
status: VERIFIED65 All the subjects were screened for BCRP V12M, Q126Stop, Q141K, and P269S.
X
ABCG2 p.Gln141Lys 17237154:65:56
status: VERIFIED105 SNP and Positionb Position Relative to Transcription Start Site Location Effect N Allelic Frequency % 1 -20296AϾG -1379 Promoter 92 13 2 -19855CϾT -938 Promoter 92 0.5 3 -19605AϾG -688 Promoter 92 0.5 4 -19031CϾT -114 Promoter 92 1.6 5 -18631CϾT ϩ286 5ЈUTR 92 2.2 6 34GϾA Exon 2 V12M 275 23 7 238AϾG Intron 2 92 25 8 7430AϾG Intron 3 92 9.8 9 8191CϾT Exon 4 Q126Stop 375 1.9 10 8825CϾA Exon 5 Q141K 275 28 11 21850CϾT Exon 7 P269S 674 0.2 12 26297GϾA Exon 9 92 1.1 13 38485AϾG Intron 11 92 24 14 40086insA Intron 12 92 0.5 15 40110GϾT Intron 12 92 22 16 42288CϾT Intron 13 92 67.4 17 42313TϾG Intron 13 92 2.2 18 44072CϾT Intron 13 92 23.4 19 44997AϾG Intron 14 92 49.5 20 45235CϾT Intron 15 92 20.1 a The reference sequence used has GenBank accession no.
X
ABCG2 p.Gln141Lys 17237154:105:465
status: VERIFIED149 The four coding SNP were 34GϾA coding for V12M, 8191CϾT coding for Q126Stop, 8825CϾA coding for Q141K, and 21850CϾT coding for P269S.
X
ABCG2 p.Gln141Lys 17237154:149:114
status: VERIFIED150 For more extensive evaluation of the allelic frequencies of the four BCRP variants found in the Korean population, the remaining 183 subjects were screened by pyrosequencing for the presence of V12M, Q126Stop, Q141K, and P269S.
X
ABCG2 p.Gln141Lys 17237154:150:210
status: VERIFIED152 V12M and Q141K were found in 23 and 28% of Koreans, respectively.
X
ABCG2 p.Gln141Lys 17237154:152:9
status: VERIFIED175 The most frequent allele was the wild type (26%), followed by the Q141K variant.
X
ABCG2 p.Gln141Lys 17237154:175:66
status: VERIFIED176 The haplotype analysis suggests that none of the Q141K-containing haplotypes are linked to the V12M variant.
X
ABCG2 p.Gln141Lys 17237154:176:49
status: VERIFIED177 To support this strong linkage, the V12M and Q141K variations were assigned to the same haplotype block among two discrete haplotype blocks of the BCRP gene (Fig. 1B).
X
ABCG2 p.Gln141Lys 17237154:177:45
status: VERIFIED200 From the screening of four nonsynonymous variants in other ethnic groups, the allelic frequencies of V12M, Q126Stop, Q141K, and P269S were obtained (Table 4).
X
ABCG2 p.Gln141Lys 17237154:200:117
status: VERIFIED201 The frequency of V12M was 10 to 13% higher in Chinese and Vietnamese subjects than in Koreans, whereas Q141K showed no significant differences among the three Asian ethnic groups.
X
ABCG2 p.Gln141Lys 17237154:201:103
status: VERIFIED207 For example, the BCRP Q141K variant has been implicated in the altered pharmacokinetics of diflomotecan (Sparreboom et al., 2004).
X
ABCG2 p.Gln141Lys 17237154:207:22
status: VERIFIED220 The Q141K variant was the most prevalent coding variant in Caucasians (14%), Japanese (35%), and Chinese (35%), as well as in Koreans (28%), whereas it was not detected in African-Americans or in subjects from Africa north of the Sahara (Zamber et al., 2003).
X
ABCG2 p.Gln141Lys 17237154:220:4
status: VERIFIED231 In haplotypes 2, 7, and 13, Q141K (8825CϾA) variation is accompanied by 42288CϾT and 44997AϾG.
X
ABCG2 p.Gln141Lys 17237154:231:28
status: VERIFIED234 Our results on BCRP haplotypes in the Korean population TABLE 4 Haplotype distribution of BCRP gene in Koreans PNS 69202- G>A 43 A>G 832 G>A 0347 G>A 5288 A>C 58483 G>A 01104 T>G 88224 T>C 27044 T>C 79944 G>A 53254 T>C ycneuqerF )%( egnahcAA K141QM21V 4.621 2 9.91 3 8.7 4 6.7 5 4.7 6 9.5 7 7.4 8 9.2 9 5.2 01 8.1 11 7.1 21 4.1 31 1.1 Haplotype 41 1.1 TABLE 5 Expected allelic frequencies of BCRP V12M, Q126Stop, Q141K, and P269S variants in different Asian populations Population No.
X
ABCG2 p.Gln141Lys 17237154:234:413
status: VERIFIED235 of Subjects Allelic Frequency (95% CI) V12M Q126Stop Q141K P269S % % % % Korean 275-674a 23 (19.6-26.6) 1.9 (0.9-2.9) 28 (23.8-31.2) 0.2 (0-0.4) Chinese 191 33b (28.5-37.9) 0.5 (0-1.2) 29 (24.3-33.3) 0 (0-0.1) Vietnamese 140 36b (30.8-42.0) 0.4 (0-1.1) 31 (25.7-36.5) 0.7 (0-1.7) a The numbers of subjects genotyped for the V12M, Q126Stop, Q141K, and P269S variants were 275, 375, 275, and 674, respectively.
X
ABCG2 p.Gln141Lys 17237154:235:53
status: VERIFIEDX
ABCG2 p.Gln141Lys 17237154:235:340
status: VERIFIED238 In the case of BCRP, the 421CϾA variation (encodes Q141K) has been reported to play important roles in determining the expression level of the protein (Imai et al., 2002; Kobayashi et al., 2005), drug resistance, and ATPase activity (Mizuarai et al., 2004).
X
ABCG2 p.Gln141Lys 17237154:238:57
status: VERIFIED
PMID: 17297656
[PubMed]
Tamura A et al: "Re-evaluation and functional classification of non-synonymous single nucleotide polymorphisms of the human ATP-binding cassette transporter ABCG2."
No.
Sentence
Comment
3
To re-evaluate the effect of single nucleotide polymorphisms (SNP) of ABCG2 in vitro, we created a total of seven variant cDNAs (V12M, Q141K, F208S, S248P, F431L, S441N and F489L) by site-directed mutagenesis and stably expressed each of them in Flp-In-293 cells using the Flp recombinase system.
X
ABCG2 p.Gln141Lys 17297656:3:135
status: VERIFIED7 Drug resistance profiles of Flp-In-293 cells expressing two major SNP variants (V12M and Q141K) toward the drug SN-38 demonstrated that the IC50 value (drug concentrations producing a 50% reduction of cell growth) for Q141K was approximately 50% of that for wild type.
X
ABCG2 p.Gln141Lys 17297656:7:89
status: VERIFIEDX
ABCG2 p.Gln141Lys 17297656:7:218
status: VERIFIED104 Characterization of WT ABCG2, V12M and Q141K expressed in Flp-In-293 cells.
X
ABCG2 p.Gln141Lys 17297656:104:39
status: VERIFIED105 As shown in Fig. 2A, mRNA levels of WT ABCG2 as well as its major SNP variants (V12M and Q141K) were represented evenly in Flp-In cells.
X
ABCG2 p.Gln141Lys 17297656:105:89
status: VERIFIED111 (16) As demonstrated in Fig. 2A, the protein expression level of the Q141K variant was approximately half that of the WT level.
X
ABCG2 p.Gln141Lys 17297656:111:69
status: VERIFIED112 Figure 2B depicts the immunofluorescence images of Flp-In-293/Mock, Flp-In-293/ABCG2 (WT), Flp-In-293/ABCG2 (V12M) and Flp-In-293/ABCG2 (Q141K) cells.
X
ABCG2 p.Gln141Lys 17297656:112:137
status: VERIFIED116 Drug resistance profiles of Flp-In-293 cells expressing WT ABCG2, V12M and Q141K variants toward camptothecin analogs.
X
ABCG2 p.Gln141Lys 17297656:116:75
status: VERIFIED117 To examine the drug resistance profiles, we incubated Flp-In-293/ABCG2 (WT), Flp-In-293/ABCG2 (V12M) and Flp-In-293/ABCG2 (Q141K) cells with SN-38 and the new camptothecin analogs at different concentrations for 96 h, after which we observed the cell survival rates.
X
ABCG2 p.Gln141Lys 17297656:117:123
status: VERIFIED118 Flp-In-293/ABCG2 (WT), Flp-In-293/ABCG2 (V12M) and Flp-In-293/ABCG2 (Q141K) cells exhibited strong resistance to SN-38, SN-355 and SN-398, as represented by large IC50 values (Fig. 3).
X
ABCG2 p.Gln141Lys 17297656:118:69
status: VERIFIED120 In contrast, the Q141K variant appeared to render drug resistance at a level only half that of WT.
X
ABCG2 p.Gln141Lys 17297656:120:17
status: VERIFIED135 (V12M) or Flp-In-293/ABCG2 (Q141K) cells exhibited resistance toward SN-22, SN-343, SN-348, SN-349, SN-351, SN-352, SN-353, SN-364, SN-397, SN-443 or SN-444.
X
ABCG2 p.Gln141Lys 17297656:135:28
status: VERIFIED136 These results suggest that camptothecin analogs lacking the hydroxyl or amino group at position 10 or 11 are not substrates for WT ABCG2 or the V12M and Q141K variants.
X
ABCG2 p.Gln141Lys 17297656:136:153
status: VERIFIED150 It is important to note that the IC50 values of Q141K-expressing cells toward doxorubicin and daunorubicin were greater than that of WT-expressing cells, whereas Q141K-expressing cells were more sensitive to SN-38 and mitoxantron compared with WT-expressing cells.
X
ABCG2 p.Gln141Lys 17297656:150:48
status: VERIFIEDX
ABCG2 p.Gln141Lys 17297656:150:162
status: VERIFIED151 These results suggest that the substrate specificity of the Q141K variant differs delicately from that of WT ABCG2.
X
ABCG2 p.Gln141Lys 17297656:151:60
status: VERIFIED152 Considered overall, the minor SNP variants were less effective in drug resistance than the V12M and Q141K variants.
X
ABCG2 p.Gln141Lys 17297656:152:100
status: VERIFIED155 For this purpose, we expressed WT ABCG2, V12M, Q141K, S248P, F431L, F489L, R482G and R482T in Sf9 insect cells and prepared plasma membranes as described previously,(16,35) as the plasma membrane of Sf9 cells has lower endogenous background ATPase activity than Flp-In-293 cells.
X
ABCG2 p.Gln141Lys 17297656:155:47
status: VERIFIED159 Honjo et al. first identified non-synonymous SNP of V12M and Q141K.
X
ABCG2 p.Gln141Lys 17297656:159:61
status: VERIFIED166 The Q141K polymorphism located in exon 5 (421C > A) leads to the replacement of the negatively charged glutamic acid residue with a positively charged lysine residue.
X
ABCG2 p.Gln141Lys 17297656:166:4
status: VERIFIED168 The Q141K variant was also detected in all ethnic groups tested, with the allele frequency ranging from 0 to 35% (Africans North Fig. 3.
X
ABCG2 p.Gln141Lys 17297656:168:4
status: VERIFIED169 The effect of camptothecin analogs on the growth of Flp-In-293/ABCG2 (wild type), Flp-In-293/ABCG2 (V12M) or Flp-In-293/ABCG2 (Q141K) cells.
X
ABCG2 p.Gln141Lys 17297656:169:127
status: VERIFIED176 Resistance profile (IC50) of ABCG2 Compound IC50 (nM) Mock Wild type V12M Q141K F208S S248P F431L S441N F489L SN-38 0.9 40.0 (44.4) 40.0 (44.4) 17.0 (18.9) 0.6 (0.7) 3.0 (3.3) 10.0 (11.1) 0.7 (0.8) 3.1 (3.4) Mitoxantorone 5.2 >100 (>19) 92.0 (17.7) 45.0 (8.7) 4.5 (0.9) 11.0 (2.1) 21.0 (4.0) 4.6 (0.9) 11.0 (2.1) Doxorubicin 32.0 78.0 (2.4) 100.0 (3.1) 110.0 (3.4) 20.0 (0.6) 20.0 (0.6) 40.0 (1.3) 21.0 (0.7) 45.0 (1.4) Daunorubicin 12.0 30.0 (2.5) 50.0 (4.2) 50.0 (4.2) 12.0 (1.0) 21.0 (1.8) 14.0 (1.2) 12.0 (1.0) 19.0 (1.6) Etoposide 110.0 200.0 (1.8) 220.0 (2.0) 200.0 (1.8) 110.0 (1.0) 120.0 (1.1) 120.0 (1.1) 130.0 (1.2) 170.0 (1.5) Vincristine 1.4 4.0 (2.9) 5.0 (3.6) 4.5 (3.2) 0.6 (0.4) 4.0 (2.9) 1.4 (1.0) 0.8 (0.6) 2.8 (2.0) Relative resistances to mock cells are described in parentheses.
X
ABCG2 p.Gln141Lys 17297656:176:74
status: VERIFIED179 (22,25,27,29) An investigation of the expression level of ABCG2 in 99 Japanese placenta samples revealed that individuals homozygous for the Q141K variant showed significantly lower expression levels of this transporter protein, whereas the heterozygous samples displayed an intermediate expression level.
X
ABCG2 p.Gln141Lys 17297656:179:141
status: VERIFIED180 (27) It has been reported that the SNP Q141K may cause increased plasma concentrations of orally administered diflomotecan in cancer patients who express low levels of ABCG2 (Q141K) protein in the small intestine.
X
ABCG2 p.Gln141Lys 17297656:180:39
status: VERIFIEDX
ABCG2 p.Gln141Lys 17297656:180:175
status: VERIFIED182 By using an in-vitro system, Imai et al. showed that ABCG2 Q141K variant-transfected PA317 cells had a low-level of drug resistance associated with decreased protein expression.
X
ABCG2 p.Gln141Lys 17297656:182:59
status: VERIFIED183 (25) This finding is apparently in accordance with a report by Kondo et al.(31) However, Morisaki et al.(30) reported that the protein expression level of ABCG2 Q141K varied among clones of HEK293 cells where ABCG2 Q141K cDNA was expressed stably with the conventional pcDNA3.1(+) vector.
X
ABCG2 p.Gln141Lys 17297656:183:161
status: VERIFIEDX
ABCG2 p.Gln141Lys 17297656:183:215
status: VERIFIED184 In contrast, Mizuarai et al.(28) described that approximately equal levels of ABCG2 were expressed in Q141K clones compared to the expression in WT, although they did not present any data in this respect.
X
ABCG2 p.Gln141Lys 17297656:184:102
status: VERIFIED191 Based on the new method, our present study (Fig. 2A) supports the original report of Imai et al.,(25) suggesting that the protein stability of the Q141K variant is reduced without any detectable changes in its mRNA levels.
X
ABCG2 p.Gln141Lys 17297656:191:147
status: VERIFIED202 As one of the specific aims of the present study, we functionally classified the non-synonymous polymorphisms (V12M, Q141K, F208S, S248P, F431L, S441N and F489L) in terms of their protein expression level, drug resistance profile and prazosin-stimulated ATPase activity.
X
ABCG2 p.Gln141Lys 17297656:202:117
status: VERIFIED206 As shown in Fig. 5B, it is obvious that WT, V12M and Q141K form one group where protein expression, methotrexate and porphyrin transport, and resistance to SN-38 and mitoxantrone are positive, but contribution to doxorubicin- and daurorubicin- Fig. 4.
X
ABCG2 p.Gln141Lys 17297656:206:53
status: VERIFIED221 (32,33) As demonstrated in Fig. 3, the new camptothecin analogs that were non-substrates for ABCG2 circumvented ABCG2-mediated drug resistance without any influence from major SNP (i.e. V12M and Q141K).
X
ABCG2 p.Gln141Lys 17297656:221:195
status: VERIFIED
PMID: 17312388
[PubMed]
Li J et al: "Association of variant ABCG2 and the pharmacokinetics of epidermal growth factor receptor tyrosine kinase inhibitors in cancer patients."
No.
Sentence
Comment
1
Jude Children's Research Hospital; 332 North Lauderdale Street, DTRC Room D1034, Mail Stop 314; Memphis, Tennessee USA 38105; Tel.: 901.495.3089; Fax: 901.495.3125; Email: sharyn.baker@stjude.org Original manuscript submitted: 12/21/06 Manuscript accepted: 12/29/06 Previously published online as a Cancer Biology & Therapy E-publication: http://www.landesbioscience.com/journals/cc/abstract.php?id=3763 Key words gefitinib, erlotinib, EGFR tyrosine kinase inhibitor, ABCG2, polymorphism, pharmacokinetics Abstract The purpose of the study was to determine if the epidermal growth factor receptor (EGFR) tyrosine kinase inhibitors (TKIs), gefitinib and erlotinib, are substrates for the efflux transporter ABCG2, and to investigate the relevance of the ABCG2 421C>A (Q141K) polymorphism to the pharmacokinetics of gefitinib.
X
ABCG2 p.Gln141Lys 17312388:1:767
status: VERIFIED2 Gefitinib and erlotinib transport in vitro was studied using HEK293 cells transfected with ���������������������������wild‑type ABCG2 or a Q141K clone.
X
ABCG2 p.Gln141Lys 17312388:2:335
status: VERIFIED12 In particular, a functional single nucleotide polymorphism has been recently identified in exon 5 of the ABCG2 gene, in which a C>A nucleotide transition at position 421 (ABCG2 421C>A) results in a non-synonymous variant protein with a glutamine to lysine amino acid substitution in codon 141 (Q141K).19 The ABCG2 421C>A variant has been associated with low ABCG2 expression levels and altered substrate specificity,19 and has been found to alter the pharmacokinetics of diflomotecan and topotecan.13,24 Recently developed tyrosine kinase inhibitors, including imatinib and gefitinib, have been shown to inhibit ABCG2,25‑29 and imatinib has been shown to be a substrate for ABCG2.5 The aim of this study was to determine if ��������������������������������������ABCG2 transports the epidermal growth factor receptor tyrosine kinase inhibitors gefitinib and erlotinib, ���by examining cellular accumulation and efflux in human embryonic kidney cells (HEK293) transfected with empty vector, wild‑type ABCG2 and a 421C>A variant clone.
X
ABCG2 p.Gln141Lys 17312388:12:295
status: VERIFIED71 Comparative intracellular accumulation of 3H-gefitinib (A) and erlotinib (B) in human embryonic kidney cells (HEK293) transfected with a pcDNA3 vector (pcDNA3), wild-type (R-5), and Q141K variant (Q141-K5) of ABCG2.
X
ABCG2 p.Gln141Lys 17312388:71:182
status: VERIFIED74 *, ANOVA, significantly different from the control (pcDNA3), P<0.05; **, ANOVA, significantly different from the control (pcDNA3) and Q141 variant (Q141-K5), P<0.05 Table 1 Kinetic parameters a for cellular efflux of 3H‑gefitinib by ������������������� ����� ������HEK293 transfected with pcDNA3 vector (pcDNA), Q141K variant (Q141‑K5), and wild‑type (R‑5) of ABCG2, ������������at the drug concentrations of 1 and 10 mM Gefitinib 1 mM Gefitinib 10 mM Emax (%) ET50 (h) Emax (%) ET50 (h) pcDNA 19.5 ± 4.19 1.40 ± 0.69 22.7 ± 10.6 1.86 ± 1.57 Q141‑K5 22.1 ± 2.23* 0.74 ± 0.09* 22.7 ± 2.30 1.00 ± 0.26 R‑5 27.3 ± 1.26*† 0.67 ± 0.09* 25.2 ± 4.04 1.13 ± 0.39 aIndividual cellular efflux curves were fitted with Michaelis‑Menten equation, where Emax is the maximum efflux fraction (%initial radioactivity), and ET50 is the time to achieve the half‑Emax.
X
ABCG2 p.Gln141Lys 17312388:74:536
status: VERIFIED98 Relative intracellular accumulation of 3H-gefitinib (A) and erlotinib (B) in human embryonic kidney cells (HEK293) transfected with a pcDNA3 vector (pcDNA3), wild-type (R-5), and Q141K variant (Q141-K5) of ABCG2, in the absence and presence of 1 µM or 5 µM of the ABCG2 specific inhibi� tor fumitremorgin (FTC).
X
ABCG2 p.Gln141Lys 17312388:98:179
status: VERIFIED101 *, ANOVA, significantly different from the control (in the absence of FTC), P<0.05 Table 2 Genotype and allele frequencies for the studied variant genes Genotype Frequenciesa Allele Frequenciesb Variantc Effectd Activitye Wt Het Var p q ABCB1 3435C > T I1145I (exon 26) Decreased 7 (26%) 12 (44%) 8 (30%) 0.48 0.52 ABCG2 421C > A Q141K (exon 5) Decreased 20 (74%) 7 (26%) 0 (0) 0.87 0.13 aNumber represents number of patients with percentage in parenthesis.
X
ABCG2 p.Gln141Lys 17312388:101:351
status: VERIFIED110 Cellular efflux of 3H-gefitinib (A and B) and erlotinib (C and D) by human embryonic kidney cells (HEK293) transfected with a pcDNA3 vector (pcDNA3), wild-type (R-5), and Q141K variant (Q141-K5) of ABCG2, after cells were pre-incubated with 1 µM (A and C), and 10 µM (A and D) of the drug (i.e., gefitinib or erlotinib) for 1 h.
X
ABCG2 p.Gln141Lys 17312388:110:171
status: VERIFIED
PMID: 17323126
[PubMed]
Huang Y et al: "Pharmacogenetics/genomics of membrane transporters in cancer chemotherapy."
No.
Sentence
Comment
124
Moreover, Letourneau et al. examined 10 non-synonymous ABCC1 SNPs to determine Table 2 Summary of genetic variants in ABC transporters ABCB1, ABCC1, ABCC2 and ABCG2 involved in cancer chemotherapy Variants (location, effect) Phenotype Drug Sample Reference ABCB1 +103T>C (5'flanking, non-coding) Increased transcription Doxorubicin vincristine osteosarcoma Stein et al., 1994 [19] +8T>C (5'flanking, non-coding) Unknown Leukemia Rund et al., 1999 [21] 1236C>T (exon12, synonymous) Higher expression AML blasts Illmer et al., 2002 [47] Lower clearance Irinotecan Cancer patients Sai et al., 2003 [44] Higher exposure Irinotecan, SN-38 Cancer patients Mathijssen et al., 2003 [45] 2677G>T/A (exon21, A893S/T) Lower expression placenta Tanabe et al., 2001 [42] Lower expression placenta Hitzl et al., 2004 [37] Higher expression AML blasts Illmer et al., 2002 [47] Allele specific expression Cell lines, lymphoma Mickley et al., 1998 [22] Lower clearance Irinotecan Cancer patients Sai et al., 2003 [44] Survival leukemia Illmer et al., 2002 [47] Survival leukemia van den Heuvel-Eibrink et al., 2001 [48] Worse survival AML blasts Kim et al., 2006 [10] Higher efficacy Paclitaxel Ovarian cancer Green et al., 2006 [50] 2995G>A (exon24, A999T) None Cell lines, lymphoma Mickley et al., 1998 [22] 3435C>T (exon26, synonymous) Lower expression Duodenal protein Hoffmeyer et al., 2000 [26] Lower expression placenta Hitzl et al., 2004 [37] Higher expression Intestine mRNA Nakamura et al., 2002 [32] Higher expression AML blasts Illmer et al., 2002 [47] Lower clearance Irinotecan Cancer patients Sai et al., 2003 [44] Lower efflux Digoxin CD56+ NK cells Hitzl et al., 2001 [27] Higher plasma level Digoxin Healthy volunteers Hoffmeyer et al., 2000 [26] Higher AUC Cyclosporin transplant patients Bonhomme-Faivre et al., 2004 [36] Lower CNS relapse Cancer patients Stanulla et al., 2005 [46] Better survival leukemia Illmer et al., 2002 [47] Higher efficacy Breast cancer Kafka et al., 2003 [49] Higher activity, worse survival AML Kim et al., 2006 [10] Better survival Platinums Esophageal cancer Wu et al., 2006 [43] No difference Docetaxel patients Puisset et al., 2004 [41] No difference Irinotecan Cancer patients Mathijssen et al., 2004 [39] No difference Vincristine patients Plasschaert et al., 2004 [40] No difference colon Taniguchi et al., 2003 [24] ABCC1 -260G>C (5'flanking, non-coding) Higher activity Transfected cell line Wang et al., 2005 [62] Table 2 (Continued) Variants (location, effect) Phenotype Drug Sample Reference 128G>C (exon2, C43S) Reduced resistance Vincristine, arsenite Transfected cell line Leslie et al., 2003 [60] 1299G>T (exon10, R433S) Reduced transport of LTC4, increased resistance to doxorubicin Leukotriene C4, doxorubicin Transfected cell line Conrad et al., 2002 [59] 2012G>T (exon16, G671V) No change in activityLeukotriene C4 Transfected cell line Conrad et al., 2001 [58] Heart toxicity Doxorubicin nLon-Hodgkin lymphoma Wojnowski et al., 2005 [63] 2965G>A (exon22, A989T) Reduced transport Estradiol 17β-glucuronide Transfected cell line Letourneau et al., 2005 [61] ABCC2 1271A>G (exon10, R421G) Reduced drug elimination, increased nephrotoxicity Methotrexate One lymphoma patient Hulot et al., 2005 [79] 3972C>T (exon28, nonsynonymous) Reduced drug clearance Irinotecan Cancer patients Innocenti et al., 2004 [80] ABCG2 376C>T (exon4, Q126stop) Reduced transport Porphyrin Trensfected cell Tamura et al., 2006 [104] 421C>A (exon5, Q141K) Lower expression Transfected cell lines Imai et al., 2002 [94] Lower expression Transfected cell lines Kondo et al., 2004 [95] Lower expression Placenta Kobayashi et al., 2005 [98] Reduced ATPase activity Trensfected cell lines Mizuarai et al., 2004 [97] Higher plasma levels Diflomotecan patients Sparreboom et al., 2004 [100] Increased bioavailability Topotecan patients Sparreboom et al., 2005 [101] Increased bioavailability 9-Aminocamptothecin patients Zamboni et al., 2006 [81] Increased drug accumulation Imatinib Transfected cell lines Gardner et al., 2006 [96] Increased drug accumulation Topotecan Trensfected cell lines Imai et al., 2002 [94] No difference Imatinib patients Gardner et al., 2006 [96] No difference intestine Zamber et al., 2003 [99] No difference MTX Trensfected cell lines Kondo et al., 2004 [95] the effects on expression and function of this transporter in transfected HEK293T cells [61].
X
ABCG2 p.Gln141Lys 17323126:124:3484
status: NEW172 In vitro transfection experiments showed that 421C>A (substituting Lys for Gln-141, Q141K) resulted in decreased ABCG2 protein expression and a reduced level of drug resistance when compared with the wild type ABCG2 [94, 95].
X
ABCG2 p.Gln141Lys 17323126:172:67
status: NEWX
ABCG2 p.Gln141Lys 17323126:172:84
status: NEW175 ATPase activity of the Q141K variant was reduced ~1.3-fold compared to the activity of the wild type ABCG2 [97].
X
ABCG2 p.Gln141Lys 17323126:175:23
status: NEW
PMID: 17323127
[PubMed]
Robey RW et al: "ABCG2: determining its relevance in clinical drug resistance."
No.
Sentence
Comment
138
Expression of the Q141K SNP in cell lines has been shown to lead to significantly lower IC50 values for ABCG2 substrates, including mitoxantrone, irinotecan, and SN-38 [119, 122].
X
ABCG2 p.Gln141Lys 17323127:138:18
status: VERIFIED139 The Q141K SNP has been shown to influence the pharmacokinetics of orally administered drugs, including topotecan [125], diflomotecan [126] and 9-aminocamptothecin [127].
X
ABCG2 p.Gln141Lys 17323127:139:4
status: VERIFIED140 As noted earlier, the higher plasma drug levels due to the Q141K SNP may result in exquisite sensitivity to certain orally administered chemotherapy drugs.
X
ABCG2 p.Gln141Lys 17323127:140:59
status: VERIFIED
PMID: 17373578
[PubMed]
Yoshioka S et al: "The identification of two germ-line mutations in the human breast cancer resistance protein gene that result in the expression of a low/non-functional protein."
No.
Sentence
Comment
21
In our previous study, we identified three nonsynonymous SNPs within the BCRP gene, G34A substituting Met for Val-12 (V12M), C376T substituting a stop codon for Gln-126 (Q126Stop), and C421A substituting Lys for Gln141 (Q141K).
X
ABCG2 p.Gln141Lys 17373578:21:204
status: VERIFIEDX
ABCG2 p.Gln141Lys 17373578:21:220
status: VERIFIED42 The cells were selected with 120 ng/mL of methotrexate, and the resulting mixed populations of resistant cells were designated as PA/WT, PA/V12M, PA/ G51C, PA/Q141K, PA/T153M, PA/I206L, PA/F208S, PA/ S248P, PA/F431L, PA/N590Y and PA/D620N, respectively. The PA/F208S clones and PA/F431L clones were obtained by limiting dilution.
X
ABCG2 p.Gln141Lys 17373578:42:159
status: VERIFIED43 Cell Growth Inhibition Assay Anticancer agent resistance levels in both the parental PA317 cells and in the various BCRP transfectants were Table I. Frequencies of Germ-line Mutations/SNPs Within The BCRP Gene Variation Frequency (%) Number Population Reference Nucleotide Amino acid G34A V12M 19 29 Japanese 17 G151T G51C 0.1a 350 Japanese C376T Q126Stop 1.2 124 Japanese 17 C421A Q141K 26.6 124 Japanese 17 C458T T153M 3.3 30 Cell line 32 C496G Q166E 0.3a 200 Japanese A616C I206L 20 10 Hispanic 33 T623C F208S 0.3a 200 Japanese T742C S248P 0.5a 200 Japanese T1291C F431L 0.6b 260 Japanese 34 A1768T N590Y 1.1 88 Caucasians 33 G1858A D620N 1.1 90 unknown 35 a Determined in this study.
X
ABCG2 p.Gln141Lys 17373578:43:382
status: VERIFIED45 V12M Q141K D620N N590Y F431L S248P F208S I206L T153M G51C Q166E OUT MEMBRANE IN Fig. 1.
X
ABCG2 p.Gln141Lys 17373578:45:5
status: VERIFIED75 SN-38 Resistance Levels of PA317 Transfectantsa Cell type IC50 (nmol/L) Degree of resistance PA317 11 T 0.2 1 PA/WT 550 T 16 50 PA/V12M 490 T 13 45 PA/Q141K 110 T 5.9 10 PA/T153M 260 T 15 24 PA/Q166E 680 T 40 62 PA/F208S 10 T 0.7 1 PA/F431L 34 T 0.9 3 PA/D620N 190 T 5.7 17 a Cells were cultured for 5 days with various concentrations of SN-38.
X
ABCG2 p.Gln141Lys 17373578:75:151
status: VERIFIED85 Similar to previous findings (14), PA/V12M cells were observed to express similar amounts of BCRP compared with PA/WT cells, whereas PA/Q141K cells expressed significantly lower amounts of BCRP than PA/WT (Fig. 2a).
X
ABCG2 p.Gln141Lys 17373578:85:136
status: VERIFIED88 PA/T153M and PA/D620N transfectants expressed lower amounts of BCRP than PA/WT cells, but these levels were higher than those in the PA/Q141K cells (Fig. 2a).
X
ABCG2 p.Gln141Lys 17373578:88:136
status: VERIFIED94 PA/Q141K, PA/T153M and PA/D620N cells expressed lower amounts of BCRP on their cell surfaces than PA/WT cells (Fig. 2d).
X
ABCG2 p.Gln141Lys 17373578:94:3
status: VERIFIED102 PA/Q141K, PA/ T153M, and PA/D620N cells showed 10Y24-fold higher resistance levels to SN-38 compared with the parental cells (Table II).
X
ABCG2 p.Gln141Lys 17373578:102:3
status: VERIFIED130 The resulting mixed populations of cells were designated a PA/WT, PA/V12M, PA/G51C, PA/Q141K, PA/ T153M, PA/I206L, PA/F208S, PA/S248P, PA/F431L, PA/ N590Y and PA/D620N.
X
ABCG2 p.Gln141Lys 17373578:130:87
status: VERIFIED168 Although PA/F431L cells express higher quantities of 70-kDa BCRP compared with PA/Q141K, PA/T153M, and PA/D620N cells (Fig. 2a) these cells in fact show a lower resistance to SN-38 than these other three transfectants (Table II).
X
ABCG2 p.Gln141Lys 17373578:168:82
status: VERIFIED172 These results were similar to the data obtained for PA/Q141K cells and based upon these data, we hypothesize that the decrease in the resistance levels to SN-38 may not be due to functional alterations but to decreased protein expression.
X
ABCG2 p.Gln141Lys 17373578:172:55
status: VERIFIED
PMID: 17375082
[PubMed]
Hardwick LJ et al: "The emerging pharmacotherapeutic significance of the breast cancer resistance protein (ABCG2)."
No.
Sentence
Comment
145
Imai et al. (2002a) sequenced cDNA from 11 human tumours and identified SNPs G34A (V12M) and C421A (Q141K), a splice variant 944-949 deletion (A315- T316), and later, an additional C376T (G126Stop) polymorphism.
X
ABCG2 p.Gln141Lys 17375082:145:100
status: VERIFIED
PMID: 17403009
[PubMed]
Duncan EJ et al: "Cloning, mapping and association studies of the ovine ABCG2 gene with facial eczema disease in sheep."
No.
Sentence
Comment
95
The Q141K mutation affects the transport efficiency of the protein (Mizuarai et al. 2004), whereas the S441N mutation is known to alter the localisation of the mature protein from the cell membrane to an intracellular location.
X
ABCG2 p.Gln141Lys 17403009:95:4
status: VERIFIED
PMID: 17460607
[PubMed]
Ieiri I et al: "SLCO1B1 (OATP1B1, an uptake transporter) and ABCG2 (BCRP, an efflux transporter) variant alleles and pharmacokinetics of pitavastatin in healthy volunteers."
No.
Sentence
Comment
230
Imai, Y. et al. C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 17460607:230:123
status: NEW
PMID: 17481587
[PubMed]
Bram EE et al: "C421 allele-specific ABCG2 gene amplification confers resistance to the antitumor triazoloacridone C-1305 in human lung cancer cells."
No.
Sentence
Comment
110
C-1311 accumulation in HEK293 ABCG2 (Q141K) transfectant cells was carried out as above with the exceptions of using a C-1311 concentration range of 0.1-10 mM and the use of the alternative ABCG2 efflux inhibitor fumitremorgin C (5 mM) when co-incubated with C-1311.
X
ABCG2 p.Gln141Lys 17481587:110:37
status: NEW290 [17] Imai Y, Nakane M, Kage K, et al. C421 polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low level drug resistance.
X
ABCG2 p.Gln141Lys 17481587:290:144
status: NEW
PMID: 17494054
[PubMed]
Hu LL et al: "BCRP gene polymorphisms are associated with susceptibility and survival of diffuse large B-cell lymphoma."
No.
Sentence
Comment
18
BCRP G34A (Val12Met) and C421A (Gln141Lys) polymorphisms occurred at high frequency in most ethnic populations and have been shown to be associated with the expression and activity of BCRP protein.
X
ABCG2 p.Gln141Lys 17494054:18:32
status: VERIFIED21 Based on these evidences, we hypothesize that BCRP G34A (Val12Met) and C421A (Gln141Lys) polymorphisms should have potential effect on the susceptibility and prognosis of diseases.
X
ABCG2 p.Gln141Lys 17494054:21:78
status: VERIFIED
PMID: 17504223
[PubMed]
Xia CQ et al: "Evaluation of drug-transporter interactions using in vitro and in vivo models."
No.
Sentence
Comment
119
The function of seven single nucleotide polymorphisms (SNPs) in BCRP (V12M, Q141K, A149P, R163K, Q166E, P269S, and S441N BCRP) was determined using membrane vesicles from HEK293 cells infected with the recombinant adenoviruses containing the corresponding BCRP cDNAs [45].
X
ABCG2 p.Gln141Lys 17504223:119:76
status: VERIFIED120 The expression levels of Q141K and S441N BCRP proteins were significantly lower compared to the wild type protein and the other five variants.
X
ABCG2 p.Gln141Lys 17504223:120:25
status: VERIFIED121 Furthermore, the transport rate of estrone sulfate, dehydroepiandrosterone sulfate (DHEAS), methotrexate, and p-aminohippurate was almost the same for the wild type, V12M, Q141K, A149P, R163K, Q166E, and P269S BCRP variants when it is normalized by the expression levels of BCRP protein.
X
ABCG2 p.Gln141Lys 17504223:121:172
status: VERIFIED122 These results suggest that Q141K SNPs may be associated with a lower expression level, and S441N SNPs may affect both the expression level and cellular localization.
X
ABCG2 p.Gln141Lys 17504223:122:27
status: VERIFIED
PMID: 17505995
[PubMed]
Fischer S et al: "ATP-binding cassette transporter ABCG2 (BCRP) and ABCB1 (MDR1) variants are not associated with disease susceptibility, disease phenotype response to medical therapy or need for surgeryin Hungarian patients with inflammatory bowel diseases."
No.
Sentence
Comment
41
For example, Sparreboom et al. [25] found that the ABCG2 C421A (Q141K) variant affected the pharmacokinetics of diflomotecan, a synthetic derivative of camptothecin.
X
ABCG2 p.Gln141Lys 17505995:41:64
status: VERIFIED60 Detection of MDR1 and ABCG2 polymorphisms The sequence variants (SNPs) of the two ABC transporters studied were: ABCB1 (MDR1): c.2677G/T/A or G2677T/A (Ala893Ser/Thr, exon 21, SNP database ID: rs2032582) and c.3435C/T or C3435T (silent base-substitution I1145I, exon 26, SNP database ID: rs1045642); ABCG2 (BCRP/MXR): c.34G/A or G34A (Val12Met, exon 2, SNP database ID: rs2231137; c.421C/A or C421A (Gln141Lys, exon 5, SNP database ID: rs2231142).
X
ABCG2 p.Gln141Lys 17505995:60:404
status: VERIFIED
PMID: 17507636
[PubMed]
Weiss JR et al: "Concordance of pharmacogenetic polymorphisms in tumor and germ line DNA in adult patients with acute myeloid leukemia."
No.
Sentence
Comment
60
Gene information and K statistics for matched AML and buccal DNA samples (N = 80) Gene Single nucleotide polymorphism location Chromosome rs nos. j Asymptotic error Confidence interval No. of evaluable cases (%) No. of nonmatching genotype calls ABCB1-03 Ex27-55A>C>G>T; I1144M 7q21.1 rs1045642 1.00 77 (96.3) 0 ABCB1-05 Ex22-9A>C>G>T; A892S 7q21.1 rs2032582 0.96 0.031 0.89-1.02 76 (95.0) 2 ABCB1-24 Ex13+12 A>G; G412G 7q21.1 rs1128503 0.98 0.023 0.95-1.02 76 (95.0) 1 ABCC1 Ex8 T825C; V275V 16p13.1 rs246221 1.00 76 (95.0) 0 ABCC1 Ex28 G4002A; S1334S 16p13.1 rs2230671 1.00 78 (97.5) 0 ABCC1 Ex9 T1062C; L562L 16p13.1 rs35587 0.98 0.022 0.93-1.02 77 (96.3) 1 ABCG2 Ex5 C421A; Q141K 4q22 rs2231142 1.00 75 (93.8) 0 ABCG2 Ex2 G34A; V12M 4q22 rs2231137 1.00 75 (93.8) 0 CAT-01 À329T>C 11p13 rs1001179 1.00 78 (97.5) 0 GPX1-01 Ex1-226C>T; P200L 3p21.3 rs1050450 0.96 0.029 0.90-1.02 79 (98.8) 2 SOD2-01 Ex2+24C>T; V16A 6q25.3 rs1799725 0.98 0.020 0.94-1.02 77 (96.3) 1 GSTA1-01 À4621T>C 6p12.1 rs3957357 1.00 78 (97.5) 0 GSTP1-01 Ex5-24A>G; I105V 11q13 rs947894 0.96 0.030 0.90-1.02 78 (97.5) 2 GSTM1 Gene deletion 1p13.3 1.00 77 (96.3) 0 GSTT1 Gene deletion 22q11.23 1.00 77 (96.3) 0 CYP3A4-02 À391A>G 7q21.1 rs2740574 0.94 0.053 0.89-1.05 77 (96.3) 1 CYP2C8 A1196G; R399K 10q23.33 rs10509681 0.96 0.040 0.88-1.04 77 (96.3) 1 CYP2C8 C792G; M264I 10q23.33 rs1058930 0.96 0.041 0.88-1.04 77 (96.3) 1 MGMT-01 Ex4-13A>G; I143V 10q26 rs2308321 1.00 80 (100.0) 0 XPD312 Ex10-16G>A; D312N 19q13.3 rs1799793 1.00 73 (91.3) 0 XPD751 Ex23-61A>C; K751Q 19q13.3 rs13181 0.98 0.022 0.93-1.02 76 (95.0) 1 XRCC1 Ex10-4A>G; Q399R 19q13.2 rs25487 1.00 74 (92.5) 0 CDA A79C; K27Q 1p36.2-p35 rs2072671 1.00 77 (96.3) 0 NOTE: Values of n: j > 0.75 (excellent agreement beyond chance), j between 0.40 and 0.75 (fair to good agreement), j < 0.40 (poor agreement).
X
ABCG2 p.Gln141Lys 17507636:60:678
status: VERIFIED62 j Asymptotic error Confidence interval No. of evaluable cases (%) No. of nonmatching genotype calls ABCB1-03 Ex27-55A>C>G>T; I1144M 7q21.1 rs1045642 1.00 77 (96.3) 0 ABCB1-05 Ex22-9A>C>G>T; A892S 7q21.1 rs2032582 0.96 0.031 0.89-1.02 76 (95.0) 2 ABCB1-24 Ex13+12 A>G; G412G 7q21.1 rs1128503 0.98 0.023 0.95-1.02 76 (95.0) 1 ABCC1 Ex8 T825C; V275V 16p13.1 rs246221 1.00 76 (95.0) 0 ABCC1 Ex28 G4002A; S1334S 16p13.1 rs2230671 1.00 78 (97.5) 0 ABCC1 Ex9 T1062C; L562L 16p13.1 rs35587 0.98 0.022 0.93-1.02 77 (96.3) 1 ABCG2 Ex5 C421A; Q141K 4q22 rs2231142 1.00 75 (93.8) 0 ABCG2 Ex2 G34A; V12M 4q22 rs2231137 1.00 75 (93.8) 0 CAT-01 À329T>C 11p13 rs1001179 1.00 78 (97.5) 0 GPX1-01 Ex1-226C>T; P200L 3p21.3 rs1050450 0.96 0.029 0.90-1.02 79 (98.8) 2 SOD2-01 Ex2+24C>T; V16A 6q25.3 rs1799725 0.98 0.020 0.94-1.02 77 (96.3) 1 GSTA1-01 À4621T>C 6p12.1 rs3957357 1.00 78 (97.5) 0 GSTP1-01 Ex5-24A>G; I105V 11q13 rs947894 0.96 0.030 0.90-1.02 78 (97.5) 2 GSTM1 Gene deletion 1p13.3 1.00 77 (96.3) 0 GSTT1 Gene deletion 22q11.23 1.00 77 (96.3) 0 CYP3A4-02 À391A>G 7q21.1 rs2740574 0.94 0.053 0.89-1.05 77 (96.3) 1 CYP2C8 A1196G; R399K 10q23.33 rs10509681 0.96 0.040 0.88-1.04 77 (96.3) 1 CYP2C8 C792G; M264I 10q23.33 rs1058930 0.96 0.041 0.88-1.04 77 (96.3) 1 MGMT-01 Ex4-13A>G; I143V 10q26 rs2308321 1.00 80 (100.0) 0 XPD312 Ex10-16G>A; D312N 19q13.3 rs1799793 1.00 73 (91.3) 0 XPD751 Ex23-61A>C; K751Q 19q13.3 rs13181 0.98 0.022 0.93-1.02 76 (95.0) 1 XRCC1 Ex10-4A>G; Q399R 19q13.2 rs25487 1.00 74 (92.5) 0 CDA A79C; K27Q 1p36.2-p35 rs2072671 1.00 77 (96.3) 0 NOTE: Values of n: j > 0.75 (excellent agreement beyond chance), j between 0.40 and 0.75 (fair to good agreement), j < 0.40 (poor agreement).
X
ABCG2 p.Gln141Lys 17507636:62:532
status: NEW
PMID: 17509035
[PubMed]
Kim HS et al: "The effect of ABCG2 V12M, Q141K and Q126X, known functional variants in vitro, on the disposition of lamivudine."
No.
Sentence
Comment
0
The effect of ABCG2 V12M, Q141K and Q126X, known functional variants in vitro, on the disposition of lamivudine Ho-Sook Kim,1 Yu Eun Sunwoo,1 Ji Young Ryu,1 Ho-Jin Kang,1 Hye-Eun Jung,1 Im-Sook Song,1 Eun-Young Kim,1,2 Joo-Cheol Shim,1,3 Ji-Hong Shon1,2 & Jae-Gook Shin1,2 1 Department of Pharmacology and Pharmacogenomics Research Centre, Inje University College of Medicine, 2 Department of Clinical Pharmacology and 3 Department of Psychiatry, Inje University Busan Paik Hosptial, Busan, Korea Correspondence Jae-Gook Shin, MD, PhD, Department of Pharmacology and Clinical Pharmacology, Pharmacogenomics Research Centre, Inje University College of Medicine, 633-165 Gaegum-dong, Jin-gu, Busan 614-735, Korea.
X
ABCG2 p.Gln141Lys 17509035:0:26
status: VERIFIED2 Received 19 September 2006 Accepted 15 March 2007 Published OnlineEarly 17 May 2007 Aims To evaluate the effects of three ABCG2 variants (Q141K, V12M and Q126X), which are known to have altered transport properties in vitro, on the disposition of lamivudine in healthy subjects.
X
ABCG2 p.Gln141Lys 17509035:2:138
status: VERIFIED10 Conclusions Lamivudine appeared to be a substrate of ABCG2 in vitro, but the disposition of lamivudine was not significantly influenced by known in vitro functional variants of ABCG2, Q141K, V12M and Q126X in healthy subjects.
X
ABCG2 p.Gln141Lys 17509035:10:184
status: VERIFIED21 The ABCG2 C421A allele, resulting in a Gln141Lys change, has been associated with low levels of ABCG2 expression and altered sensitivity to the anticancer drugs SN-38, mitoxantrone and topotecan in vitro, compared with the wild type [14].
X
ABCG2 p.Gln141Lys 17509035:21:39
status: VERIFIED25 Recently, it was reported that patients with the ABCG2 Gln141Lys variant had elevated plasma concentrations of diflomotecan, a substrate of ABCG2, compared with patients with two wild-type alleles, after intravenous drug administration [16].
X
ABCG2 p.Gln141Lys 17509035:25:55
status: VERIFIED26 Very recently, it has also been demonstrated that ABCG2 Gln141Lys polymorphism may play an important role in the pharmacokinetics of rosuvastatin in healthy Chinese men, after excluding the impact of OATP-C and CYP2C9 genetic polymorphisms [17].
X
ABCG2 p.Gln141Lys 17509035:26:56
status: VERIFIED53 Weighted nonlinear regression analysis was performed in the fitting using Sigma plot (version 9.0; Systat Software Inc., Richmond, CA, USA) Subjects Unrelated Korean subjects (n = 183) had been genotyped for theABCG2 variants G34A(Val12Met), C376T (Gln126stop) and C421A (Gln141Lys).
X
ABCG2 p.Gln141Lys 17509035:53:272
status: VERIFIED62 ABCG2 gene to determine the presence of the Val12Met, Gln126Stop and Gln141Lys alleles.
X
ABCG2 p.Gln141Lys 17509035:62:69
status: VERIFIED85 After washing Table 2 Sequences of primers used for the amplification and sequencing analysis of ABCG2 genotype and the denaturation temperatures used in the PCR Name Primer sequence (5Ј,3Ј) Size PCR ( Tm; °C) ABCG2 V12M F: Biotin-CTCTCCAGATGTCTTCCAGTAATG 278 54 R: GCCAAAACCTGTGAGGTTCA S: CATTGGTGTTTCCTTGTGA ABCG2 Q126X F: GTCTTAGCTGCAAGGAAAGATCCA 174 54.5 R: Biotin-ACTATCAGCCAAAGCACTTACCC S: AATGTAATTCAGGTTACGTG ABCG2 Q141K F: TGATGTTGTGATGGGCACTC 69 54 R: Biotin-GTTGCAAGCCGAAGAGCTG S: GACGGTGAGAGAAAACTT F, forward primer; R, reverse primer; S, sequencing primer; Tm, melting temperature; PCR, polymerase chain reaction.
X
ABCG2 p.Gln141Lys 17509035:85:440
status: VERIFIED116 Effect of ABCG2 variants on the pharmacokinetics of lamivudine To study the influence of ABCG2 variants on lamivudine pharmacokinetics, we included subjects with the Val12Met, Gln126Stop or Gln141Lys ABCG2 variants.
X
ABCG2 p.Gln141Lys 17509035:116:190
status: VERIFIED134 Among the known ABCG2 variants with altered functional properties in vitro, the ABCG2 Gln141Lys polymorphism has been reported to be involved in regulation of the level of protein expression [14, 23], drug resistance level and ATPase activity [15].
X
ABCG2 p.Gln141Lys 17509035:134:86
status: VERIFIED138 The ABCG2 Val12Met and Gln141Lys variants are common in Koreans, with allelic frequencies of 23 and 27.5%, respectively.
X
ABCG2 p.Gln141Lys 17509035:138:23
status: VERIFIED145 There has been a previous demonstration that patients carrying the ABCG2 Gln141Lys variant have elevated plasma concentrations of diflomotecan, a substrate of ABCG2, compared with patients with two wild-type alleles, after intravenous drug administration [16].
X
ABCG2 p.Gln141Lys 17509035:145:73
status: VERIFIED165 However, the Val12Met, Gln126stop and Gln141Lys polymorphisms of ABCG2 studied here, which have been previously shown to cause functional differences in the protein, did not alter the disposition of a single oral dose of 100 mg lamivudine in healthy volunteers.
X
ABCG2 p.Gln141Lys 17509035:165:38
status: VERIFIED
PMID: 17534875
[PubMed]
Han JY et al: "Associations of ABCB1, ABCC2, and ABCG2 polymorphisms with irinotecan-pharmacokinetics and clinical outcome in patients with advanced non-small cell lung cancer."
No.
Sentence
Comment
81
of patients Genotype frequencies{ Allele frequencies§ w/w w/m m/m w m ABCB1 1236C > T Synonymous 105 14 57 34 0.405 0.595 2677G > T Ala893Ser 105 22 37 (GT) 10 (TT) 0.457 0.338 (T) 2677G > A Ala893Thr 15 (GA) 14 (TA) 0.205 (A) 7 (AA) 3435C > T Synonymous 105 43 51 11 0.652 0.348 ABCC2 À24C > T - 107 57 47 3 0.752 0.248 1249G > A Val417Ile 107 86 19 2 0.893 0.107 3972C > T Synonymous 107 51 48 8 0.701 0.299 ABCG2 34G > A Val12Met 106 60 41 5 0.759 0.241 421C > A Gln141Lys 105 59 42 4 0.762 0.238 w indicates wild type allele; m, mutant type allele.
X
ABCG2 p.Gln141Lys 17534875:81:476
status: VERIFIED
PMID: 17627617
[PubMed]
Jada SR et al: "Role of UGT1A1*6, UGT1A1*28 and ABCG2 c.421C>A polymorphisms in irinotecan-induced neutropenia in Asian cancer patients."
No.
Sentence
Comment
21
Apart from the influence of UGT1A1*6 and UGT1A1*28 on irinotecan-induced neutropenia, a recent in vitro study by Imai et al.(16) suggested that the non-synonymous ABCG2 c.421C>A (Q141K) polymorphism in exon 5 exhibited low-level drug resistance and increased the sensitivity of normal cells to SN-38 compared with cell lines transfected with ABCG2 gene harboring the reference genotype.
X
ABCG2 p.Gln141Lys 17627617:21:179
status: VERIFIED
PMID: 17662239
[PubMed]
Telbisz A et al: "Membrane cholesterol selectively modulates the activity of the human ABCG2 multidrug transporter."
No.
Sentence
Comment
30
There are several polymorphic variants of ABCG2 present in large percentage in the human population (e.g. V12M, Q141K), and the possible alterations in the transport capacity and substrate handling of these variants have been examined in numerous experimental systems [18-24].
X
ABCG2 p.Gln141Lys 17662239:30:112
status: VERIFIED
PMID: 17785426
[PubMed]
Zhang Y et al: "Breast cancer resistance protein 1 limits fetal distribution of nitrofurantoin in the pregnant mouse."
No.
Sentence
Comment
174
Thus, the fetuses of pregnant women with BCRP natural variants, such as Q141K, that display lower transport activity (Imai et al., 2002) may have an increased risk for potential NFT toxicity.
X
ABCG2 p.Gln141Lys 17785426:174:72
status: VERIFIED
PMID: 17925548
[PubMed]
Marsh S et al: "Pharmacogenetic assessment of toxicity and outcome after platinum plus taxane chemotherapy in ovarian cancer: the Scottish Randomised Trial in Ovarian Cancer."
No.
Sentence
Comment
55
Homozygous Wild-Type Heterozygous Homozygous Variant pء q† ABCB1 1236CϾT Pac, Doc 896 287 448 161 0.57 0.43 ABCB1 2677GϾT‡§ Pac, Doc 900 269 416 162 0.55 0.42 ABCB1 3435CϾT Pac, Doc 898 207 445 246 0.48 0.52 ABCC1 S1334S Pac, Doc 890 469 360 61 0.73 0.27 ABCC1 IVS18-30CϾG Pac, Doc 886 649 215 22 0.85 0.15 ABCC2 24CϾT Pac, Doc, Carb 899 593 277 29 0.81 0.19 ABCC2 IVS12ϩ148AϾG Pac, Doc, Carb 892 338 422 132 0.62 0.38 ABCC2 V417I Pac, Doc, Carb 867 575 264 28 0.82 0.18 ABCG2 Q141K Pac, Doc, Carb 904 726 168 10 0.90 0.10 CDKN1A 10971CϾT Pac, Doc 873 749 124 0 0.93 0.07 CYP1B1ء 3 Pac, Doc 823 228 421 174 0.53 0.47 CYP2C8 M264I Pac 892 683 191 18 0.94 0.06 CYP2C8 R139K Pac 905 799 104 2 0.87 0.13 CYP2C8 K399R Pac 841 650 174 17 0.88 0.12 CYP3A4ء 1B Pac, Doc 875 838 37 0 0.98 0.02 CYP3A4ء 3ʈ Pac, Doc 900 893 7 0 0.996 0.004 CYP3A5ء 3C Pac, Doc 883 6 95 782 0.06 0.94 ERCC1 17677GϾT Carb 889 742 136 11 0.91 0.09 ERCC1 8092CϾA Carb 854 477 317 60 0.74 0.26 ERCC1 N118N Carb 869 347 396 126 0.63 0.37 ERCC2 K751Q Carb 901 367 398 136 0.63 0.37 GSTP1 A114V Carb 867 748 114 5 0.93 0.07 GSTP1 I105V Carb 881 394 367 120 0.66 0.34 MAPT P587P Pac, Doc 853 791 59 3 0.96 0.04 MPO -463GϾA Carb 888 565 277 46 0.79 0.21 TP53 R72P Pac, Doc 877 495 323 59 0.75 0.25 XRCC1 R399Q Carb 869 390 395 84 0.68 0.32 Abbreviations: SCOTROC1, Scottish Randomised Trial in Ovarian Cancer; Pac, paclitaxel; Doc, docetaxel; Carb, carboplatin.
X
ABCG2 p.Gln141Lys 17925548:55:560
status: VERIFIED72 However, in a study Table 3. Uncorrected P Values From 2 Analysis of Development Set From SCOTROC1 Data Gene and Variant Neurotoxicity (paclitaxel) Neurotoxicity (docetaxel) Hematologic (docetaxel) Grade 3/4 GI (paclitaxel) Grade 3/4 GI (docetaxel) ABCB1 1236CϾT .790 .179 .864 .649 .559 ABCB1 2677GϾT/A .816 .783 .740 .382 .472 ABCB1 3435CϾT .362 .771 .345 .507 .919 ABCC1 S1334S .981 .745 .327 .880 .125 ABCC1 IVS18-30CϾG .943 1.000 .623 .053 .354 ABCC2 -24CϾT .975 .567 .348 .961 .537 ABCC2 IVS12ϩ148AϾG .655 .935 .227 .570 .017 ABCC2 V417I .059 .738 .351 .838 .182 ABCG2 Q141K .711 .318 .838 .086 .205 CDKN1A 10971CϾT .359 1.000 .094 .483 .002ء CYP1B1ء 3 .709 .587 .764 .175 .006ء CYP2C8 M264I .601 .069 1.000 1.000 .148 CYP2C8 R139K .421 .315 .314 .020 .157 CYP2C8 K399R .232 .353 .285 .007 .147 CYP3A4ء 1B .590 1.000 .714 .750 .743 CYP3A5ء 3C .121 .243 1.000 .730 .272 ERCC1 17677GϾT .171 .079 .705 .159 .638 ERCC1 8092CϾA .010 .662 .069 .683 .975 ERCC1 N118N .261 .427 .171 .655 .981 ERCC2 K751Q .206 .209 .501 .062 .108 GSTP1 A114V .231 .400 .812 1.000 .072 GSTP1 I105V .205 .018 .467 .566 .277 MAPT P587P .797 .308 .590 .329 .361 MPO -463GϾA .236 .724 .829 .496 .138 TP53 R72P .298 .954 .945 .490 .157 XRCC1 R399Q .917 .467 .068 .793 .977 NOTE.
X
ABCG2 p.Gln141Lys 17925548:72:625
status: VERIFIED94 For example, polymorphisms in SLCO1B3 were not associated with taxanepharmacokinetics.42 Inadditiontoidentifyingfunctionalpoly- morphisms in known candidate genes, ongoing genome-wide strategies may provide novel candidate genes/chromosome regions for future pharmacogenetics studies.43 Recent studies also suggest that Table 4. Uncorrected P Values From 2 (response) and Log-Rank (progression-free survival) Analysis for Genotype-Outcome Associations in the Development Set Gene and Variant Progression-Free Survival (567-594 patients) CA-125 Response (260-287 patients) Clinical/Radiologic Response (295- 341 patients) ABCB1 1236CϾT .719 .897 .541 ABCB1 2677GϾT/Aء .023 .308 .138 ABCB1 3435CϾT .614 .500 .740 ABCC1 S1334S .671 1.000 .903 ABCC1 IVS18-30CϾG .335 .226 .305 ABCC2 -24CϾT .619 .616 .693 ABCC2 IVS12ϩ148AϾG .712 .689 .848 ABCC2 V417I .278 .582 .503 ABCG2 Q141K .427 1.000 .344 CDKN1A 10971CϾT .305 .014 1.000 CYP1B1ء 3 .120 .865 .291 CYP2C8 M264I .481 .762 .295 CYP2C8 R139K .572 .080 .154 CYP2C8 K399R .617 .004 .319 CYP3A4ء 1B .687 1.000 .780 CYP3A5ء 3C .499 .570 .909 ERCC1 17677GϾT .517 .292 .635 ERCC1 8092CϾA .677 .029 .593 ERCC1 N118N .851 .214 .204 ERCC2 K751Q .562 .613 .198 GSTP1 A114V .178 .512 .243 GSTP1 I105V .693 .187 .939 MAPT P587P .253 1.000 .827 MPO -463GϾA .537 .349 .088 TP53 R72P .212 .878 .309 XRCC1 R399Q .254 .422 .256 NOTE.
X
ABCG2 p.Gln141Lys 17925548:94:940
status: VERIFIED
PMID: 17938643
[PubMed]
Erdilyi DJ et al: "Synergistic interaction of ABCB1 and ABCG2 polymorphisms predicts the prevalence of toxic encephalopathy during anticancer chemotherapy."
No.
Sentence
Comment
23
According to the first theory this SNP and other variations (2677G4T/A and 1236C4T) in linkage disequilibrium are linked to a putative functional polymorphism that causes the differences observed.10 On the other hand it was shown that the 3435T mRNA is characterized by decreased stability, while the linked alleles themselves have no effect on gene expression.11 The ABCG2 34G4A and 421C4A are rare non-synonymous polymorphisms resulting in V12M and Q141K variations.
X
ABCG2 p.Gln141Lys 17938643:23:451
status: VERIFIED
PMID: 18006847
[PubMed]
Shi Z et al: "Erlotinib (Tarceva, OSI-774) antagonizes ATP-binding cassette subfamily B member 1 and ATP-binding cassette subfamily G member 2-mediated drug resistance."
No.
Sentence
Comment
226
November 15, 2007 11018 www.aacrjournals.org American Association for Cancer ResearchCopyright (c) 2007 on May 3, Recently, Cusatis et al. (43) reported that one common functional single-nucleotide polymorphism in the ABCG2 gene, ABCG2 421C!A (Q141K), is associated with diarrhea, which is a gefitinib-induced adverse effect, and led to a high risk of diarrhea in patients treated with oral gefitinib.
X
ABCG2 p.Gln141Lys 18006847:226:176
status: NEWX
ABCG2 p.Gln141Lys 18006847:226:245
status: VERIFIED
PMID: 18068529
[PubMed]
Maruta Y et al: "Determination of ancestral allele for possible human cancer-associated polymorphisms."
No.
Sentence
Comment
0
Determination of ancestral allele for possible human cancer-associated polymorphisms Yuichi Marutaa,b , Naoko Okayamab , Mikako Hiuraa , Yutaka Suehiroa , Hirohisa Hiraic , Yuji Hinodaa,b,* a Department of Laboratory Medicine, Yamaguchi University Graduate School of Medicine, 1-1-1, Minami-Kogushi, Ube, Yamaguchi 755-8505 Japan b Division of Clinical Laboratory, Yamaguchi University Hospital, Ube, Japan c Department of Cellular and Molecular Biology, Primate Research Institute, Kyoto University, Inuyama, Japan Received 31 August 2007; accepted 19 September 2007 Abstract To determine ancestral allele in possible cancer-associated polymorphisms, DNA samples from 10 chimpanzees (Pan troglodytes) were sequenced for alleles corresponding to 17 polymorphisms: 8 short tandem repeats [IL1RN (alias IL-1RA) variable number tandem repeat (VNTR); TYMS (previously TS ) VNTR; AR CAG repeat; dinucleotide repeats of UGT1A1, IGF1, IFNG (alias IFN-g), ESR1 (alias ER-a), and EGFR] and 9 single nucleotide polymorphisms (MMP1-1607 1G/2G, MMP3-1171 5A/6A, OGG1 Ser326Cys, ALDH2 Gly487Lys, TP53 Arg72Pro, ABCG2 Gln141Lys, MGMT Leu84Phe, SOD2 Ala-9Val, and MTHFR Ala222Val).
X
ABCG2 p.Gln141Lys 18068529:0:1104
status: VERIFIED42 subfamily G2 ABCG2 Gln141Lys (rs2231142); O-6-methylguanine-DNA methyltransferase MGMT Leu84Phe (rs12917); mitochondrial superoxide dismutase SOD2 (alias MnSOD) Ala-9Val (rs4880); and methylenetetrahydrofolate reductase MTHFR Ala222Val (rs1801133).
X
ABCG2 p.Gln141Lys 18068529:42:19
status: VERIFIED
PMID: 18079276
[PubMed]
Zhou L et al: "The breast cancer resistance protein (Bcrp1/Abcg2) limits fetal distribution of glyburide in the pregnant mouse: an Obstetric-Fetal Pharmacology Research Unit Network and University of Washington Specialized Center of Research Study."
No.
Sentence
Comment
323
For example, the fetuses of pregnant women carrying the BCRP natural variant Q141K, which displays lower transport activity (Imai et al., 2002), may be at increased risk for the GLB toxicity.
X
ABCG2 p.Gln141Lys 18079276:323:77
status: VERIFIED
PMID: 18154452
[PubMed]
Sharom FJ et al: "ABC multidrug transporters: structure, function and role in chemoresistance."
No.
Sentence
Comment
355
Over 80 SNPs, missense, nonsense and frameshift mutations in the ABCG2 gene have been identified in different ethnic groups [23,170], including V12M (N-terminal cytosolic region), Q141K (NBD) and Q126stop (in which no active protein is produced).
X
ABCG2 p.Gln141Lys 18154452:355:180
status: NEW357 In a study of six different SNP variants, the C421A polymorphism (nonsynonymous, Q141K) was expressed at lower levels, and the S441N variant had both lower expression and altered localization [171].
X
ABCG2 p.Gln141Lys 18154452:357:81
status: NEW358 The Q141K mutation is located between the Walker A and signature motifs, so altered ATPase activity is possible.
X
ABCG2 p.Gln141Lys 18154452:358:4
status: NEW359 Compared with wild-type ABCG2, the Q141K variant displayed lower ATPase activity and lower mitoxantrone efflux when expressed in HEK-293 cells, whereas the V12M and D620N proteins showed little change [172].
X
ABCG2 p.Gln141Lys 18154452:359:35
status: NEW360 Somewhat different results were reported by another group for the V12M and Q141K variants [173].
X
ABCG2 p.Gln141Lys 18154452:360:75
status: NEW361 A recent study examined seven ABCG2 variants in detail, and found that cells expressing both V12M and Q141K had reduced resistance towards the drug SN-38 [174].
X
ABCG2 p.Gln141Lys 18154452:361:102
status: NEW362 Several different studies that examined the expression level of the Q141K variant, both in human tissues and in transfected cell lines, have yielded contradictory results [175].
X
ABCG2 p.Gln141Lys 18154452:362:68
status: NEW363 The frequency of the Q141K polymorphism varies considerably among different ethnic populations, being commonly found in China and Japan, and was found to be part of a common haplotype [176,177].
X
ABCG2 p.Gln141Lys 18154452:363:21
status: NEW365 The accumulation of the tyrosine kinase inhibitor gefitinib was higher in patients heterozygous at the C421A (Q141K) locus compared with those with a wild-type genotype, indicating that this polymorphism may indeed affect the outcome of anticancer drug treatment [181].
X
ABCG2 p.Gln141Lys 18154452:365:110
status: NEW
PMID: 18159130
[PubMed]
Tamura A et al: "In vitro evaluation of photosensitivity risk related to genetic polymorphisms of human ABC transporter ABCG2 and inhibition by drugs."
No.
Sentence
Comment
8
In the present study, we expressed ABCG2 genetic variants, i.e., V12M, Q141K, S441N, and F489L, as well as the wild type (WT) in Flp-In-293 cells to examine the hypothesis.
X
ABCG2 p.Gln141Lys 18159130:8:71
status: VERIFIED10 To further elucidate the signiˆcance of ABCG2 in cellular porphyrin homeostasis, we observed cellular accumulation and compartmentation of porphyrin and pheophorbide a by means of a new ‰uorescence microscopy technology, and found that accumulation of porphyrin and pheophorbide a in the cytoplasm compartment was maintained at low levels in Flp-In-293 cells expressing ABCG2 WT, V12M, or Q141K.
X
ABCG2 p.Gln141Lys 18159130:10:402
status: VERIFIED98 Genetic polymorphisms of human ABCG2 and pheophorbide a-photosensitivity In vitro experiments SNP data IC50 (mM) Photosensitivity ratio (fold) Ethnic group N Allele frequency (z) Reference WT 3.0 1.0 - - - - V12M 4.1 0.7 Caucasian 546 5.6 22, 13, 21, 20, 14 Japanese 259 17.6 18, 22, 20 African 181 6.3 22, 20 Q141K 2.9 1.0 Caucasian 717 11.0 22, 13, 21, 15, 20, 14 Japanese 354 30.6 18, 22, 20 African 1213 1.4 22, 15, 14 S441N 0.5 6.0 Japanese 100 0.5 20 F489L 1.7 1.8 Japanese 160 0.6 19, 20 Pheophorbide a-photosensitivity ratios and IC50 values were determined from the data shown in Fig. 2B. 432 Ai TAMURA, et al. a Fluoroskan Ascent FL (Thermo Labsystems, Helsinki, Finland) (excitation at 405 nm; emission at 612 nm).
X
ABCG2 p.Gln141Lys 18159130:98:310
status: VERIFIED99 Results Expression of ABCG2 WT and SNP variants in Flp-In-293 cells: In the present study, we aimed to examine the impact of hitherto reported major SNPs (V12M, Q141K, S441N, or F489L) on the photo-sensitivity.
X
ABCG2 p.Gln141Lys 18159130:99:161
status: VERIFIED108 In addition, the protein level of the Q141K SNP variant was moderately lower than that of ABCG2 WT.
X
ABCG2 p.Gln141Lys 18159130:108:38
status: VERIFIED110 Figure 1B depicts the immuno‰uorescence images of Flp-In-293 cells expressing ABCG2 WT and those SNP variants (i.e., V12M, Q141K, S441N, and F489L) as well as mock vector-transfected cells (Flp-In-293/ Mock).
X
ABCG2 p.Gln141Lys 18159130:110:130
status: VERIFIED114 In contrast, strong green ‰uorescence was observed at the plasma membrane and within intracellular compartments in Flp-In-293 cells expressing ABCG2 WT as well as the SNP variants of V12M, Q141K, and F489L.
X
ABCG2 p.Gln141Lys 18159130:114:196
status: VERIFIED121 In contrast, intracellular accumulations of pheophorbide a in both Flp-In-293/ABCG2 (V12M) and Flp-In-293/ABCG2 (Q141K) cells were signiˆcantly lower, being similar to the levels observed in Flp-In-293/ABCG2 (WT) cells.
X
ABCG2 p.Gln141Lys 18159130:121:113
status: VERIFIED122 It is suggested that two variants, V12M and Q141K, actively extruded pheophorbide a out of cells as did ABCG2 WT, 1.
X
ABCG2 p.Gln141Lys 18159130:122:44
status: VERIFIED123 Expression of human ABCG2 WT, V12M, Q141K, S441N, and F489L in Flp-In-293 cells.
X
ABCG2 p.Gln141Lys 18159130:123:36
status: VERIFIED130 Photosensitivity of Flp-In-293 cells expressing ABCG2 WT and SNP variants: Figure 2B demonstrates the cellular photosensitivity proˆles of Flp-In-293 cells expressing ABCG2 WT, V12M, Q141K, S441N, and F489L, as well as that of Flp-In-293/Mock cells.
X
ABCG2 p.Gln141Lys 18159130:130:189
status: VERIFIED136 Flp-In-293/Mock and Flp-In-293/ABCG2 (S441N) cells were very sensitive to light, whereas Flp-In-293/ABCG2 (V12M), Flp-In-293/ABCG2 (Q141K), and Flp-In-293/ABCG2 (WT) cells were signiˆcantly more resistant.
X
ABCG2 p.Gln141Lys 18159130:136:132
status: VERIFIED141 A, Flp-In-293 cells expressing human ABCG2 WT and SNP variants (V12M, Q141K, S441N, and F489L) were incubated with pheophorbide a at diŠerent concentrations (0, 0.63, 1.25, and 2.5 mM) at 379C for 4 hours.
X
ABCG2 p.Gln141Lys 18159130:141:70
status: VERIFIED201 While the protein expression level of Q141K was lower than that of WT in Flp-In-293 cells (Fig. 1A), its level is considered to be su‹cient to extrude pheophorbide a from Flp-In-293/ABCG2(Q141K) cells.
X
ABCG2 p.Gln141Lys 18159130:201:38
status: VERIFIEDX
ABCG2 p.Gln141Lys 18159130:201:195
status: VERIFIED
PMID: 18180275
[PubMed]
Poonkuzhali B et al: "Association of breast cancer resistance protein/ABCG2 phenotypes and novel promoter and intron 1 single nucleotide polymorphisms."
No.
Sentence
Comment
32
Among the coding single nucleotide polymorphisms (SNPs), G34A (V12M) in exon 2 and C421A (Q141K) in exon 5 occur in most racial groups but with a higher allele frequency in Asians and Hispanics.
X
ABCG2 p.Gln141Lys 18180275:32:90
status: VERIFIED
PMID: 18202831
[PubMed]
Mao Q et al: "BCRP/ABCG2 in the placenta: expression, function and regulation."
No.
Sentence
Comment
138
Notably, the single nucleotide polymorphisms (SNPs) G34A and C421A, resulting in alterations of BCRP protein at position 12 (V12M) and 141 (Q141K), respectively, occur at a relatively high frequency in most ethnic populations.
X
ABCG2 p.Gln141Lys 18202831:138:140
status: VERIFIED149 The study by Imai et al. (79) showed that the C421A polymorphism was associated with significantly lower expression and activity of the Q141K variant compared with the wild-type protein.
X
ABCG2 p.Gln141Lys 18202831:149:136
status: VERIFIED
PMID: 18237272
[PubMed]
Nakagawa H et al: "Ubiquitin-mediated proteasomal degradation of non-synonymous SNP variants of human ABC transporter ABCG2."
No.
Sentence
Comment
208
In a previous study using the Flp recombinase system [33], we functionally characterized the non-synonymous polymorphisms (V12M, Q141K, F208S, S248P, F431L, S441N and F489L) in terms of their protein expression level, drug resistance profile and prazosin-stimulated ATPase activity.
X
ABCG2 p.Gln141Lys 18237272:208:129
status: NEW
PMID: 18249138
[PubMed]
Hazai E et al: "Homology modeling of breast cancer resistance protein (ABCG2)."
No.
Sentence
Comment
245
However, in our model, R482 cannot form interaction with rhodamine, but L484 is in interacting distance Table 3 Mutations on BCRP and their effect on its function Mutation Effect/results Reference V12M Did not effect Hemato and MTX transport Tamura et al. (2006) G51C Did not effect Hemato and MTX transport Tamura et al. (2006) K86M Inactivates transporter (dominant negative effect on ATPase activity); alters subcellular distribution Henriksen et al. (2005a) K86M Transporter inactive, but still able to bind ATP Ozvegy et al. (2002) Q126stop Defective porphyrin transport Tamura et al. (2006) Q141K Did not effect Hemato and MTX transport Tamura et al. (2006) T153M Did not effect Hemato and MTX transport Tamura et al. (2006) Q166E Did not effect Hemato and MTX transport Tamura et al. (2006) I206L Did not effect Hemato and MTX transport Tamura et al. (2006) F208S Defective porphyrin transport Tamura et al. (2006) S248P Defective porphyrin transport Tamura et al. (2006) E334stop Defective porphyrin transport Tamura et al. (2006) F431L Effects MTX transport Tamura et al. (2006) S441N Defective porphyrin transport Tamura et al. (2006) E446-mutants No drug resistance Miwa et al. (2003) R482G, R482T Effects MTX transport Tamura et al. (2006) R482T Substrate drug transport and inhibitor efficiency is not mediated by changes in drug-binding Pozza et al. (2006) R482G, R482T Substitution influence the substrate specificity of the transporter Ozvegy et al. (2002) R482G, R482T Altered substrate specificity Honjo et al. (2001) R482G Methotrexate not transported Chen et al. (2003b) Mitomo et al. (2003) R482G Resistance to hydrophilic antifolates in vitro, G482-ABCG2 mutation confers high-level resistance to various hydrophilic antifolates Shafran et al., (2005) R482G Three distinct drug, binding sites Clark et al. (2006) R482G Altered substrate specificity, granulocyte maturation uneffected Ujhelly et al. (2003) R482 mutants Higher resistance to mitoxantrone and doxorubicin than wt Miwa et al. (2003) R482X Affects substrate transport and ATP hydrolysis but not substrate binding Ejendal et al. (2006) F489L Impaired porphyrin transport Tamura et al. (2006) G553L; G553E Impaired trafficing, expression, and N-linked glycosylation Polgar et al. (2006) L554P Dominant negative effect on drug sensitivity Kage et al. (2002) N557D Resistance to MTX, but decreased transport of SN-38; N557E no change in transport compared to wt Miwa et al. (2003) F571I Did not effect Hemato and MTX transport Tamura et al. (2006) N590Y Did not effect Hemato and MTX transport Tamura et al. (2006) C592A Impaired function and expression Henriksen et al. (2005b) C592A/C608A Restored plasma mb expression; MTX transport normal, BODIPY-prazosin impaired Henriksen et al. (2005b) C603A Disulfide bridge; no functional or membrane targeting change Henriksen et al. (2005b) C608A Impaired function and expression Henriksen et al. (2005b) D620N Did not effect Hemato and MTX transport Tamura et al. (2006) H630X No change in transport Miwa et al. (2003) Cand N-terminal truncated Impaired trafficing Takada et al. (2005) with the ligand.
X
ABCG2 p.Gln141Lys 18249138:245:597
status: NEW
PMID: 18253130
[PubMed]
Lemos C et al: "Drug transporters: recent advances concerning BCRP and tyrosine kinase inhibitors."
No.
Sentence
Comment
45
Breedveld et al (2005) showed that Table 1 BCRP substrates and polymorphisms Substrates Classical anticancer drugs Novel targeted drugs Mitoxantrone Canertinib (CI-1033)a Anthracyclinesb Imatiniba Camptothecins Nilotiniba Antifolatesb Gefitiniba Erlotinib Flavopiridol Polymorphismsc Variant Amino-acid change Effect G34A Val12Met (V12M) No change C376T Gln126stop (Q126T) No active BCRP protein C421A Gln141Lys (Q141K) Decreased protein levels and drug resistance Increased gefitinib-associated toxicity (diarrhoea) Increased imatinib accumulation in vitro, but no changes in the pharmacokinetic parameters of imatinib in vivo G1322A Ser441Asn (S441N) Decreased protein levels and different subcellular localisation BCRP ¼ breast cancer resistance protein.
X
ABCG2 p.Gln141Lys 18253130:45:402
status: VERIFIEDX
ABCG2 p.Gln141Lys 18253130:45:413
status: VERIFIED103 A nonsynonymous SNP C421A resulting in a glutamine to lysine amino-acid change at position 141 (Q141K) has been associated with markedly decreased levels of BCRP protein expression and also low levels of drug resistance.
X
ABCG2 p.Gln141Lys 18253130:103:96
status: VERIFIED104 Nonetheless, cross-resistance patterns were similar for the wild type and the Q141K BCRP variant, suggesting that this polymorphism does not affect substrate recognition of BCRP (Imai et al, 2002).
X
ABCG2 p.Gln141Lys 18253130:104:78
status: VERIFIED
PMID: 18309947
[PubMed]
Rudin CM et al: "Pharmacogenomic and pharmacokinetic determinants of erlotinib toxicity."
No.
Sentence
Comment
28
Recent studies suggest that gefitinib and erlotinib are substrates of ABCG2.32-35 Two nonsynonymous ABCG2 SNPs, 421 CϾA (Q141K, rs2231142) and 34GϾA (V12M, rs2231137), are common.36-39 The 141K polymorphism has been associated with lower expression and activity of ABCG2 and with higher accumulation of both gefitinib and erlotinib.35,36,40 A recent clinical study showed an association between 141K and diarrhea in patients treated with gefitinib.41 We have recently identified four functional polymorphisms in the 5Ј-regulatory region of ABCG2 (Poonkuzhali et al, manuscript submitted for publication).
X
ABCG2 p.Gln141Lys 18309947:28:127
status: VERIFIED
PMID: 18363541
[PubMed]
Tamura A et al: "Drug-induced phototoxicity evoked by inhibition of human ABC transporter ABCG2: development of in vitro high-speed screening systems."
No.
Sentence
Comment
230
Plasma membrane Outside Inside ATP-binding cassette H2 N COOH V12M G51C Q126stop Q141K T153M R160Q Q166E I206L F208S S248P E334stop F431L F489L S441N R482G R482T F571I R575stop N590Y D620N T542A A528T D296H P269S A.
X
ABCG2 p.Gln141Lys 18363541:230:81
status: NEW231 0.0 0.1 0.2 0.3 0.4 0.5 Mock WT V12M G51C Q126stop Q141K T153M Q166E I206L F208S S248P E334stop F431L S441N F489L F571I N590Y D620N R482G R482T ATP-dependenthematoporphyrintransport (nmol/min/mgprotein) B. interactions should also take into consideration the presence of multiple flavonoids.
X
ABCG2 p.Gln141Lys 18363541:231:51
status: NEW245 Based on the presently available data on SNPs and acquired mutations, we have created a total of 18 variant forms of ABCG2 (V12M, G51C, Q126stop, Q141K, T153M, Q166E, I206L, F208S, S248P, E334stop, F431L, S441N, R482G, R482T, F489L, F571I, N590Y, and D620N) by site-directed mutagenesis and expressed them in insect cells.
X
ABCG2 p.Gln141Lys 18363541:245:146
status: NEW249 To further elucidate the significance of ABCG2 in cellular porphyrin homeostasis, we observed the cellular accumulation and compartmentation of porphyrin and pheophorbide a by means of a new fluorescence microscopy technology, and found that the accumulation of porphyrin and pheophorbide a in the cytoplasmic compartment was significantly higher in Flp-In-293 cells expressing S441N and F489L variants, as compared with those expressing WT, V12M, or Q141K [88].
X
ABCG2 p.Gln141Lys 18363541:249:451
status: NEW252 Amino acid Porphyrin transport* Allele frequency (%)‡ cDNA position Location Wild-type allele Variant alllele V12M ++ 2.0 - 90.0 34 Exon 2 G A Q126stop - 0.0 - 1.7 376 Exon 4 C T Q141K ++ 0.0 - 35.5 421 Exon 5 C A T153M ++ 3.3 458 Exon 5 C T Q166E ++ N.D. 496 Exon 5 C G I206L ++ 10.0 616 Exon 6 A C F208S - N.D. 623 Exon 6 T C S248P - N.D. 742 Exon 7 T C E334stop - N.D. 1000 Exon 9 G T F431L ++ 0.8 1291 Exon 11 T C S441N - 0.5 1322 Exon 11 G A F489L + 0.5 - 0.8 1465 Exon 12 T C F571L ++ 0.5 1711 Exon 14 T A N590Y ++ 0.0 - 1.0 1768 Exon 15 A T D620N ++ 0.5 1858 Exon 16 G A *Transport of hematoporphyrin is indicated by either '+` (positive) or '-' (negative).
X
ABCG2 p.Gln141Lys 18363541:252:186
status: NEW
PMID: 18370231
[PubMed]
Bosch TM et al: "Pharmacogenomics of drug-metabolizing enzymes and drug transporters in chemotherapy."
No.
Sentence
Comment
139
Mizuarai et al. (77) analyzed the effect of the polymorphisms G34A and C8825A, leading to an amino acid change of V12M and Q141K, respectively, on the transporter function of the protein.
X
ABCG2 p.Gln141Lys 18370231:139:123
status: NEW140 Drug resistance to indolocarbazole, a topoisomerase I inhibitor, of cells expressing V12M or Q141K was less than 1/10 compared to wild-type ABCG2-transfected cells and was accompanied by increased drug accumulation and decreased drug efflux in the variant ABCG2-expressing cells.
X
ABCG2 p.Gln141Lys 18370231:140:93
status: NEW143 In a study by Imai et al. (78), Japanese volunteers with the mutant C8825A polymorphism (allele frequency of 46%) expressed a low amount of the Q141K ABCG2 protein.
X
ABCG2 p.Gln141Lys 18370231:143:144
status: NEW
No.
Sentence
Comment
82
Some of these are in the coding region of ABCG2 and alter the protein sequence, such as V12M, Q141K, I206L and N590Y.
X
ABCG2 p.Gln141Lys 18370855:82:94
status: VERIFIED83 Of these, Q141K, the substitution of glutamine with lysine at amino acid 141 in the NBD region is by far the most extensively studied.
X
ABCG2 p.Gln141Lys 18370855:83:10
status: VERIFIED84 The Q141K SNP has an especially high incidence rate in the Asian population (~ 30%) and is also frequently found in Caucasians (~ 10%) [68].
X
ABCG2 p.Gln141Lys 18370855:84:4
status: VERIFIED86 Some investigators have also reported reduced surface expression for the Q141K SNP [71,72].
X
ABCG2 p.Gln141Lys 18370855:86:73
status: VERIFIED87 In the authors` hands, the Q141K mutant when transfected into human embryonic kidney (HEK) cells was clearly detected on the cell surface by flow cytometry with the 5D3 antibody and in immunofluorescence studied with the BXP-21 antibody, although some intracellular staining was also observed [69].
X
ABCG2 p.Gln141Lys 18370855:87:27
status: VERIFIED88 Recently, studies aimed at evaluating the clinical relevance of the Q141K SNP in patients undergoing chemotherapy and in healthy volunteers have also been reported: elevated plasma concentrations of gefitinib [73] and diflomotecan [74] and increased bioavailability of oral topotecan [75] were found.
X
ABCG2 p.Gln141Lys 18370855:88:68
status: VERIFIED89 In one study a higher incidence of diarrhea in patients carrying the Q141K SNP was observed following treatment with gefitinib [76].
X
ABCG2 p.Gln141Lys 18370855:89:69
status: VERIFIED175 Membrane Out In 200 100 300 400 500 600 ATP site N-terminus C-terminus V12M Q141K I206L GXXXG, G406/G410 R482 G553 C603 N596 N590Y protein synthesis.
X
ABCG2 p.Gln141Lys 18370855:175:76
status: VERIFIED344 Pharm Res 2004;21(10):1895-903 72. Imai Y, Nakane M, Kage K, et al. C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 18370855:344:175
status: VERIFIED348 Cancer Biol Ther 2007;6(3):432-8 • Potential relevance of the Q141K SNP in the pharmacokinetics of ABCG2 substrates.
X
ABCG2 p.Gln141Lys 18370855:348:69
status: VERIFIED350 Clin Pharmacol Ther 2004;76(1):38-44 • Potential relevance of the Q141K SNP in the pharmacokinetics of ABCG2 substrates.
X
ABCG2 p.Gln141Lys 18370855:350:73
status: VERIFIED352 Cancer Biol Ther 2005;4(6):650-8 • Potential relevance of the Q141K SNP in the pharmacokinetics of ABCG2 substrates.
X
ABCG2 p.Gln141Lys 18370855:352:69
status: VERIFIED355 J Natl Cancer Inst 2006;98(23):1739-42 • Potential relevance of the Q141K SNP in the pharmacokinetics of ABCG2 substrates.
X
ABCG2 p.Gln141Lys 18370855:355:75
status: VERIFIED
PMID: 18408567
[PubMed]
Urquhart BL et al: "Breast cancer resistance protein (ABCG2) and drug disposition: intestinal expression, polymorphisms and sulfasalazine as an in vivo probe."
No.
Sentence
Comment
21
In addition, several nonsynonymous single nucleotide polymorphisms (SNPs) of the ABCG2 gene have been described including ABCG2 34G > A (V12M) located in exon 2 and 421C > A (Q141K) in exon 5.
X
ABCG2 p.Gln141Lys 18408567:21:175
status: VERIFIED62 Site-directed mutagenesis was utilized to create the nonsynonymous allelic variants, 34G > A (V12M) and 421C > A (Q141K).
X
ABCG2 p.Gln141Lys 18408567:62:114
status: VERIFIED
PMID: 18429968
[PubMed]
Adkison KK et al: "The ABCG2 C421A polymorphism does not affect oral nitrofurantoin pharmacokinetics in healthy Chinese male subjects."
No.
Sentence
Comment
19
C421A, which results in a substitution of lysine for glutamine (Q141K) in the BCRP protein, is one of the most studied polymorphisms.
X
ABCG2 p.Gln141Lys 18429968:19:64
status: VERIFIED
PMID: 18454051
[PubMed]
Saraiya B et al: "Sequential topoisomerase targeting and analysis of mechanisms of resistance to topotecan in patients with acute myelogenous leukemia."
No.
Sentence
Comment
91
For ABCG2, primers were designed to amplify regions containing the following four SNPs: G34A (V12M, exon 1), C376T (stop, exon 3), A616C (I206L, exon 5), C421A (Q141K, exon 12), and A1768T (N590Y, exon 14).
X
ABCG2 p.Gln141Lys 18454051:91:161
status: VERIFIED
PMID: 18464048
[PubMed]
Gradhand U et al: "Pharmacogenomics of MRP transporters (ABCC1-5) and BCRP (ABCG2)."
No.
Sentence
Comment
250
It should be noted that many xeno- and endobiotic BCRP Figure 5 Predicted membrance topology of BCRP (ABCG2) based on hydrophobicity analysis. Locations of the non-synonymous polymorphisms are indicated with arrows. See Table 5 for allele frequencies and description of funtional consequences. NH2 COOH NBD Val12Met Gly51Cys Gln126* Ala149Pro Gln141Lys Thr153Met Arg160Gln Arg163Lys Gln166Glu Phe506Ser Phe507Leu Val508Leu Met509* Phe489Leu Ser441Asn Phe431Leu Glu334* Ile206Leu Ala315del Thr316del Phe208Ser Asp296His Ser248Pro Pro269Ser Phe571Ile Arg575* Asn590Tyr Asp620Asn in out Membrane BCRP (ABCG2) NBD Val12Met NBDNBD Val12Met substrates are also transported by other efflux transporters, especially P-glycoprotein, thus extrapolating BCRP related in vitro data to the in vivo situation may be difficult.
X
ABCG2 p.Gln141Lys 18464048:250:343
status: VERIFIED258 One of the most extensively studied amino acid changes in BCRP is Gln141Lys located within the nucleotide binding domain of the transporter (Fig. 5).
X
ABCG2 p.Gln141Lys 18464048:258:66
status: VERIFIED266 Further in vitro studies investigated the functional relevance of this amino acid substitution and found that Gln141Lys negatively affects the transport efficiency of ABCG2 for several substrates (Morisaki et al., 2005; Sparreboom et al., 2005) and, therefore, leads to a loss of drug resistance (Mizuarai et al., 2004; Tamura et al., 2007).
X
ABCG2 p.Gln141Lys 18464048:266:110
status: VERIFIED267 In addition, a few in vivo studies also indicate a significant impact of Gln141Lys on drug pharmacokinetics.
X
ABCG2 p.Gln141Lys 18464048:267:73
status: VERIFIED318 Available data in relation to BCRP pharmacogenetics suggest at least one of the known non-synonymous polymorphisms (421C>A/Gln141Lys) and possibly a few others (34G>A/Val12Met and 1322G>T/Ser441Asn) may be of functional and clinical importance.
X
ABCG2 p.Gln141Lys 18464048:318:123
status: VERIFIED
PMID: 18509645
[PubMed]
O'Bryant CL et al: "A dose-ranging study of the pharmacokinetics and pharmacodynamics of the selective apoptotic antineoplastic drug (SAAND), OSI-461, in patients with advanced cancer, in the fasted and fed state."
No.
Sentence
Comment
273
A mutation results in markedly decreased protein expression, and low level drug resistance, as compared to wild-type BRCP c For ABCG-2 #34 the of the A mutation frequency in Caucasians is 4.7%; and for ABCG-2 #421 the A mutation frequency in Caucasians is 25.9% Pt # ABCG-2 #34a ABCG-2 #421b Racec Val12 Met mutation Sequencing result Gln141 Lys mutation Sequencing result 01015 No Wild-type: G/G No Wild-type: C/C White 01016 No Wild-type: G/G Yes Heterozygote: C/A White 01017 Yes Homozygote: A/A No Wild-type: C/C Asian 01018 No Wild-type: G/G Yes Heterozygote: C/A White 01019 No Wild-type: G/G No Wild-type: C/C White 01020 Yes Heterozygote: A/G No Wild-type: C/C White 01021 No Wild-type: G/G Yes Heterozygote: C/A White 01022 No Wild-type: G/G No Wild-type: C/C Black 01023 No Wild-type: G/G Yes Heterozygote: C/A White 01024 No Wild-type: G/G No Wild-type: C/C White 01026 No Wild-type: G/G No Wild-type: C/C White 01027 No Wild-type: G/G No Wild-type: C/C White 01028 No Wild-type: G/G No Wild-type: C/C White 01029 No Wild-type: G/G No Wild-type: C/C White 01031 No Wild-type: G/G Yes Homozygote: A/A White 01032 No Wild-type: G/G No Wild-type: C/C White 01033 No Wild-type: G/G No Wild-type: C/C White A prior study of OSI-461 demonstrated that Cmax and AUC values increased in an approximate linear fashion as the dose was increased from 100 to 400 mg BID with a signiWcant amount of interpatient variability [35].
X
ABCG2 p.Gln141Lys 18509645:273:335
status: VERIFIED
No.
Sentence
Comment
183
A common single polymorphism (SNP) in• ABCG2 (421C > A; Q141K) in two patients showed a 1.34-fold increased oral bioavailability of irinotecan (topotecan) compared to the bioavailability in ten patients with the wild type allele (42.0% versus 31.4%; p = 0.037) [77].
X
ABCG2 p.Gln141Lys 18624680:183:63
status: NEW
No.
Sentence
Comment
225
Based on the currently available data on SNPs and acquired mutations, a total of 18 variant forms of ABCG2 (V12M, G51C, Q126stop, Q141K, T153M, Q166E, I206L, F208S, S248P, E334stop, F431L, S441N, R482G, R482T, F489L, F571I, N590Y, and D620N) were created by site-directed mutagenesis and expressed in Sf9 insect cells (Tamura et al. 2006, 2007).
X
ABCG2 p.Gln141Lys 18668433:225:130
status: NEW
No.
Sentence
Comment
76
Among the SNPs identified so far, two nonsynonymous SNPs, 34G>A and 421C>A, in the coding region, resulting in Val12Met and Gln141Lys, respectively, are relatively frequently identified and well-studied.
X
ABCG2 p.Gln141Lys 18673259:76:124
status: VERIFIED77 Honjo et al. sequenced 90 genomic DNA samples and identified Val12Met and Gln141Lys at a frequency of 12.2% and 6.1%, respectively [86].
X
ABCG2 p.Gln141Lys 18673259:77:74
status: VERIFIED78 The Val12Met and Gln141Lys polymorphisms were also identified in a sequence analysis of ABCG2 cDNA clones isolated from 11 human tumor cell lines and were confirmed to have allelic frequencies of 19.0% and 26.6%, respectively, by a genomic DNA analysis in 124 Japanese [85].
X
ABCG2 p.Gln141Lys 18673259:78:17
status: VERIFIED81 Kondo and coworkers showed that the expression level of Gln141Lys ABCG2 was approximately 30-40% that of wild-type ABCG2 in membrane vesicles prepared from HEK293 cells infected with a recombinant adenovirus [94].
X
ABCG2 p.Gln141Lys 18673259:81:56
status: VERIFIED85 Exon Polymorphism Effect dbSNP Cell Expression Function Reference mRNA ( ) Protein (n.s.) Membrane localization (n.s.) Drug sensitivity (n.s.) Mitoxantrone efflux (n.s.) Hoechst 33342 efflux (n.s.) Morisaki et al. [92] HEK293 Protein (n.s.) Transport activity (n.s.) Kondo et al. [94] Protein (n.s.) ATPase activity (n.s.) Mizuarai et al. [88] Sf9 Protein ( ) ATPase activity (n.s.) Hoechst 33342 efflux ( ) Morisaki et al. [92] Exon 2 114T>C synonymous rs12721640 Exon 4 369C>T synonymous rs2231139 PA317 mRNA (n.s.) Protein ( ) Drug sensitivity ( ) Intracellular uptake ( ) Imai et al. [85] mRNA (n.s.) Protein (n.s.) Apical localization (n.s.) Drug sensitivity ( ) Indolocarbazole uptake ( ) Indolocarbazole efflux ( ) Mizuarai et al. [88] LLC-PK1 Apical localization (n.s.) Kondo et al. [94] mRNA ( ) Protein (n.s.) Membrane localization (impaired) Drug sensitivity ( ) Mitoxantrone efflux ( ) Hoechst 33342 efflux (n.s.) Morisaki et al. [92] HEK293 Protein ( ) Transport activity (n.s.) Kondo et al. [94] Protein (n.s.) ATPase activity ( ) Mizuarai et al. [88] 421C>A Gln141Lys rs2231142 Sf9 Protein (n.s.) ATPase activity ( ) Hoechst 33342 efflux (n.s.) Morisaki et al. [92] LLC-PK1 Apical localization (n.s.) Exon 5 496C>G Gln166Glu rs1061017 HEK293 Protein (n.s.) Transport activity (n.s.) Kondo et al. [94] 564A>G synonymous rs3116439 616A>C Ile206Leu rs12721643 HEK293 Protein ( or n.s.) Membrane localization (n.s.) Efflux activity ( ) Drug sensitivity ( ) ATPase activity (n.s.) Vethanayagam et al. [95] 617T>G Ile206Ser 617T>C Ile206Thr 617T>A Ile206Asn rs28365037 Exon 6 623T>C Phe208Ser rs1061018 Exon 7 742T>C Ser248Pro rs3116448 Exon 9 1000G>T Glu334stop rs3201997 Exon 14 2204T>A Phe571Ile rs9282571 SLC15A1 CHO Cephalexin uptake (n.s.)61G>A Val21Ile rs8187818 Cos7 Cephalexin uptake (n.s.) Substrate selectivity (n.s.) CHO Cephalexin uptake ( ) Cos7 Cephalexin uptake ( ) Substrate selectivity (VAC inhibition?)
X
ABCG2 p.Gln141Lys 18673259:85:1073
status: VERIFIED94 Exon Polymorphism Effect dbSNP Subject Expression Function Reference 114T>C synonymous rs12721640 369C>T synonymous rs2231139 421C>A Gln141Lys rs2231142 Patient (Caucasian) 9-nitrocamptotecin PK (CC CA) 9-aminocamptotecin PK [AUC/Dose] (CC<CA) Zamboni et al. [55] Nasopharyngeal cancer patient Irinotecan PK (CC CA+AA) SN-38 PK (CC CA+AA) SN-38G PK (CC CA+AA) Zhou et al. [56] HIV patient (Caucasian) Nelfinavir intracellular AUC (CC CA AA) Colombo et al. [58] Cancer patient Irinotecan PK (CC CA+AA) SN-38 PK (CC CA+AA) SN-38G PK (CC CA+AA) de Jong et al. [90] Patient (Japanese) Placental mRNA (CC CA AA) Placental protein (CC>CA>AA) Kobayashi et al. [91] Cancer patient Diflomotecan PK [AUC, Cmax] (CC<CA), [F] (CC>CA) Sparreboom et al. [96] Healthy (Chinese) Rosuvastatin PK [AUC, Cmax] (CC<CA+AA), [CL/F] (CC>CA+AA), [T1/2, Tmax] (CC CA+AA) Zhang et al. [97] Exon 4 496C>G Gln166Glu rs1061017 564A>G synonymous rs3116439 616A>C Ile206Leu rs12721643 617T>G Ile206Ser 617T>C Ile206Thr 617T>A Ile206Asn rs28365037 Exon 6 623T>C Phe208Ser rs1061018 Exon 7 742T>C Ser248Pro rs3116448 Exon 9 1000G>T Glu334Stop rs3201997 Exon 14 1711T>A Phe571Ile rs9282571 SLC15A1 61G>A Val21Ile rs8187818Exon 3 83T>A Phe28Tyr rs8187817 258G>A synonymous rs8187823 330C>T synonymous rs8187822 350G>A Ser117Asn rs2297322 351C>A Ser117Arg rs8187821 Exon 5 364G>A Val122Met rs8187820 Exon 7 501C>T synonymous rs3737087 Exon 11 843G>A synonymous r8187812 Exon 15 1147G>A Asp383Asn rs1782674 1179C>T synonymous rs8187836Exon 16 1256G>C Gly419Ara rs4646227 1347T>C synonymous rs1339067 Allelic mRNA imbalance (2030%) Anderle et al. [101] 1348G>A Val450Ile rs2274828 1352C>A Thr451Asn rs8187838 Exon 17 1375C>T Arg459Cys rs2274827 Exon 18 1446A>G synonymous rs8187828 (Table 3) contd….
X
ABCG2 p.Gln141Lys 18673259:94:133
status: VERIFIED97 PK: pharmacokinetics DNT: dysembryoplastic neuroepithelial tumors SN-38, SN-38G: irinotecan metabolites HIV: human Immunodeficiency Virus AUC: area under time-drug concentration curve Cmax: maximum drug concentration F: bioavailability CL/F: oral clearance T1/2: blood elimination half-life Tmax: time to peak concetration pendent groups, Mizuarai et al. [88] and Morisaki et al. [92], have shown comparable ABCG2 protein expression in wild-type and variant Gln141Lys transfectants in an immunostaining analysis using LLC-PK1 cells and immunoblot analysis using HEK-293 cells, respectively.
X
ABCG2 p.Gln141Lys 18673259:97:458
status: VERIFIED99 In the report of Mizuarai et al., Val12Met but not Gln141Lys affected apical membrane localization of ABCG2 in transfectant- LLC-PK1 cells, whereas Morisaki et al. reported impaired membrane trafficking or incorrect membrane insertion of Gln141Lys ABCG2 in HEK-293 cells.
X
ABCG2 p.Gln141Lys 18673259:99:51
status: VERIFIEDX
ABCG2 p.Gln141Lys 18673259:99:238
status: VERIFIED100 Both groups also demonstrated that variant Gln141Lys ABCG2-expressing cells exhibited altered ATPase activity in Sf9 insect cells with ABCG2-bearing baculovirus and reduced drug resistance to ABCG2 substrates such as mitoxantrone, topotecan, and an indolocarbazole topoisomerase I inhibitor in LLC-PK1 cells or HEK293 cells [88, 92].
X
ABCG2 p.Gln141Lys 18673259:100:43
status: VERIFIED
No.
Sentence
Comment
24
In particular, a SNP in exon 5 of the ABCG2 gene has been described, in which a 421C>A transversion results in a lysine to glutamine amino acid change at codon 141 (Q141K) [12].
X
ABCG2 p.Gln141Lys 18681776:24:165
status: VERIFIED33 Substrates • 9-aminocamptothecin, abacavir, bisantrene, BNP1350, chlorin E6, CI1033, ciprofloxacin, cladribine, daunorubicin, diflomotecan (BN-80915), dipyridamole, doxorubicin, DX-8951f, edevarone (metabolites), epirubicin, erlotinib, etoposide, flavopiridol, gefitinib, gimatecan, glyburide, GW1843, heterocyclic amines, homocamptothecin, imatinib, J-107088, JNJ-7706621, leflunomide, methotrexate, mitoxantrone, NB-506, nelfinavir, nitrofurantoin, norfloxacin, ofloxacin, olmesartan, pheophorbide A, pitavastatin, posuvastatin, protoporphyrin IX, pyropheophorbide A, SN-38 (irinotecan metabolite), sulfasalazine, teniposide, tomudex, topotecan, triglutamate, UCN-01, zidovudine Inhibitors • 17-β-estradiol, 6-prenlychrysin, abacavir, acacetin, amprenavir, atazanavir, biricodar (VX-710), chrysin, CI1033, curcumin, cyclosporin A, delavirdine, diethylstilbestrol, dihydropyridines, dipyridamole, efavirenz, elacridar (GF120918), estrone, fumitremorgin C (FTC), gefitinib, genistein, ginsenosides, imatinib, Ko143 (FTC analog), lopinavir, naringenin, nelfinavir, nicardapine, nimodipine, nitrendipine, novobiocin, ortataxel, pantoprazole, quercetin, reserpine, ritonavir, rosuvastatin, saquinavir, silymarin, sirolimus (rapamycin), tacrolimus, tamoxifen, tariquidar (XR9576), techochrysin, tryprostatin A, WK-X-34 demonstrated that subjects with a reduced ABCG2 activity owing to the Q141K variant are at an increased risk for gefitinib-induced diarrhea [17] (Figure 1), and altered pharmacokinetics of 9-aminocamptothecin [18], diflomotecan [19], irinotecan [20], rosuvastatin [21], sulfasalazine [22,23] and topotecan [24].
X
ABCG2 p.Gln141Lys 18681776:33:1407
status: VERIFIED
PMID: 18710444
[PubMed]
Gardner ER et al: "Association of the ABCG2 C421A polymorphism with prostate cancer risk and survival."
No.
Sentence
Comment
5
Intracellular accumulation of PhIP was 80% higher in HEK293 cells transfected with Q141K ABCG2 than in wild-type cells, confirming that this SNP decreases transport of PhIP.
X
ABCG2 p.Gln141Lys 18710444:5:83
status: VERIFIED10 A SNP of ABCG2, C421A, resulting in a glutamine to lysine change at amino acid 141, has been shown to result in decreased function of the protein.
X
ABCG2 p.Gln141Lys 18710444:10:38
status: VERIFIED43 CELL LINES Human embryonic kidney cells (HEK293) stably transfected with empty pcDNA3.1 vector (pcDNA3.1-HEK) or pcDNA3.1 vector containing full-length wild-type (482R-HEK) or Q141K (Q141K-HEK) ABCG2 have been previously characterized and were maintained as described [18,27].
X
ABCG2 p.Gln141Lys 18710444:43:176
status: VERIFIEDX
ABCG2 p.Gln141Lys 18710444:43:183
status: VERIFIED46 [14 C]-PhIP AND [3 H]-TESTOSTERONE ACCUMULATION ASSAYS pcDNA3.1-HEK, R482-HEK and Q141K-HEK cells (2.5 × 105 cells/well) were grown in monolayer in a 24-well tissue culture plate at 37 °C in the presence of 5% CO2 in Dulbecco`s Modified Eagle`s Medium supplemented with 10% FBS.
X
ABCG2 p.Gln141Lys 18710444:46:82
status: VERIFIED49 DETERMINATION OF CELL SURFACE EXPRESSION OF ABCG2 The cell surface expression of ABCG2 in pcDNA3.1-HEK, R482-HEK and Q141K-HEK cells was determined as described previously [29].
X
ABCG2 p.Gln141Lys 18710444:49:117
status: VERIFIED69 EFFECT OF C421A SNP ON IN VITRO PhIP TRANSPORT Comparison of the pcDNA3.1-HEK cells that do not express ABCG2 with the R482-HEK cells that express wild-type ABCG2 showed a three-fold decrease in intracellular accumulation of [14 C]-PhIP, in the absence of FTC (P < 0.001) as shown in Fig. 2a. The cells expressing the C421A variant form of ABCG2 (Q141K-HEK) had a reduced ability to efflux [14 C]-PHIP, resulting in a 1.8-fold increase in intracellular accumulation of this substrate compared with the wild-type cells (P < 0.001).
X
ABCG2 p.Gln141Lys 18710444:69:347
status: VERIFIED71 Comparative ABCG2 expression levels were confirmed in the R482-HEK and Q141K-HEK cell lines, using flow cytometry as shown in Fig. 2b.
X
ABCG2 p.Gln141Lys 18710444:71:71
status: VERIFIED72 EFFECT OF C421A SNP ON IN VITRO TESTOSTERONE TRANSPORT Transport assays using transfected R482-HEK and Q141K-HEK cells showed that testosterone was not transported by either TABLE 1 ComparisonofgenotypicfrequenciesofABCG2C421ASNPinpatientsdiagnosedwithAIPCand healthy volunteers (control).
X
ABCG2 p.Gln141Lys 18710444:72:103
status: VERIFIED89 Green and red bars represent testosterone accumulation with and without the presence of FTC, respectively. pcDNA3.1-HEK cells do not express ABCG2. R482-HEK cells express wild-type ABCG2 and Q141K-HEK cells are homozygous variant for the C421A SNP. Each bar represents the mean accumulation (n = 3) and the error bars indicate the SD. 50 40 30 20 10 0 pcDNA3.1-HEK R482-HEK Q141K-HEK FIG. 4.
X
ABCG2 p.Gln141Lys 18710444:89:191
status: VERIFIEDX
ABCG2 p.Gln141Lys 18710444:89:374
status: VERIFIED94 C421ASNPresultsindecreasedintracellularPhIPaccumulation in vitro.Greenandredebarsrepresent PhIP accumulation with and without the presence of FTC, respectively. pcDNA3.1-HEK cells do not express ABCG2. R482-HEK cells express wild-type ABCG2 and Q141K-HEK cells are homozygous variant for the C421A SNP. Each bar represents the mean accumulation (n = 3) and the error bars indicate the SD.
X
ABCG2 p.Gln141Lys 18710444:94:245
status: VERIFIED96 (a) (b) 1400 1200 1000 800 600 400 200 0 pcDNA3.1-HEK R482-HEK Q141K-HEK 14C-Phipaccumulation, nmoles/millioncells pcDNA3.1-HEK R482-HEK FL2-Height 0 30 60 90 120 150 0 30 60 90 120 150 0 30 60 90 120 150 2000 400 600800 1000 2000 400 600 800 1000 2000 400 600 800 1000 CountsCountsCounts FL2-Height FL2-Height Q141K-HEK accumulation of docetaxel, leading to improved response.
X
ABCG2 p.Gln141Lys 18710444:96:63
status: VERIFIEDX
ABCG2 p.Gln141Lys 18710444:96:311
status: VERIFIED
PMID: 18762709
[PubMed]
Maeda K et al: "Impact of genetic polymorphisms of transporters on the pharmacokinetic, pharmacodynamic and toxicological properties of anionic drugs."
No.
Sentence
Comment
107
The most important SNP in BCRP is C421A (Gln141Lys), which is located at the N-terminus domain (Fig. 5).
X
ABCG2 p.Gln141Lys 18762709:107:41
status: VERIFIED
PMID: 18824523
[PubMed]
Merino G et al: "Natural allelic variants of bovine ATP-binding cassette transporter ABCG2: increased activity of the Ser581 variant and development of tools for the discovery of new ABCG2 inhibitors."
No.
Sentence
Comment
18
For instance, the significance of the Q141K SNP has been shown in vitro (Mizuarai et al., 2004) and in clinical studies (Sparreboom et al., 2004; Yamasaki et al., 2008).
X
ABCG2 p.Gln141Lys 18824523:18:38
status: VERIFIED
PMID: 18824712
[PubMed]
Raymond E et al: "Phase II study of imatinib in patients with recurrent gliomas of various histologies: a European Organisation for Research and Treatment of Cancer Brain Tumor Group Study."
No.
Sentence
Comment
61
Raymond et al 4660 17) as previously described.17 Genotyping for the hypomorphic Q141K ABCG2 polymorphism was performed using tumor DNA and a Fluorescent Resonance Energy Transfer-based hybridization probes and melting curve analysis using a Roche LC480 instrument (Roche, Neuilly sur Seine, France; primer, probe, and polymerase chain reaction conditions available on request).18 Statistical Analysis Demographic, response rate, safety, laboratory, PK, and pharmacodynamic data were analyzed using descriptive statistics.
X
ABCG2 p.Gln141Lys 18824712:61:82
status: VERIFIED100 Twelve patients had the Q141K exon 5 SNP.
X
ABCG2 p.Gln141Lys 18824712:100:24
status: VERIFIED
PMID: 18829547
[PubMed]
Dai CL et al: "Lapatinib (Tykerb, GW572016) reverses multidrug resistance in cancer cells by inhibiting the activity of ATP-binding cassette subfamily B member 1 and G member 2."
No.
Sentence
Comment
307
Recently, Cusatis and colleagues (45) reported that one common functional single-nucleotide polymorphism in the ABCG2 gene, ABCG2 421C!A (Q141K), is associated with diarrhea, a gefitinib-induced adverse effect, and led to a high risk of diarrhea in patients treated with oral gefitinib.
X
ABCG2 p.Gln141Lys 18829547:307:138
status: VERIFIED
PMID: 18834626
[PubMed]
Dehghan A et al: "Association of three genetic loci with uric acid concentration and risk of gout: a genome-wide association study."
No.
Sentence
Comment
71
**Chromosome 4 (89271347) in ABCG2; alleles= G/T (Q141K).
X
ABCG2 p.Gln141Lys 18834626:71:50
status: VERIFIED154 A missense SNP in ABCG2 (rs2231142; Q141K) was associated with uric acid concentration and gout in both white and black individuals and may be a causal candidate variant.
X
ABCG2 p.Gln141Lys 18834626:154:36
status: VERIFIED165 This SNP in exon 5 leads to a glutamine-to-lysine aminoacid substitution (Q141K).
X
ABCG2 p.Gln141Lys 18834626:165:74
status: VERIFIED168 Three other SNPs located downstream of and in disequilibrium with the Q141K variant were associated with uric acid, two of which are within the polycystic kidney disease 2 gene (PKD2).
X
ABCG2 p.Gln141Lys 18834626:168:70
status: VERIFIED169 However, neither these nor other SNPs in the region were independently associated with uric acid when adjusted for the Q141K variant in either the Framingham or the Rotterdam cohort.
X
ABCG2 p.Gln141Lys 18834626:169:119
status: VERIFIED170 This evidence together with the weak linkage disequilibrium pattern in the ABCG2 region in the HapMap Yoruban sample and thesignificantassociationofrs2231142inblackparticipants in the ARIC study, despite the low minor allele frequency of 3%, suggests that the ABCG2 Q141K variant (rs2231142) could be causally related to uric acid concentration.
X
ABCG2 p.Gln141Lys 18834626:170:266
status: VERIFIED
PMID: 18855611
[PubMed]
Zhou SF et al: "Clinical pharmacogenetics and potential application in personalized medicine."
No.
Sentence
Comment
618
Only a small portion of them are non-synonymous (V12M, Q141K, Q166E, I206L, F208S, S248P, D296H, L525R, A528T, F571I, and Y590N) and there is one frameshift (1515delC) mutation observed in the coding region of ABCG2.
X
ABCG2 p.Gln141Lys 18855611:618:55
status: VERIFIED619 Among the above variations, 34G>A (V12M) AND 421C>A (Q141K) have been testified to be polymorphic in numerous populations [267, 271].
X
ABCG2 p.Gln141Lys 18855611:619:53
status: VERIFIED624 The Q141K polymorphism located in exon 5 leads to the replacement of the negatively charged glutamic acid residue with a positively charged lysine residue.
X
ABCG2 p.Gln141Lys 18855611:624:4
status: VERIFIED626 The Q141K variant was detected in all ethnic groups tested; it was found that Q141K occurs frequently in Asian populations ranging from (~30-60%) and relatively low allele frequency in Caucasians and African American subjects (~5-10%) [273].
X
ABCG2 p.Gln141Lys 18855611:626:4
status: VERIFIEDX
ABCG2 p.Gln141Lys 18855611:626:78
status: VERIFIED627 For example, 60% are heterozygous for Q141 K in a Chinese population; 39-50% heterozygous for a Japanese population and 7% homozygous for the variant Q141K.
X
ABCG2 p.Gln141Lys 18855611:627:150
status: VERIFIED630 Studies have discovered that the expression levels of Q141K ABCG2 protein is lower than the wild-type, or the V12M variant when expressed in PA317 or HEK-293 cells [273].
X
ABCG2 p.Gln141Lys 18855611:630:54
status: VERIFIED631 It was also found that a portion of Q141K remained intracellular despite having a low level of expression, as both V12M and Q141K BCRP could reach the plasma membrane in the HEK-293 cells [273].
X
ABCG2 p.Gln141Lys 18855611:631:36
status: VERIFIEDX
ABCG2 p.Gln141Lys 18855611:631:124
status: VERIFIED632 Other reports quoted that there is a 30-40% reduction in expression of cell surface Q141K variant, despite having a similar mRNA level compared to the wild-type.
X
ABCG2 p.Gln141Lys 18855611:632:84
status: VERIFIED633 Individuals homozygous for the Q141K variant had significantly lower expression levels of BCRP in the placenta while the heterozygous samples displayed an intermediate expression level [274].
X
ABCG2 p.Gln141Lys 18855611:633:31
status: VERIFIED635 ABCG2 is expressed in polarized LLC-PKI cells, and a study has demonstrated that the V12M variant has an intracellular localization whereas the wild-type ABCG2 and Q141K show mainly apical staining [275].
X
ABCG2 p.Gln141Lys 18855611:635:164
status: VERIFIED637 All polymorphisms, including V12M and Q141K, had an apical localization, and only the S441N variant displayed an intracellular staining [275].
X
ABCG2 p.Gln141Lys 18855611:637:38
status: VERIFIED639 Further studies are required to clarify the mechanism of a reduced protein expression for Q141K, and the change of cellular localization for the V12M and Q141K variants found under specific conditions.
X
ABCG2 p.Gln141Lys 18855611:639:90
status: VERIFIEDX
ABCG2 p.Gln141Lys 18855611:639:154
status: VERIFIED641 There was a 10-fold decrease in drug resistance compared with the wild-type ABCG2 when the V12M or Q141K-transfected LLC-PKI cells were challenged by mitoxantrone or topotecan [275].
X
ABCG2 p.Gln141Lys 18855611:641:99
status: VERIFIED642 In contrast, when compared to wild-type ABCG2-transfected cells, Q141K variant alone had a fairly lower level resistance against mitoxantrone, topotecan or SN-38.
X
ABCG2 p.Gln141Lys 18855611:642:65
status: VERIFIED644 In the ATP-binding cassette region of ABCG2, Q141K is between the Walker A and the signature motifs; hence variant ATPase activity alteration is possible.
X
ABCG2 p.Gln141Lys 18855611:644:45
status: VERIFIED645 Experiments were undertaken to observe between the vanadate-sensitive ATPase activity of ABCG2 V12M and Q141K variants, using Sf9 (Spodoptera frugiperda) cell membranes [276].
X
ABCG2 p.Gln141Lys 18855611:645:104
status: VERIFIED646 There was a 1.3 and 1.8-fold lower basal ATPase activity, respectively, for V12M and Q141K compared to wild-type [276].
X
ABCG2 p.Gln141Lys 18855611:646:85
status: VERIFIED
PMID: 18958403
[PubMed]
Furukawa T et al: "Major SNP (Q141K) variant of human ABC transporter ABCG2 undergoes lysosomal and proteasomal degradations."
No.
Sentence
Comment
0
Research Paper Major SNP (Q141K) Variant of Human ABC Transporter ABCG2 Undergoes Lysosomal and Proteasomal Degradations Tomoka Furukawa,1 Kanako Wakabayashi,1,2 Ai Tamura,1,2 Hiroshi Nakagawa,1 Yoshihiro Morishima,3 Yoichi Osawa,3 and Toshihisa Ishikawa1,4 Received July 30, 2008; accepted October 8, 2008; published online October 29, 2008 Purpose.
X
ABCG2 p.Gln141Lys 18958403:0:11
status: NEWX
ABCG2 p.Gln141Lys 18958403:0:26
status: VERIFIED2 We aimed to evaluate the impact of the major non-synonymous SNP Q141K on lysosomal and proteasomal degradations.
X
ABCG2 p.Gln141Lys 18958403:2:25
status: NEWX
ABCG2 p.Gln141Lys 18958403:2:64
status: VERIFIED4 ABCG2 WT and the Q141K variant were expressed in Flp-In-293 cells by using the Flp recombinase system.
X
ABCG2 p.Gln141Lys 18958403:4:17
status: VERIFIEDX
ABCG2 p.Gln141Lys 18958403:4:33
status: NEW7 The protein level of the Q141K variant expressed in Flp-In-293 cells was about half that of ABCG2 WT, while their mRNA levels were equal.
X
ABCG2 p.Gln141Lys 18958403:7:25
status: VERIFIEDX
ABCG2 p.Gln141Lys 18958403:7:72
status: NEW8 The protein expression level of the Q141K variant increased about two-fold when Flp-In-293 cells were treated with MG132.
X
ABCG2 p.Gln141Lys 18958403:8:36
status: VERIFIEDX
ABCG2 p.Gln141Lys 18958403:8:75
status: NEW10 After treatment with bafilomycin A1, the protein levels of ABCG2 WT and Q141K increased 5-and 2-fold in Flp-In-293 cells, respectively.
X
ABCG2 p.Gln141Lys 18958403:10:72
status: VERIFIED12 The results strongly suggest that the major non-synonymous SNP Q141K affects the stability of the ABCG2 protein in the endoplasmic reticulum and enhances its susceptibility to ubiquitin-mediated proteasomal degradation.
X
ABCG2 p.Gln141Lys 18958403:12:63
status: VERIFIED20 The most extensively studied of those SNPs with potential clinical relevance is 421 C>A, which results in a glutamine to lysine substitution (Q141K) in the ABCG2 protein.
X
ABCG2 p.Gln141Lys 18958403:20:142
status: VERIFIED21 The Q141K SNP was identified with varying frequencies in different ethnic groups and was found to be the most prevalent in Japanese and Chinese populations (approximately 30% in allele frequency) (2).
X
ABCG2 p.Gln141Lys 18958403:21:4
status: VERIFIEDX
ABCG2 p.Gln141Lys 18958403:21:142
status: NEW22 Q141K has been associated with lower levels of protein expression and impaired transport in vitro; however, some controversies exist in the publications characterizing this SNP (12-18).
X
ABCG2 p.Gln141Lys 18958403:22:0
status: VERIFIED30 Furthermore, the Q141K SNP was reportedly associated with a higher incidence of diarrhea in non-small cell lung cancer patients treated with gefitinib (22).
X
ABCG2 p.Gln141Lys 18958403:30:17
status: VERIFIED36 In this context, it has been hypothesized that the reduced expression levels of the Q141K variant may be due to the ubiquitin-mediated proteasomal degradation.
X
ABCG2 p.Gln141Lys 18958403:36:84
status: VERIFIED43 We here provide evidence that the major nonsynonymous SNP variant Q141K undergoes both ubiquitin-mediated protein degradation in proteasomes and lysosomal proteolysis and that the protein level of the Q141K variant is thereby significantly reduced.
X
ABCG2 p.Gln141Lys 18958403:43:66
status: VERIFIEDX
ABCG2 p.Gln141Lys 18958403:43:201
status: VERIFIED47 Preparation of Plasmids Carrying ABCG2 Q141K Variant cDNA.
X
ABCG2 p.Gln141Lys 18958403:47:39
status: VERIFIED48 Wild-type (WT) ABCG2 cDNA inserted into the pcDNA5/FRT plasmid was used as the template, and the nonsynonymous SNP Q141K variant was generated by using the QuikChange® Site-Directed Mutagenesis Kit (Stratagene, La Jolla, CA, USA).
X
ABCG2 p.Gln141Lys 18958403:48:115
status: VERIFIED53 Expression of ABCG2 WTand Q141K Variant in Flp-In-293 Cells.
X
ABCG2 p.Gln141Lys 18958403:53:26
status: VERIFIED59 Flp-In-293 cells expressing ABCG2 WT or Q141K, named Flp-In-293/ABCG2 (WT) or Flp-In-293/ABCG2 (Q141K), were maintained in high-glucose Dulbecco`s modified Eagle`s medium (D-MEM) supplemented with 10% (v/v) heat-inactivated fetal calf serum (ICN Biomedicals, Inc., Aurora, OH, USA), 2 mM L-glutamine, 100 U/ml penicillin, 100 μg/ml streptomycin, 250 ng/ml amphotericin B, and Fig. 1. Schematic illustration of the protein structure of human ABCG2.
X
ABCG2 p.Gln141Lys 18958403:59:40
status: VERIFIEDX
ABCG2 p.Gln141Lys 18958403:59:96
status: VERIFIED60 The sites of three non-synonymous SNPs, Q141K, F208S and S441N, are indicated.
X
ABCG2 p.Gln141Lys 18958403:60:40
status: VERIFIED98 RESULTS AND DISCUSSION Protein Expression Levels of ABCG2 WT and Q141K in Flp-In-293 Cells.
X
ABCG2 p.Gln141Lys 18958403:98:65
status: VERIFIED101 The Q141K variant is reportedly associated with lower levels of protein expression; however, little is known about the underlying molecular mechanism.
X
ABCG2 p.Gln141Lys 18958403:101:4
status: VERIFIED102 In the present study, ABCG2 WT and the Q141K variant were individually expressed in Flp-In-293 cells by using the Flp recombinase system, where one single copy of the cDNA encoding either the WT or the variant was integrated into the genomic DNA at the designated FRT site prepared in chromosome 12 (Fig. 2A).
X
ABCG2 p.Gln141Lys 18958403:102:4
status: NEWX
ABCG2 p.Gln141Lys 18958403:102:42
status: VERIFIED103 As shown in Fig. 2B, mRNA levels of ABCG2 WT as well as Q141K were evenly represented in Flp-In-293 cells, where the mRNA levels of ABCG2 and GAPDH were measured by RT-PCR.
X
ABCG2 p.Gln141Lys 18958403:103:56
status: VERIFIEDX
ABCG2 p.Gln141Lys 18958403:103:80
status: NEW104 Both WT and Q141K proteins were found as glycosylated homodimers.
X
ABCG2 p.Gln141Lys 18958403:104:12
status: VERIFIEDX
ABCG2 p.Gln141Lys 18958403:104:61
status: NEWX
ABCG2 p.Gln141Lys 18958403:104:166
status: NEW105 To quantify the levels of ABCG2 WT and Q141K proteins, we treated the samples with PNGase F and mercaptoethanol (ME) to remove the glycomoieties and to break the cysteinyl disulfide bond forming the homodimers (Fig. 2B).
X
ABCG2 p.Gln141Lys 18958403:105:39
status: VERIFIED107 As demonstrated in Fig. 2B, the protein level of the Q141K variant was about 45% of the ABCG2 WT protein level.
X
ABCG2 p.Gln141Lys 18958403:107:53
status: VERIFIED109 Flp-mediated integration of the ABCG2 cDNA into FRT-tagged genomic DNA (A), the mRNA and protein levels of ABCG2 WT and Q141K (B) and the relationship between the relative intensity of ABCG2 immunoreactivity and the amount of cellular proteins (C).
X
ABCG2 p.Gln141Lys 18958403:109:120
status: VERIFIED113 B The mRNA level was analyzed by RT-PCR with total RNA extracted from Flp-In-293 cells expressing ABCG2 WT or Q141K.
X
ABCG2 p.Gln141Lys 18958403:113:110
status: VERIFIEDX
ABCG2 p.Gln141Lys 18958403:113:127
status: NEW115 The level of the Q141K variant protein was normalized to the WT level.
X
ABCG2 p.Gln141Lys 18958403:115:17
status: VERIFIED120 Effect of MG132 (A) or bafilomycin A1 (B) on the protein levels of ABCG2 WT and Q141K variant.
X
ABCG2 p.Gln141Lys 18958403:120:47
status: NEWX
ABCG2 p.Gln141Lys 18958403:120:80
status: VERIFIED121 A Flp-In-293 cells expressing ABCG2 WT or Q141K were incubated with 2 μ;M MG132 for 0 and 24 h. ABCG2 protein levels were analyzed by immunoblotting after PNGase F treatment.
X
ABCG2 p.Gln141Lys 18958403:121:42
status: VERIFIEDX
ABCG2 p.Gln141Lys 18958403:121:76
status: NEWX
ABCG2 p.Gln141Lys 18958403:121:164
status: NEW122 B Flp-In-293 cells expressing ABCG2 WT or Q141K were incubated with 10 nM bafilomycin A1 for 0, 12, and 24 h. ABCG2 protein levels were analyzed as described above. Data are expressed as mean values ± SD in triplicate experiments.
X
ABCG2 p.Gln141Lys 18958403:122:42
status: VERIFIEDX
ABCG2 p.Gln141Lys 18958403:122:53
status: NEW124 Effect of MG132 and Bafilomycin A1 on the Protein Expression Levels of ABCG2 WT and Q141K Variant.
X
ABCG2 p.Gln141Lys 18958403:124:84
status: VERIFIEDX
ABCG2 p.Gln141Lys 18958403:124:123
status: NEW126 Flp-In-293 cells expressing WT or Q141K were incubated in the presence of MG132 at a concentration of 2.0 μM for 24 h, and then cell lysate samples were immediately prepared.
X
ABCG2 p.Gln141Lys 18958403:126:34
status: VERIFIED129 Protein expression levels of the WT and the Q141K variant were determined by immunoblotting after PNGase F treatment in the same way as described above.
X
ABCG2 p.Gln141Lys 18958403:129:44
status: VERIFIED130 As shown in Fig. 3A, the protein level of the Q141K variant was approximately two-fold enhanced by treatment with the proteasome inhibitor MG132.
X
ABCG2 p.Gln141Lys 18958403:130:46
status: VERIFIED133 These results suggest that the Q141K variant undergoes proteasomal proteolysis but the WT does not.
X
ABCG2 p.Gln141Lys 18958403:133:31
status: VERIFIED135 The Q141K variant protein level was only two-fold enhanced by Fig. 4.
X
ABCG2 p.Gln141Lys 18958403:135:4
status: VERIFIEDX
ABCG2 p.Gln141Lys 18958403:135:130
status: NEW136 Immunocytochemical staining of Flp-In-293 cells expressing ABCG2 WT or Q141K proteins (A) and statistical data to analyze the effects of MG132 on the cellular localization of ABCG2 WT or Q141K proteins (B, C).
X
ABCG2 p.Gln141Lys 18958403:136:54
status: NEWX
ABCG2 p.Gln141Lys 18958403:136:71
status: VERIFIEDX
ABCG2 p.Gln141Lys 18958403:136:187
status: VERIFIED144 It is suggested that the WT is degraded substantially in lysosomes and that the Q141K variant protein undergoes degradation in both proteasomes and lysosomes.
X
ABCG2 p.Gln141Lys 18958403:144:80
status: VERIFIED145 Effect of MG132 on the Cellular Localization of ABCG2 WT and Q141K Variant.
X
ABCG2 p.Gln141Lys 18958403:145:61
status: VERIFIED146 Fig. 4A depicts the immunofluorescence images of Flp-In-293 cells expressing ABCG2 WT or Q141K that were incubated with or without 2 μM MG132 for 24 h. The ABCG2 protein was probed with either BXP-21 or 5D3 antibody.
X
ABCG2 p.Gln141Lys 18958403:146:89
status: VERIFIED152 In contrast with the WT, immunofluorescence of the Q141K variant was relatively weak at the plasma membrane as well as within intracellular compartments.
X
ABCG2 p.Gln141Lys 18958403:152:38
status: NEWX
ABCG2 p.Gln141Lys 18958403:152:51
status: VERIFIED154 The 5D3 antibody-immunofluorescence image demonstrated even more clearly that MG132 treatment enhanced the localization of the Q141K variant protein at the plasma membrane (Fig. 4A).
X
ABCG2 p.Gln141Lys 18958403:154:0
status: NEWX
ABCG2 p.Gln141Lys 18958403:154:127
status: VERIFIED155 Fig. 4B and C depict the statistical data on the cellular localization of ABCG2 WT and Q141K.
X
ABCG2 p.Gln141Lys 18958403:155:87
status: VERIFIEDX
ABCG2 p.Gln141Lys 18958403:155:133
status: NEW160 Marked differences were observed after the MG132 treatment in terms of the cellular localization and/or amount of the Q141K variant protein.
X
ABCG2 p.Gln141Lys 18958403:160:70
status: NEWX
ABCG2 p.Gln141Lys 18958403:160:118
status: VERIFIED161 It is noteworthy that the protein level of the Q141K variant increased in the plasma membrane after the MG132 treatment (Fig. 4B).
X
ABCG2 p.Gln141Lys 18958403:161:47
status: VERIFIED162 Effect of MG132 on the Drug Resistance of Flp-In-293 Cells Expressing ABCG2 Q141K Variant.
X
ABCG2 p.Gln141Lys 18958403:162:76
status: VERIFIED165 incubation conditions, Flp-In-293 cells expressing the Q141K variant exhibited a cellular resistance to SN-38, but their resistance profile was relatively weaker than that of cells expressing the WT (Fig. 5).
X
ABCG2 p.Gln141Lys 18958403:165:55
status: VERIFIED166 This may be due to the lower expression level of the Q141K variant protein as compared with the ABCG2 WT in Flp-In-293 cells.
X
ABCG2 p.Gln141Lys 18958403:166:53
status: VERIFIED167 It was of great interest to know how the inhibition of proteasomal protein degradation by MG132 affects the drug resistance of cells expressing the Q141K variant protein.
X
ABCG2 p.Gln141Lys 18958403:167:148
status: VERIFIED168 As demonstrated in Fig. 5B, the MG132 treatment enhanced cellular resistance to SN-38 in Flp-In-293 cells expressing the Q141K variant, whereas little was changed in cells expressing ABCG2 WT, even after the MG132 treatment (data not shown).
X
ABCG2 p.Gln141Lys 18958403:168:121
status: VERIFIED169 Thus, it is suggested that the Q141K variant sorted to the plasma membrane domain after the MG132 treatment was functionally active to extrude SN-38 out of the cells.
X
ABCG2 p.Gln141Lys 18958403:169:31
status: VERIFIED177 We recently found that such reduced protein levels were associated with the instabil- Fig. 6. Schematic illustration of plausible pathways for protein folding and degradation of ABCG2 WT and Q141K variant protein.
X
ABCG2 p.Gln141Lys 18958403:177:191
status: VERIFIED190 In contrast, Q141K undergoes both lysosomal proteolysis and ubiquitination-mediated proteasomal degradation.
X
ABCG2 p.Gln141Lys 18958403:190:13
status: VERIFIED193 Drug resistance profiles of Flp-In-293 cells expressing ABCG2 WT or Q141K (A) and the effect of MG132 on the SN-38 resistance of Flp-In-293 cells expressing Q141K (B).
X
ABCG2 p.Gln141Lys 18958403:193:68
status: VERIFIEDX
ABCG2 p.Gln141Lys 18958403:193:157
status: VERIFIED198 *P<0.01 as compared with Flp-In-293 cells expressing ABCG2 Q141K treated with MG132.
X
ABCG2 p.Gln141Lys 18958403:198:59
status: VERIFIED200 In our functional validation, the Q141K variant and the WT showed very similar substrate specificities and drug resistance profiles when they were expressed in Sf9 insect cells (42) and Flp-In-293 cells (18).
X
ABCG2 p.Gln141Lys 18958403:200:34
status: VERIFIED201 The level of the Q141K variant protein was significantly lower than that of the WT, however when it was expressed in Flp-In-293 cells (Fig. 2B) and in other mammalian cell lines (12-18).
X
ABCG2 p.Gln141Lys 18958403:201:17
status: VERIFIEDX
ABCG2 p.Gln141Lys 18958403:201:188
status: NEW202 Based on those recent findings, we have examined the contribution of proteasomal degradation to the lower-level expression of the Q141K variant by testing the effect of MG132.
X
ABCG2 p.Gln141Lys 18958403:202:130
status: VERIFIED203 In fact, MG132 enhanced both the protein level of the Q141K variant (Figs.
X
ABCG2 p.Gln141Lys 18958403:203:54
status: VERIFIED204 3A and 4A) and the drug resistance profile of the Q141K-expressing Flp-In-293 cells (Fig. 5B).
X
ABCG2 p.Gln141Lys 18958403:204:50
status: VERIFIED205 It is strongly suggested that the lower protein expression level of the Q141K variant is due to both ubiquitin-mediated proteasomal degradation and the lysosomal proteolysis.
X
ABCG2 p.Gln141Lys 18958403:205:72
status: VERIFIED221 The clinical impact of the Q141K SNP has been most extensively studied.
X
ABCG2 p.Gln141Lys 18958403:221:27
status: VERIFIED222 The Q141K SNP was identified with varying frequencies in different ethnic groups and was found to be the most prevalent in Japanese and Chinese populations (2).
X
ABCG2 p.Gln141Lys 18958403:222:4
status: VERIFIED223 Q141K is reportedly associated with lower levels of protein expression and impaired transport (12-18), whereas some controversies exist in the publications characterizing this SNP (15,16).
X
ABCG2 p.Gln141Lys 18958403:223:0
status: VERIFIED224 Zamber et al. (15) and Urquhart et al. (16) reported that the levels of ABCG2 in the intestine were not significantly affected by the Q141K SNP.
X
ABCG2 p.Gln141Lys 18958403:224:134
status: VERIFIED225 It is important to note, however, that ABCG2 protein levels in the intestinal biopsy samples were measured by immunoblotting and compared between homozygous WT/WT and heterozygous WT/Q141K human subjects in those reports (15,16).
X
ABCG2 p.Gln141Lys 18958403:225:183
status: VERIFIED226 No data was demonstrated for the ABCG2 protein level in homozygous Q141K/Q141K subjects.
X
ABCG2 p.Gln141Lys 18958403:226:67
status: VERIFIEDX
ABCG2 p.Gln141Lys 18958403:226:73
status: VERIFIED227 Since ABCG2 forms homo- and hetero-dimers linked through a cysteinyl disulfide bond, it is plausible that the heterodimer consisting of the WT and the Q141K variant is preferentially preserved in the ER as is the WT homodimer.
X
ABCG2 p.Gln141Lys 18958403:227:151
status: VERIFIED228 The present in vitro study provides clear evidence that this major non-synonymous SNP Q141K affects the protein stability of ABCG2 in the ER and enhances its susceptibility to proteasomal degradation, thus affecting the plasma membrane localization of this non-synonymous SNP.
X
ABCG2 p.Gln141Lys 18958403:228:86
status: VERIFIED229 Further studies will be needed to verify the impact of the homozygous Q141K SNP on ABCG2 protein degradation in the intestine in vivo.
X
ABCG2 p.Gln141Lys 18958403:229:70
status: VERIFIED1 We aimed to evaluate the impact of the major non-synonymous SNP Q141K on lysosomal and proteasomal degradations.
X
ABCG2 p.Gln141Lys 18958403:1:64
status: NEW5 The protein expression level of the Q141K variant increased about two-fold when Flp-In-293 cells were treated with MG132.
X
ABCG2 p.Gln141Lys 18958403:5:36
status: NEW23 Q141K has been associated with lower levels of protein expression and impaired transport in vitro; however, some controversies exist in the publications characterizing this SNP (12-18).
X
ABCG2 p.Gln141Lys 18958403:23:0
status: NEW25 Furthermore, the Q141K SNP was reportedly associated with a higher incidence of diarrhea in non-small cell lung cancer patients treated with gefitinib (22).
X
ABCG2 p.Gln141Lys 18958403:25:17
status: NEW31 In this context, it has been hypothesized that the reduced expression levels of the Q141K variant may be due to the ubiquitin-mediated proteasomal degradation.
X
ABCG2 p.Gln141Lys 18958403:31:84
status: NEW38 We here provide evidence that the major nonsynonymous SNP variant Q141K undergoes both ubiquitin-mediated protein degradation in proteasomes and lysosomal proteolysis and that the protein level of the Q141K variant is thereby significantly reduced.
X
ABCG2 p.Gln141Lys 18958403:38:66
status: NEWX
ABCG2 p.Gln141Lys 18958403:38:201
status: NEW41 Preparation of plasmids carrying ABCG2 Q141K variant cDNA Wild-type (WT) ABCG2 cDNA inserted into the pcDNA5/FRT plasmid was used as the template, and the nonsynonymous SNP Q141K variant was generated by using the QuikChange® Site-Directed Mutagenesis Kit (Stratagene, La Jolla, CA, USA).
X
ABCG2 p.Gln141Lys 18958403:41:39
status: NEWX
ABCG2 p.Gln141Lys 18958403:41:173
status: NEW46 Expression of ABCG2 WT and Q141K variant in Flp-In-293 cells Flp-In-293 cells were transfected with the ABCG2-pcDNA5/FRT plasmid, the Flp recombinase expression plasmid pOG44, and LipofectAmine™-2000 (Invitrogen, Carlsbad, CA, USA) according to the manufacturer`s instructions (see Fig. 2A).
X
ABCG2 p.Gln141Lys 18958403:46:27
status: NEW51 Flp-In-293 cells expressing ABCG2 WT or Q141K, named Flp-In-293/ABCG2 (WT) or Flp-In-293/ABCG2 (Q141K), were maintained in high-glucose Dulbecco`s modified Eagle`s medium (D-MEM) supplemented with 10% (v/v) heat-inactivated fetal calf serum (ICN Biomedicals, Inc., Aurora, OH, USA), 2 mM L-glutamine, 100 U/ml penicillin, 100 μg/ml streptomycin, 250 ng/ml amphotericin B, and 100 μg/ml hygromycin B at 37°C in a in air.
X
ABCG2 p.Gln141Lys 18958403:51:40
status: NEWX
ABCG2 p.Gln141Lys 18958403:51:96
status: NEW83 Results and Discussion Protein expression levels of ABCG2 WT and Q141K in Flp-In-293 cells We previously found that protein expression levels varied among those SNP variants (18).
X
ABCG2 p.Gln141Lys 18958403:83:65
status: NEW85 The Q141K variant is reportedly associated with lower levels of protein expression; however, little is known about the underlying molecular mechanism.
X
ABCG2 p.Gln141Lys 18958403:85:4
status: NEW86 In the present study, ABCG2 WT and the Q141K variant were individually expressed in Flp-In-293 cells by using the Flp recombinase system, where one single copy of the cDNA encoding either the WT or the variant was integrated into the genomic DNA at the designated FRT site prepared in chromosome 12 (Fig. 2A).
X
ABCG2 p.Gln141Lys 18958403:86:39
status: NEW87 As shown in Figure 2B, mRNA levels of ABCG2 WT as well as Q141K were evenly represented in Flp-In-293 cells, where the mRNA levels of ABCG2 and GAPDH were measured by RT-PCR.
X
ABCG2 p.Gln141Lys 18958403:87:58
status: NEW88 Both WT and Q141K proteins were found as glycosylated homodimers.
X
ABCG2 p.Gln141Lys 18958403:88:12
status: NEW89 To quantify the levels of ABCG2 WT and Q141K proteins, we treated the samples with PNGase F and mercaptoethanol (ME) to remove the glycomoieties and to break the cysteinyl disulfide bond forming the homodimers (Fig. 2B).
X
ABCG2 p.Gln141Lys 18958403:89:39
status: NEW91 As demonstrated in Figure 2B, the protein level of the Q141K variant was about 45% of the ABCG2 WT protein level.
X
ABCG2 p.Gln141Lys 18958403:91:55
status: NEW92 Effect of MG132 and bafilomycin A1 on the protein expression levels of ABCG2 WT and Q141K variant We investigated the effect of MG132, an inhibitor of proteasomal proteolysis, on the protein expression levels of those SNP variants.
X
ABCG2 p.Gln141Lys 18958403:92:84
status: NEW93 Flp-In-293 cells expressing WT or Q141K were incubated in the presence of MG132 at a concentration of 2.0 μM for 24 h, and then cell lysate samples were immediately prepared.
X
ABCG2 p.Gln141Lys 18958403:93:34
status: NEW96 Protein expression levels of the WT and the Q141K variant were determined by immunoblotting after PNGase F treatment in the same way as described above.
X
ABCG2 p.Gln141Lys 18958403:96:44
status: NEW97 As shown in Figure 3A, the protein level of the Q141K variant was approximately two-fold enhanced by treatment with the proteasome inhibitor MG132.
X
ABCG2 p.Gln141Lys 18958403:97:48
status: NEW100 These results suggest that the Q141K variant undergoes proteasomal proteolysis but the WT does not.
X
ABCG2 p.Gln141Lys 18958403:100:31
status: NEW111 In contrast with the WT, immunofluorescence of the Q141K variant was relatively weak at the plasma membrane as well as within intracellular compartments.
X
ABCG2 p.Gln141Lys 18958403:111:51
status: NEW114 Figures 4B and 4C depict the statistical data on the cellular localization of ABCG2 WT and Q141K.
X
ABCG2 p.Gln141Lys 18958403:114:91
status: NEW119 Marked differences were observed after the MG132 treatment in terms of the cellular localization and/or amount of the Q141K variant protein.
X
ABCG2 p.Gln141Lys 18958403:119:118
status: NEW123 It was of great interest to know how the inhibition of proteasomal protein degradation by MG132 affects the drug resistance of cells expressing the Q141K variant protein.
X
ABCG2 p.Gln141Lys 18958403:123:148
status: NEW125 Thus, it is suggested that the Q141K variant sorted to the plasma membrane domain after the MG132 treatment was functionally active to extrude SN-38 out of the cells.
X
ABCG2 p.Gln141Lys 18958403:125:31
status: NEW134 The level of the Q141K variant protein was significantly lower than that of the WT, however when it was expressed in Flp-In-293 cells (Fig. 2B) and in other mammalian cell lines (12-18).
X
ABCG2 p.Gln141Lys 18958403:134:17
status: NEW137 3A and 4A) and the drug resistance profile of the Q141K-expressing Flp-In-293 cells (Fig. 5B).
X
ABCG2 p.Gln141Lys 18958403:137:50
status: NEW138 It is strongly suggested that the lower protein expression level of the Q141K variant is due to both ubiquitin-mediated proteasomal degradation and the lysosomal proteolysis.
X
ABCG2 p.Gln141Lys 18958403:138:72
status: NEW153 The Q141K SNP was identified with varying frequencies in different ethnic groups and was found to be the most prevalent in Japanese and Chinese populations (2).
X
ABCG2 p.Gln141Lys 18958403:153:4
status: NEW156 It is important to note, however, that ABCG2 protein levels in the intestinal biopsy samples were measured by immunoblotting and compared between homozygous WT/ WT and heterozygous WT/Q141K human subjects in those reports (15,16).
X
ABCG2 p.Gln141Lys 18958403:156:184
status: NEW157 No data was demonstrated for the ABCG2 protein level in homozygous Q141K/Q141K subjects.
X
ABCG2 p.Gln141Lys 18958403:157:67
status: NEWX
ABCG2 p.Gln141Lys 18958403:157:73
status: NEW158 Since ABCG2 forms homo- and hetero-dimmers linked through a cysteinyl disulfide bond, it is plausible that the heterodimer consisting of the WT and the Q141K variant is preferentially preserved in the ER as is the WT homodimer.
X
ABCG2 p.Gln141Lys 18958403:158:152
status: NEW159 The present in-vitro study provides clear evidence that this major non-synonymous SNP Q141K affects the protein stability of ABCG2 in the ER and enhances its susceptibility to proteasomal degradation, thus affecting the plasma membrane localization of this nonsynonymous SNP.
X
ABCG2 p.Gln141Lys 18958403:159:86
status: NEW344 The sites of three nonsynonymous SNPs, Q141K, F208S and S441N, are indicated.
X
ABCG2 p.Gln141Lys 18958403:344:39
status: NEW349 Flp-mediated integration of the ABCG2 cDNA into FRT-tagged genomic DNA (A), the mRNA and protein levels of ABCG2 WT and Q141K (B) and the relationship between the relative intensity of ABCG2 immunoreactivity and the amount of cellular proteins (C).
X
ABCG2 p.Gln141Lys 18958403:349:120
status: NEW353 B: The mRNA level was analyzed by RT-PCR with total RNA extracted from Flp-In-293 cells expressing ABCG2 WT or Q141K.
X
ABCG2 p.Gln141Lys 18958403:353:111
status: NEW355 The level of the Q141K variant protein was normalized to the WT level.
X
ABCG2 p.Gln141Lys 18958403:355:17
status: NEW360 Effect of MG132 (A) or bafilomycin A1 (B) on the protein levels of ABCG2 WT and Q141K variant.
X
ABCG2 p.Gln141Lys 18958403:360:80
status: NEW361 A: Flp-In-293 cells expressing ABCG2 WT or Q141K were incubated with 2 μM MG132 for 0 and 24 h. ABCG2 protein levels were analyzed by immunoblotting after PNGase F treatment.
X
ABCG2 p.Gln141Lys 18958403:361:43
status: NEW362 B: Flp-In-293 cells expressing ABCG2 WT or Q141K were incubated with 10 nM bafilomycin A1 for 0, 12, and 24 h. ABCG2 protein levels were analyzed as described above. Data are expressed as mean values ± S.D. in triplicate experiments.
X
ABCG2 p.Gln141Lys 18958403:362:43
status: NEW365 Immunocytochemical staining of Flp-In-293 cells expressing ABCG2 WT or Q141K proteins (A) and statistical data to analyze the effects of MG132 on the cellular localization of ABCG2 WT or Q141K proteins (B, C).
X
ABCG2 p.Gln141Lys 18958403:365:71
status: NEWX
ABCG2 p.Gln141Lys 18958403:365:187
status: NEW373 Drug resistance profiles of Flp-In-293 cells expressing ABCG2 WT or Q141K (A) and the effect of MG132 on the SN-38 resistance of Flp-In-293 cells expressing Q141K (B).
X
ABCG2 p.Gln141Lys 18958403:373:68
status: NEWX
ABCG2 p.Gln141Lys 18958403:373:157
status: NEW378 *, P<0.01 as compared with Flp-In-293 cells expressing ABCG2 Q141K treated with MG132.
X
ABCG2 p.Gln141Lys 18958403:378:61
status: NEW379 Figure 6. Schematic illustration of plausible pathways for protein folding and degradation of ABCG2 WT and Q141K variant protein.
X
ABCG2 p.Gln141Lys 18958403:379:107
status: NEW392 In contrast, Q141K undergoes both lysosomal proteolysis and ubiquitination-mediated proteasomal degradation.
X
ABCG2 p.Gln141Lys 18958403:392:13
status: NEW
PMID: 19002564
[PubMed]
Polgar O et al: "The 315-316 deletion determines the BXP-21 antibody epitope but has no effect on the function of wild type ABCG2 or the Q141K variant."
No.
Sentence
Comment
0
The 315-316 deletion determines the BXP-21 antibody epitope but has no effect on the function of wild type ABCG2 or the Q141K variant Orsolya Polgar Æ John F. Deeken Æ Lilangi S. Ediriwickrema Æ Akina Tamaki Æ Seth M. Steinberg Æ Robert W. Robey Æ Susan E. Bates Received: 30 May 2008 / Accepted: 22 October 2008 / Published online: 11 November 2008 Ó Springer Science+Business Media, LLC. 2008 Abstract ABCG2 is a half-transporter initially described in multidrug-resistant cancer cells and lately identified as an important factor in the pharmacokinetics of its substrates.
X
ABCG2 p.Gln141Lys 19002564:0:120
status: VERIFIED1 Q141K is by far the most intensively studied single nucleotide polymorphism of ABCG2 with potential clinical relevance.
X
ABCG2 p.Gln141Lys 19002564:1:0
status: VERIFIED2 Here we used stably transfected HEK cells to study the Q141K polymorphism together with the deletion of amino acids 315-316, which were recently reported to coexist in two cancer cell lines (A549 and SK-OV-3).
X
ABCG2 p.Gln141Lys 19002564:2:55
status: VERIFIED3 Functional studies confirmed our previous report that when normalized to surface expression, Q141K has impaired transport of mitoxantrone.
X
ABCG2 p.Gln141Lys 19002564:3:93
status: VERIFIED18 The most extensively studied of these SNPs with potential clinical relevance is 421 C [ A resulting in a glutamic acid to lysine substitution (Q141K) in the protein.
X
ABCG2 p.Gln141Lys 19002564:18:143
status: VERIFIED19 The Q141K SNP was identified with varying frequencies in different ethnic groups and was found to be the most prevalent in the Japanese population (*30%).
X
ABCG2 p.Gln141Lys 19002564:19:4
status: VERIFIED20 Q141K has been associated with lower levels of protein expression and impaired transport in vitro, though some controversies exist in the publications characterizing this SNP [13-17].
X
ABCG2 p.Gln141Lys 19002564:20:0
status: VERIFIED22 Further, Q141K was associated with a higher incidence of diarrhea in non-small cell lung cancer patients treated with gefitinib [21].
X
ABCG2 p.Gln141Lys 19002564:22:9
status: VERIFIED23 Sequencing the ABCG2 gene in the 60 cancer cell lines maintained and used for screening in the National Cancer Institute by various groups revealed that ten of the cell lines carried the Q141K polymorphism.
X
ABCG2 p.Gln141Lys 19002564:23:141
status: NEWX
ABCG2 p.Gln141Lys 19002564:23:187
status: VERIFIED26 In the present study, we expanded our previous functional studies on the Q141K SNP [13] using pheophorbide a, a fluorescent compound that was recently reported by our group as an ABCG2-specific substrate [22].
X
ABCG2 p.Gln141Lys 19002564:26:73
status: VERIFIED27 In addition, we examined the effect of the D315-316 variant with or without the Q141K polymorphism on ABCG2 function.
X
ABCG2 p.Gln141Lys 19002564:27:9
status: NEWX
ABCG2 p.Gln141Lys 19002564:27:80
status: VERIFIED30 Mutagenesis and transfection The D315-316 and the Q141K/D315-316 mutants were generated by site-directed mutagenesis in the pcDNA3.1/ Myc-HisA(-) vector (Invitrogen) as previously described [23].
X
ABCG2 p.Gln141Lys 19002564:30:50
status: VERIFIED31 The wild type (R482), Q141K, R482G, and empty vector-transfected (pcDNA) cells were previously reported [13].
X
ABCG2 p.Gln141Lys 19002564:31:22
status: VERIFIEDX
ABCG2 p.Gln141Lys 19002564:31:73
status: NEW51 Once strong inverse correlations were ruled out, then a Kruskal-Wallis test was used to determine if the three clones of particular mutant, or a Wilcoxon rank sum test if 315-316-3 10 0 10 1 10 2 10 3 10 4 FL2-H 0 100 200 300 #Cells 10 0 10 1 10 2 10 3 10 4 FL2-H 0 100 200 300 400 #Cells 10 0 10 1 10 2 10 3 10 4 FL2-H 0 100 200 300 #Cells 10 0 10 1 10 2 10 3 10 4 FL2-H 0 100 200 300 #Cells 10 0 10 1 10 2 10 3 10 4 FL2-H 0 100 200 300 400 #Cells 10 0 10 1 10 2 10 3 10 4 FL2-H 0 100 200 300 400 #Cells 10 0 10 1 10 2 10 3 10 4 FL2-H 0 100 200 300 #Cells 315-316-6 315-316-8 Q141K/ 315-316-5 Q141K/ 315-316-15 Q141K/ 315-316-17 wild type Fig. 1 ABCG2 surface expression in the mutants.
X
ABCG2 p.Gln141Lys 19002564:51:577
status: VERIFIEDX
ABCG2 p.Gln141Lys 19002564:51:594
status: VERIFIEDX
ABCG2 p.Gln141Lys 19002564:51:612
status: VERIFIED52 Flow cytometry with the 5D3 monoclonal antibody recognizing an extracellular epitope of ABCG2 is shown for the wild type and three clones of both mutants (D315-316 and Q141K/D315-316, with clone numbers indicated).
X
ABCG2 p.Gln141Lys 19002564:52:168
status: VERIFIED62 We have previously used the same expression system to study non-synonymous SNPs, such as Q141K, V12M, and D620N, and found that Q141K results in impaired function [13].
X
ABCG2 p.Gln141Lys 19002564:62:89
status: VERIFIEDX
ABCG2 p.Gln141Lys 19002564:62:128
status: VERIFIED63 Given that Q141K and D315-316 were found to coexist in the A549 and SK-OV-3 carcinoma cell lines, we also generated mutants carrying both the deletion and the Q141K SNP (Q141K/D315-316).
X
ABCG2 p.Gln141Lys 19002564:63:11
status: VERIFIEDX
ABCG2 p.Gln141Lys 19002564:63:159
status: VERIFIEDX
ABCG2 p.Gln141Lys 19002564:63:170
status: VERIFIED65 We selected three clones of both the D315-316 and the Q141K/D315-316 mutants that displayed significant levels of surface expression (Fig. 1) and expanded these clones for further studies.
X
ABCG2 p.Gln141Lys 19002564:65:11
status: NEWX
ABCG2 p.Gln141Lys 19002564:65:54
status: VERIFIEDX
ABCG2 p.Gln141Lys 19002564:65:165
status: NEWX
ABCG2 p.Gln141Lys 19002564:65:176
status: NEW66 Crude membranes extracted from the D315-316 and the Q141K/D315-316 clones and from the wild type and Q141K transfectants previously generated in our lab were subjected to immunoblotting with the commercially available BXP-21 monoclonal antibody.
X
ABCG2 p.Gln141Lys 19002564:66:52
status: VERIFIEDX
ABCG2 p.Gln141Lys 19002564:66:101
status: VERIFIED67 Surprisingly, despite sufficient surface expression levels seen on flow cytometry, none of the D315-316 and Q141K/D315-316 clones were detectable on immunoblot with the BXP-21 antibody (Fig. 2), while the wild type and the Q141K mutant clones were readily detected.
X
ABCG2 p.Gln141Lys 19002564:67:60
status: NEWX
ABCG2 p.Gln141Lys 19002564:67:108
status: VERIFIEDX
ABCG2 p.Gln141Lys 19002564:67:223
status: VERIFIED70 To prove this, we used the 405 polyclonal antibody created in our laboratory [24] on the immunoblot previously probed with the BXP-21 antibody and found that with this antibody the D315-316 and the Q141K/D315-316 clones were also detectable, though the 405 antibody gives a weaker signal when compared to BXP-21 (Fig. 2).
X
ABCG2 p.Gln141Lys 19002564:70:198
status: VERIFIED72 72 kDa 72 kDa BXP-21 ab 405 ab wt ∆ 315-316-3,6,8 Q141K/ ∆ 315-316 Q141K-5,8 -5,15,17 Fig. 2 The D315-316 mutant is not detected on immunoblot with the BXP-21 antibody.
X
ABCG2 p.Gln141Lys 19002564:72:57
status: VERIFIEDX
ABCG2 p.Gln141Lys 19002564:72:81
status: VERIFIEDX
ABCG2 p.Gln141Lys 19002564:72:204
status: NEW73 Membrane proteins extracted from HEK 293 cells stably transfected with the wild type (482R) and the mutants (Q141K, D315-316, and Q141K/D315-316) were separated on SDS/PAGE (18 lg/lane), transferred onto a PVDF membrane, and incubated overnight with the mouse monoclonal anti-ABCG2 antibody BXP-21 (upper panel) or the 405 rabbit polyclonal anti-ABCG2 antibody (lower panel).
X
ABCG2 p.Gln141Lys 19002564:73:109
status: VERIFIEDX
ABCG2 p.Gln141Lys 19002564:73:130
status: VERIFIED74 Two clones are shown for the Q141K mutant and three clones for the D315-316 and Q141K/D315-316 mutants, with clone numbers indicated.
X
ABCG2 p.Gln141Lys 19002564:74:29
status: VERIFIEDX
ABCG2 p.Gln141Lys 19002564:74:80
status: VERIFIED79 Efflux is represented by the shift between the histograms with (dashed line) and without (solid line) FTC c wildtype 10 0 10 1 10 2 10 3 10 4 FL2-H 0 100 200 300 #Cells 10 0 10 1 10 2 10 3 10 4 FL2-H 0 100 200 300 400 #Cells 10 0 10 1 10 2 10 3 10 4 FL2-H 0 100 200 300 400 #Cells 10 0 10 1 10 2 10 3 10 4 FL2-H 0 100 200 300 #Cells 10 0 10 1 10 2 10 3 10 4 FL2-H 0 100 200 300 #Cells 5D3 mitoxantrone pheophorbide a 10 0 10 1 10 2 10 3 10 4 FL4-H 0 100 200 300 400 #Cells 10 0 10 1 10 2 10 3 10 4 FL4-H 0 100 200 300 400 500 #Cells 10 0 10 1 10 2 10 3 10 4 FL4-H 0 100 200 300 400 500 #Cells 10 0 10 1 10 2 10 3 10 4 FL4-H 0 100 200 300 400 500 #Cells 10 0 10 1 10 2 10 3 10 4 FL4-H 0 100 200 300 400 #Cells 10 0 10 1 10 2 10 3 10 4 FL4-H 0 100 200 300 400 #Cells 10 0 10 1 10 2 10 3 10 4 FL4-H 0 100 200 300 400 500 #Cells 10 0 10 1 10 2 10 3 10 4 FL4-H 0 100 200 300 400 #Cells 10 0 10 1 10 2 10 3 10 4 FL4-H 0 100 200 300 400 #Cells 10 0 10 1 10 2 10 3 10 4 FL4-H 0 100 200 300 400 #Cells Q141K/315-316-5315-316-6Q141K-8R482G-2 We next utilized a flow cytometry-based assay measuring the efflux of mitoxantrone and pheophorbide a to determine the activity of the mutants.
X
ABCG2 p.Gln141Lys 19002564:79:995
status: VERIFIED83 For the Q141K variant, where a reduced surface expression has been confirmed [13, 16, 17], our previous studies also demonstrated impaired transport when mitoxantrone efflux was normalized to surface expression [13].
X
ABCG2 p.Gln141Lys 19002564:83:8
status: VERIFIED89 Using a Wilcoxon rank sum test, differences with unadjusted P-values \0.05 were found when the wild type was compared to the Q141K and Q141K/D315-316 mutants for both mitoxantrone and pheophorbide a.
X
ABCG2 p.Gln141Lys 19002564:89:104
status: NEWX
ABCG2 p.Gln141Lys 19002564:89:125
status: VERIFIEDX
ABCG2 p.Gln141Lys 19002564:89:135
status: VERIFIED90 In agreement with previous reports, the transport efficacy of the R482G mutant was found to be significantly higher than that of the wild type for mitoxantrone [13].
X
ABCG2 p.Gln141Lys 19002564:90:77
status: NEW91 The average ratio calculated for pheophorbide a for the D315-316 mutant was significantly higher than that for the Q141K and the Q141K/D315-316 mutants.
X
ABCG2 p.Gln141Lys 19002564:91:94
status: NEWX
ABCG2 p.Gln141Lys 19002564:91:115
status: VERIFIEDX
ABCG2 p.Gln141Lys 19002564:91:129
status: VERIFIED92 In summary, the mutant carrying the deletion was similar in transport efficacy to the wild type for both substrates, while any mutant carrying the Q141K was impaired.
X
ABCG2 p.Gln141Lys 19002564:92:147
status: VERIFIEDX
ABCG2 p.Gln141Lys 19002564:92:216
status: NEWX
ABCG2 p.Gln141Lys 19002564:92:257
status: NEW94 Of the numerous SNPs identified so far in the ABCG2 gene, 421 C [ A, resulting in a mutant protein with a glutamine to lysine substitution at residue 141 (Q141K), is the most extensively studied and is suggested to have impaired transport function.
X
ABCG2 p.Gln141Lys 19002564:94:106
status: VERIFIEDX
ABCG2 p.Gln141Lys 19002564:94:155
status: VERIFIED95 Interestingly, some cell lines of the NCI-60 panel were reported to have the Q141K SNP together with a splicing variant resulting in the deletion of amino acids 315 and 316.
X
ABCG2 p.Gln141Lys 19002564:95:77
status: VERIFIED96 Here, we investigated the functional consequences of the 315-316 deletion with/or without the Q141K mutation in stably transfected HEK 293 cells using a flow cytometry-based assay to analyze mitoxantrone and pheophorbide a efflux.
X
ABCG2 p.Gln141Lys 19002564:96:94
status: VERIFIED97 After normalizing the measured efflux values to ABCG2 expression by the 5D3 monoclonal antibody, we have found that the D315-316 mutant has equivalent efflux 0.331 0.289 0.261 0.256 0.520 0.000 0.100 0.200 0.300 0.400 0.500 0.600 0.700 482R Q141K 316 R482G p=0.028 p<0.0001 p=0.0099 Mitoxantroneefflux/5D3antibody n=14 n=15n=23n=23n=22 0.445 0.410 0.263 0.313 0.504 0.000 0.100 0.200 0.300 0.400 0.500 0.600 0.700 482R Q141K 316 R482G p=0.00075 p=0.0000052 p=0.013 p=0.039 Pheophorbideaefflux/5D3antibody n=6 n=10n=14n=15 n=12 A B ∆315-316 Q141K/∆315- ∆315-316 Q141K/∆315- Fig. 4 Efflux normalized to cell surface expression.
X
ABCG2 p.Gln141Lys 19002564:97:241
status: VERIFIEDX
ABCG2 p.Gln141Lys 19002564:97:419
status: VERIFIEDX
ABCG2 p.Gln141Lys 19002564:97:547
status: VERIFIEDX
ABCG2 p.Gln141Lys 19002564:97:582
status: VERIFIED98 The mean FTC-inhibitable mitoxantrone (panel A) and pheophorbide a (panel B) efflux was plotted for the wild type (482R) and each mutant (Q141K, D315-316, aQ141K/D315-316, and R482G).
X
ABCG2 p.Gln141Lys 19002564:98:138
status: VERIFIED102 The numbers above the bars represent the mean values plotted capacity to the wild type, while the double mutant (Q141K/ D315-316) was similar to the Q141K SNP.
X
ABCG2 p.Gln141Lys 19002564:102:115
status: VERIFIEDX
ABCG2 p.Gln141Lys 19002564:102:151
status: VERIFIED103 Additionally, the experiments reconfirmed that the Q141K SNP has significantly impaired function compared to the wild type protein when normalized by surface expression.
X
ABCG2 p.Gln141Lys 19002564:103:51
status: VERIFIED125 In conclusion, the results presented here confirm our previous finding that the clinically relevant, frequently occurring Q141K SNP impairs transport of the chemotherapeutic agent mitoxantrone by ABCG2 [13].
X
ABCG2 p.Gln141Lys 19002564:125:122
status: VERIFIED127 We believe the Q141K mutation results in decreased surface expression due to impaired trafficking of ABCG2 [13], which, combined with impaired transporter function, effects a clinically detectable reduction in transporter function [19].
X
ABCG2 p.Gln141Lys 19002564:127:15
status: VERIFIED24 The Q141K SNP was identified with varying frequencies in different ethnic groups and was found to be the most prevalent in the Japanese population (~30%).
X
ABCG2 p.Gln141Lys 19002564:24:4
status: NEW25 Q141K has been associated with lower levels of protein expression and impaired transport in vitro, though some controversies exist in the publications characterizing this SNP [13-17].
X
ABCG2 p.Gln141Lys 19002564:25:0
status: NEW28 Sequencing the ABCG2 gene in the 60 cancer cell lines maintained and used for screening in the National Cancer Institute by various groups revealed that ten of the cell lines carried the Q141K polymorphism.
X
ABCG2 p.Gln141Lys 19002564:28:187
status: NEW32 In addition, we examined the effect of the Δ315-316 variant with or without the Q141K polymorphism on ABCG2 function.
X
ABCG2 p.Gln141Lys 19002564:32:86
status: NEW35 Mutagenesis and transfection The Δ315-316 and the Q141K/D315-316 mutants were generated by site-directed mutagenesis in the pcDNA3.1/Myc-HisA(-) vector (Invitrogen) as previously described [23].
X
ABCG2 p.Gln141Lys 19002564:35:56
status: NEW36 The wild type (R482), Q141K, R482G, and empty vector-transfected (pcDNA) cells were previously reported [13].
X
ABCG2 p.Gln141Lys 19002564:36:22
status: NEW64 We have previously used the same expression system to study non-synonymous SNPs, such as Q141K, V12M, and D620N, and found that Q141K results in impaired function [13].
X
ABCG2 p.Gln141Lys 19002564:64:89
status: NEWX
ABCG2 p.Gln141Lys 19002564:64:128
status: NEW68 Crude membranes extracted from the Δ315-316 and the Q141K/Δ315-316 clones and from the wild type and Q141K transfectants previously generated in our lab were subjected to immunoblotting with the commercially available BXP-21 monoclonal antibody.
X
ABCG2 p.Gln141Lys 19002564:68:58
status: NEWX
ABCG2 p.Gln141Lys 19002564:68:113
status: NEW69 Surprisingly, despite sufficient surface expression levels seen on flow cytometry, none of the Δ315-316 and Q141K/Δ315-316 clones were detectable on immunoblot with the BXP-21 antibody (Fig. 2), while the wild type and the Q141K mutant clones were readily detected.
X
ABCG2 p.Gln141Lys 19002564:69:114
status: NEWX
ABCG2 p.Gln141Lys 19002564:69:235
status: NEW78 For the Q141K variant, where a reduced surface expression has been confirmed [13,16,17], our previous studies also demonstrated impaired transport when mitoxantrone efflux was normalized to surface expression [13].
X
ABCG2 p.Gln141Lys 19002564:78:8
status: NEW84 Using a Wilcoxon rank sum test, differences with unadjusted P-values <0.05 were found when the wild type was compared to the Q141K and Q141K/Δ315-316 mutants for both mitoxantrone and pheophorbide a.
X
ABCG2 p.Gln141Lys 19002564:84:125
status: NEWX
ABCG2 p.Gln141Lys 19002564:84:135
status: NEW86 The average ratio calculated for pheophorbide a for the Δ315-316 mutant was significantly higher than that for the Q141K and the Q141K/Δ315-316 mutants.
X
ABCG2 p.Gln141Lys 19002564:86:121
status: NEWX
ABCG2 p.Gln141Lys 19002564:86:135
status: NEW87 In summary, the mutant carrying the deletion was similar in transport efficacy to the wild type for both substrates, while any mutant carrying the Q141K was impaired.
X
ABCG2 p.Gln141Lys 19002564:87:147
status: NEW93 Additionally, the experiments reconfirmed that the Q141K SNP has significantly impaired function compared to the wild type protein when normalized by surface expression.
X
ABCG2 p.Gln141Lys 19002564:93:51
status: NEW115 In conclusion, the results presented here confirm our previous finding that the clinically relevant, frequently occurring Q141K SNP impairs transport of the chemotherapeutic agent mitoxantrone by ABCG2 [13].
X
ABCG2 p.Gln141Lys 19002564:115:122
status: NEW117 We believe the Q141K mutation results in decreased surface expression due to impaired trafficking of ABCG2 [13], which, combined with impaired transporter function, effects a clinically detectable reduction in transporter function [19].
X
ABCG2 p.Gln141Lys 19002564:117:15
status: NEW
PMID: 19032367
[PubMed]
Kim IS et al: "ABCG2 Q141K polymorphism is associated with chemotherapy-induced diarrhea in patients with diffuse large B-cell lymphoma who received frontline rituximab plus cyclophosphamide/doxorubicin/vincristine/prednisone chemotherapy."
No.
Sentence
Comment
1
12 | 2496-2501 doi: 10.1111/j.1349-7006.2008.00985.x (c) 2008 Japanese Cancer Association Blackwell Publishing Asia ABCG2 Q141K polymorphism is associated with chemotherapy-induced diarrhea in patients with diffuse large B-cell lymphoma who received frontline rituximab plus cyclophosphamide/doxorubicin/ vincristine/prednisone chemotherapy In-Suk Kim,1,8 Hoon-Gu Kim,2,8 Dong Chul Kim,3 Hyeon-Seok Eom,4 Sun-Young Kong,5 Ho-Jin Shin,6 Sang-Hyun Hwang,7 Eun-Yup Lee7 and Gyeong-Won Lee2,9 1 Department of Laboratory Medicine; 2 Division of Hematology-Oncology, Department of Internal Medicine and 3 Department of Pathology, Gyeongsang National University Hospital, 90 Chilam-dong, Jinju 660-702; 4 Division of Hematology-Oncology, Department of Internal Medicine and 5 Department of Laboratory Medicine, Research Institute and Hospital, National Center, 809 Madu-dong, Ilsan-gu, Goyang-si, Gyeonggi-do 410-769; 6 Division of Hematology-Oncology, Department of Internal Medicine, and 7 Department of Laboratory Medicine, School of Medicine Pusan National University, 1-ga 10, Ami-dong, Seo-gu, Busan 602-739, Korea (Received June 27, 2008/Revised July 30, 2008; August 12, 2008/Accepted August 14, 2008/Online publication November 20, 2008) ATP-binding cassette transporter G2 (ABCG2) is the most recently described transporter of the multidrug-resistance pump and it promotes resistance to anticancer drugs such as doxorubicin, mitoxantrone, topotecan, and SN-38.
X
ABCG2 p.Gln141Lys 19032367:1:122
status: VERIFIED2 Of the ABCG2 polymorphisms, V12M and Q141K alter the functional activity of the ABCG2 transporter and influence the drug response and various toxicities to chemotherapeutic agents.
X
ABCG2 p.Gln141Lys 19032367:2:37
status: VERIFIED3 We therefore evaluated the impact of the ABCG2 V12M and Q141K polymorphisms on the therapeutic outcomes and toxicities of primary rituximab plus cyclophosphamide/doxorubicin/vincristine/prednisone (R-CHOP) therapy in 145 Korean patients with diffuse large B-cell lymphoma (DLBCL).
X
ABCG2 p.Gln141Lys 19032367:3:56
status: VERIFIED4 ABCG2 V12M and Q141K genotyping was carried out by pyrosequencing of polymerase chain reaction products.
X
ABCG2 p.Gln141Lys 19032367:4:15
status: VERIFIED5 The clinical characteristics, treatment outcomes, toxicities of the patients, and the predictive value of the polymorphisms on response, survival, and adverse events to R-CHOP for 145 patients were analyzed according to the ABCG2 V12M and Q141K polymorphisms. No differences were observed according to ABCG2 Q141K and V12M genotype in patient characteristics, disease characteristics, response, survival, or hematology toxicity profiles in patients with DLBCL who received frontline R-CHOP chemotherapy.
X
ABCG2 p.Gln141Lys 19032367:5:239
status: VERIFIEDX
ABCG2 p.Gln141Lys 19032367:5:308
status: VERIFIED6 On multivariate analysis, grade I-IV diarrhea was statistically significant according to ABCG2 Q141K polymorphism (the QQ genotype vs the QK or KK genotypes; hazard ratio 2.835; 95% confidence interval 1.432-5.613; P = 0.003).
X
ABCG2 p.Gln141Lys 19032367:6:95
status: VERIFIED7 This study demonstrates that the ABCG2 Q141K polymorphism may correlate with chemotherapy-induced diarrhea in patients with DLBCL who have received frontline R-CHOP chemotherapy, and this has implications for optimizing treatment with such agents.
X
ABCG2 p.Gln141Lys 19032367:7:39
status: VERIFIED15 (7-11) In particular, two non-synonymous polymorphisms, c.34G>A (p.Val12Met, V12M) and c.421C>A (p.Gln141Lys, Q141K), have been detected at relatively high frequencies in most ethnic groups, including Asians, Caucasians, and Africans.
X
ABCG2 p.Gln141Lys 19032367:15:99
status: VERIFIEDX
ABCG2 p.Gln141Lys 19032367:15:110
status: VERIFIED17 (15) A recently published study found that the ABCG2 V12M and Q141K polymorphisms are associated with susceptibility to and survival from DLBCL.
X
ABCG2 p.Gln141Lys 19032367:17:62
status: VERIFIED18 (16) In the present study, we evaluated the impact of the ABCG2 Q141K and V12M polymorphisms on the therapeutic outcomes and adverse reactions of primary R-CHOP therapy in 145 patients with DLBCL, including treatment response, overall survival (OS) and event-free survival (EFS), hematological toxicities, and non-hematological toxicities.
X
ABCG2 p.Gln141Lys 19032367:18:64
status: VERIFIED35 ABCG2 Q141K and V12M genotyping was carried out by pyrosequencing of the polymerase chain reaction (PCR) products from the ABCG2 gene to determine the presence of the Q141K and V12M polymorphisms.
X
ABCG2 p.Gln141Lys 19032367:35:6
status: VERIFIEDX
ABCG2 p.Gln141Lys 19032367:35:167
status: VERIFIED39 Patient characteristics and treatment outcomes according to the ABCG2 Q141K and V12M polymorphisms ABCG2 Q141K P-value ABCG2 V12M P-value QQ QK KK VV VM MM No. patients (%) 67 (46.2%) 69 (47.6%) 9 (6.2%) 71 (49.0%) 63 (43.4%) 11 (7.6%) Sex (no.
X
ABCG2 p.Gln141Lys 19032367:39:70
status: VERIFIEDX
ABCG2 p.Gln141Lys 19032367:39:105
status: VERIFIED43 Sequences and information of primers used for pyrosequencing Name Primer sequence (5' to 3') Size (bp) Polymerase chain reaction (Tm; °C) ABCG2 V12M F: CTCTCCAGATGTCTTCCAGTAATG 110 59 R: Biotin-TCCTTCAGTAAATGCCTTCAGGT S: TCGAAGTTTTTATCCCA ABCG2 Q141K F: Biotin-ACTGCAGGTTCATCATTAGCTAGA 238 60 R: CCGTTCGTTTTTTTCATGATTC S: CGAAGAGCTGCTGAGAA F, forward; R, reverse; S, sequencing; Tm, melting temperature.
X
ABCG2 p.Gln141Lys 19032367:43:250
status: VERIFIED55 The primary objective of the current study was to correlate the ABCG2 Q141K and V12M polymorphisms with the response and survival outcomes, including OS and EFS to R-CHOP therapy.
X
ABCG2 p.Gln141Lys 19032367:55:70
status: VERIFIED56 The secondary objectives were to correlate the ABCG2 Q141K and V12M polymorphisms with the hematological and non- hemtological toxicities of R-CHOP therapy.
X
ABCG2 p.Gln141Lys 19032367:56:53
status: VERIFIED57 The clinical characteristics, treatment outcomes, and toxicities of the patients were compared using χ2 -tests, Fisher`s exact tests, or Mann-Whitney U-tests according to the ABCG2 Q141K and V12M polymorphisms.
X
ABCG2 p.Gln141Lys 19032367:57:187
status: VERIFIED58 Logistic regression analysis was conducted to determine the predictive value of the polymorphisms on response and adverse reaction to R-CHOP for the 145 patients who had available both the ABCG2 Q141K and V12M polymorphism data.
X
ABCG2 p.Gln141Lys 19032367:58:195
status: VERIFIED59 The variables included stage (stages 1 and 2 vs 3 and 4), IPI score (0-2 vs 3-5), age (<60 vs ≥60 years), performance status (Eastern Cooperative Oncology Group [ECOG] 0 and 1 vs ≥2), lactate dehydrogenase level (normal vs beyond normal range), extranodal involvement (≤1 vs ≥2 sites), B symptoms (absence vs presence), hematological toxicity (grade 0-II vs III-IV or grade 0 vs grade I-IV), non-hematological toxicity (grade 0-II vs III-IV or grade 0 vs grade I-IV), and ABCG2 Q141K (QQ, QK, and KK) and ABCG2 V12M (VV, VM, and MM) genotypes.
X
ABCG2 p.Gln141Lys 19032367:59:506
status: VERIFIED66 Results Frequency of ABCG2 Q141K and V12M polymorphisms.
X
ABCG2 p.Gln141Lys 19032367:66:27
status: VERIFIED67 In the frontline R-CHOP therapy group, the distribution of the QQ, QK, and KK genotypes of the ABCG2 Q141K polymorphism was 46.2, 47.6, and 6.2%, respectively (Table 1).
X
ABCG2 p.Gln141Lys 19032367:67:101
status: VERIFIED70 Patient characteristics according to the ABCG2 Q141K and V12M polymorphisms.
X
ABCG2 p.Gln141Lys 19032367:70:47
status: VERIFIED72 In brief, no differences in the patient and disease characteristics were observed according to the ABCG2 Q141K and V12M polymorphisms.
X
ABCG2 p.Gln141Lys 19032367:72:105
status: VERIFIED73 Response to frontline R-CHOP therapy according to the ABCG2 Q141K and V12M polymorphisms.
X
ABCG2 p.Gln141Lys 19032367:73:60
status: VERIFIED75 As shown in Table 1, no significant difference in the response rate or the ORR was observed according to the ABCG2 Q141K and V12M polymorphisms. No statistically significant difference in the response rate or ORR was observed according to the ABCG2 Q141K and V12M polymorphisms.
X
ABCG2 p.Gln141Lys 19032367:75:115
status: VERIFIEDX
ABCG2 p.Gln141Lys 19032367:75:249
status: VERIFIED76 Survival analysis according to the ABCG2 Q141K and V12M polymorphisms.
X
ABCG2 p.Gln141Lys 19032367:76:41
status: VERIFIED79 When comparing OS and EFS according to the ABCG2 Q141K and V12M polymorphisms, neither the Q141K nor V12M polymorphisms had any impact on OS or EFS (Fig. 1).
X
ABCG2 p.Gln141Lys 19032367:79:49
status: VERIFIEDX
ABCG2 p.Gln141Lys 19032367:79:91
status: VERIFIED80 Side effects according to the ABCG2 Q141K and V12M polymorphisms.
X
ABCG2 p.Gln141Lys 19032367:80:36
status: VERIFIED82 No significant differences of such hematological toxicities as anemia, leukocytopenia, neutropenia, and thrombocytopenia were observed according to the ABCG2 Q141K and V12M alleles.
X
ABCG2 p.Gln141Lys 19032367:82:158
status: VERIFIED83 Among the severe non-hematological side effects (grade III-IV), fever, mucositis, infection, and diarrhea were observed more frequently in the patients with the non-QQ alleles of the ABCG Q141K polymorphisms.
X
ABCG2 p.Gln141Lys 19032367:83:188
status: VERIFIED84 Of them, fever and infection were statistically significant according to the ABCG2 Q141K polymorphism (QQ vs QK or KK genotype; P = 0.037 and 0.046, respectively).
X
ABCG2 p.Gln141Lys 19032367:84:83
status: VERIFIED85 When considering the presence of toxicity (grade I-IV), regardless of severity, differences for fever (P = 0.007) and diarrhea (P = 0.002) in the non-hematological toxicity profiles were noted and these were statistically significant according to the ABCG2 Q141K polymorphism (Table 4).
X
ABCG2 p.Gln141Lys 19032367:85:257
status: VERIFIED86 On multivariate analysis, grade I-IV diarrhea was the statistically significant factor according to the ABCG2 Q141K polymorphism (HR 2.835; 95% CI 1.432-5.613; P = 0.003).
X
ABCG2 p.Gln141Lys 19032367:86:110
status: VERIFIED87 Discussion Among several naturally occurring ABCG2 polymorphisms, V12M in exon 2 and Q141K in exon 5 occur in most racial groups, but they occur with a higher allellic frequency in Asians.
X
ABCG2 p.Gln141Lys 19032367:87:85
status: VERIFIED88 In the present study, the frequencies of two polymorphisms, V12M and Q141K, were 0.293 and 0.300, respectively, and these values were comparable to those reported in the literature for Asians (0.230-0.241 and 0.150-0.360, respectively).
X
ABCG2 p.Gln141Lys 19032367:88:69
status: VERIFIED89 (8,10,16,19-21) When the frequencies of the present study were compared with those reported in the literature for Asian populations, the frequencies of Q141K in these Korean DLBCL patients and the Asian healthy controls, including Korean, Chinese, and Malaysian, were statistically insignificant using the χ2 -test (Table 5).
X
ABCG2 p.Gln141Lys 19032367:89:152
status: VERIFIED90 (8,10,16,19) Unlike a previous study that reported that ABCG2 Q141K is a candidate susceptibility gene in Chinese DLBCL patients,(16) our findings suggest the ABCG2 Q141K polymorphism may not be associated with an increased risk of DLBCL in Koreans.
X
ABCG2 p.Gln141Lys 19032367:90:62
status: VERIFIEDX
ABCG2 p.Gln141Lys 19032367:90:165
status: VERIFIED92 The present study demonstrated that the ABCG2 Q141K and V12M polymorphisms were not predictive of the response, OS, or EFS to R-CHOP chemotherapy in patients with DLBCL.
X
ABCG2 p.Gln141Lys 19032367:92:46
status: VERIFIED93 No association of the ABCG2 Q141K and V12M polymorphisms with response and survival was noted in the present study for the following reasons: (1) the relatively small number of patients; (2) the relatively short period of follow up may not have been enough to see a significant difference in survival; and (3) other unknown chemoresistance mechanisms are probably important in the mechanism of R-CHOP action, and this would be expected to affect the response and survival of DLBCL patients.
X
ABCG2 p.Gln141Lys 19032367:93:28
status: VERIFIED95 Several groups have reported that the Q141K genotype is associated with altered pharmacokinetic parameters of some ABCG2 substrates.
X
ABCG2 p.Gln141Lys 19032367:95:38
status: VERIFIED96 (8,15,22) Notably, the Q141K genotype has the signature of recent positive selection and it is the strongest in the Asian population,(23) suggesting that there is some advantageous property for this genotype.
X
ABCG2 p.Gln141Lys 19032367:96:23
status: VERIFIED97 The Q141K polymorphism has been associated with lower expression and activity of ABCG2 and with higher accumulation of ABCG2 substrates.
X
ABCG2 p.Gln141Lys 19032367:97:4
status: VERIFIED98 (24) On univariate analysis, the present study showed statistically significant results for non-hematological toxicity such as grade I-IV diarrhea, grade I-IV fever, grade III-IV fever, and grade III-IV infection, according to ABCG2 Q141K polymorphism (QQ genotype vs non-QQ genotype, P = 0.002, 0.007, 0.037, and 0.046, respectively).
X
ABCG2 p.Gln141Lys 19032367:98:233
status: VERIFIED99 On multivariate analysis, the present study demonstrated that the ABCG2 Q141K polymorphism was associated with grade I-IV diarrhea (P = 0.003), just like a previous report for which the ABCG2 Q141K polymorphism was associated with diarrhea in gefitinib-treated patients with non-small cell cancer.
X
ABCG2 p.Gln141Lys 19032367:99:72
status: VERIFIEDX
ABCG2 p.Gln141Lys 19032367:99:192
status: VERIFIED101 Survival curve after frontline rituximab plus cyclophosphamide-doxorubicin-vincristine-prednisone (R-CHOP) therapy according to the ABCG2 Q141K genotype.
X
ABCG2 p.Gln141Lys 19032367:101:138
status: VERIFIED103 Hematological and non-hematological toxicity outcomes according to the ABCG2 Q141K and V12M polymorphisms (grade 0-II vs grade III-IV) ABCG2 Q141K P-value ABCG2 V12M P-value QQ QK or KK VV VM or MM No. patients (%) 67 (46.2%) 78 (53.8%) 71 (49.0%) 74 (51.0%) Grade III-IV, n (%) Anemia 9 (13.4%) 9 (11.5%) 0.730 10 (14.1%) 8 (10.8%) 0.550 Leukocytopenia 29 (43.3%) 32 (41.0%) 0.784 33 (46.5%) 28 (37.8%) 0.292 Neutropenia 38 (56.7%) 39 (50.0%) 0.419 38 (53.5%) 39 (52.7%) 0.921 Thrombocytopenia 4 (6.0%) 11 (14.1%) 0.109 9 (12.7%) 6 (8.1%) 0.367 Grade III-IV, n (%) Fever 8 (11.9%) 20 (25.6%) 0.037 16 (22.5%) 12 (16.2%) 0.335 Mucostis 11 (16.4%) 22 (28.2%) 0.091 19 (26.8%) 14 (18.9%) 0.260 Infection 9 (13.4%) 21 (27.5%) 0.046 13 (18.3%) 17 (23.0%) 0.488 Nausea and vomiting 2 (3.0%) 5 (6.4%) 0.337 3 (4.2%) 4 (5.4%) 0.740 Diarrhea 2 (3.0%) 9 (11.5%) 0.052 4 (5.6%) 7 (9.5%) 0.384 Alopecia 27 (40.3%) 38 (48.7%) 0.309 32 (45.1%) 33 (44.6%) 0.954 Neurotoxicity 2 (3.0%) 4 (5.1%) 0.518 3 (4.2%) 3 (4.1%) 0.959 Bold and italic values significant at P < 0.05.
X
ABCG2 p.Gln141Lys 19032367:103:77
status: VERIFIEDX
ABCG2 p.Gln141Lys 19032367:103:141
status: VERIFIED105 Non-hematological toxicity outcomes according to ABCG2 Q141K genotype (grade 0 vs grade I-IV) ABCG2 Q141K P-value QQ QK or KK No. patients, n (%) 67 (46.2%) 78 (53.8%) Grade I-IV, n (%) Fever 18 (26.9%) 38 (48.7%) 0.007 Mucositis 43 (64.2%) 50 (64.1%) 0.992 Infection 24 (35.8%) 40 (51.3%) 0.062 Diarrhea 21 (31.3%) 44 (56.4%) 0.002 Bold and italic values significant at P < 0.05. is one of the most common side effects of chemotherapy.
X
ABCG2 p.Gln141Lys 19032367:105:55
status: VERIFIEDX
ABCG2 p.Gln141Lys 19032367:105:100
status: VERIFIED110 Therefore, the present study demonstrates the necessity of study for determining the association between ABCG2 Q141K polymorphism and adverse reactions to chemotherapy.
X
ABCG2 p.Gln141Lys 19032367:110:111
status: VERIFIED114 The mechanism underlying the functional impact of the ABCG2 Q141K amino acid change is not entirely known, but it is most likely associated with reduced protein levels and altered ATPase activity.
X
ABCG2 p.Gln141Lys 19032367:114:60
status: VERIFIED115 (15) The association we observed between ABCG2 Q141K genotype status and observed clinical adverse reactions such as diarrhea, infection, and fever may reflect a role for this transporter in the metabolism and elimination pathways of R-CHOP, especially doxorubicin.
X
ABCG2 p.Gln141Lys 19032367:115:47
status: VERIFIED116 In summary, the present study demonstrates that the ABCG2 Q141K polymorphism is associated with chemotherapy-induced diarrhea in patients with DLBCL who have received frontline R-CHOP chemotherapy.
X
ABCG2 p.Gln141Lys 19032367:116:58
status: VERIFIED
PMID: 19059384
[PubMed]
Shi Z et al: "Inhibiting the function of ABCB1 and ABCG2 by the EGFR tyrosine kinase inhibitor AG1478."
No.
Sentence
Comment
261
Recently, one common functional single-nucleotide polymorphism of ABCG2 Q141K (421C !
X
ABCG2 p.Gln141Lys 19059384:261:72
status: NEW
PMID: 19105722
[PubMed]
Yue W et al: "Knocking down breast cancer resistance protein (Bcrp) by adenoviral vector-mediated RNA interference (RNAi) in sandwich-cultured rat hepatocytes: a novel tool to assess the contribution of Bcrp to drug biliary excretion."
No.
Sentence
Comment
14
For example, the single-nucleotide polymorphism in ABCG2 C421A (Q141K) is associated with * Corresponding author.
X
ABCG2 p.Gln141Lys 19105722:14:64
status: NEW40 (4) Imai, Y.; Nakane, M.; Kage, K.; Tsukahara, S.; Ishikawa, E.; Tsuruo, T.; Miki, Y.; Sugimoto, Y. C421A Polymorphism in the Human Breast Cancer Resistance Protein Gene Is Associated with Low Expression of Q141K Protein and Low-Level Drug Resistance.
X
ABCG2 p.Gln141Lys 19105722:40:207
status: NEW
PMID: 19111841
[PubMed]
Noguchi K et al: "Functions of the breast cancer resistance protein (BCRP/ABCG2) in chemotherapy."
No.
Sentence
Comment
173
C421A (Q141K) BCRP SNP .
X
ABCG2 p.Gln141Lys 19111841:173:7
status: VERIFIED847 C421A (Q141K) BCRP SNP In a previous study, we screened for BCRP SNPs among a population of Japanese individuals and in human cancer cell lines where we identified three variant BCRP cDNAs harboring the following substitutions: G34A (V12M), C421A (Q141K) and an amino acid deletion of residues 944-949 that lacks Ala-315 and Thr-316 (Δ315-6) [54].
X
ABCG2 p.Gln141Lys 19111841:847:7
status: VERIFIEDX
ABCG2 p.Gln141Lys 19111841:847:248
status: VERIFIED848 The G34A and C421A variations were determined to be SNPs, and we have subsequently determined that the C421A BCRP-transfected murine fibroblast PA317 (PA/Q141K) cells show lower exogenous BCRP protein levels than the wild-type BCRP-transfected cells [54].
X
ABCG2 p.Gln141Lys 19111841:848:154
status: VERIFIED849 The intracellular topotecan accumulation in PA/Q141K cells was also found to be higher compared with other BCRP transfectants, indicating that the C421A (Q141K) SNP influences BCRP function.
X
ABCG2 p.Gln141Lys 19111841:849:47
status: VERIFIEDX
ABCG2 p.Gln141Lys 19111841:849:154
status: VERIFIED851 Regarding the Q141K BCRP SNP, there are conflicting reports on its effects upon expression levels, localization, and functionality [38,54,56-58].
X
ABCG2 p.Gln141Lys 19111841:851:14
status: VERIFIED852 Additional studies will be required to clarify the mechanism by which the Q141K mutation reduces the protein expression levels of BCRP.
X
ABCG2 p.Gln141Lys 19111841:852:74
status: VERIFIED874 Among these SNPs, with the exception of C376T and C421A, only a few have been studied Table 1 Identified SNPs within the BCRP gene Variation Effect Domain A-1379G - Δ-654/-651 - G-286C - T-476C - Δ-235A - A-113G - A-29G - G34A V12M N-terminal T114C No change N-terminal G151T G51C N-terminal C369T No change NBD C376T Q126stop NBD C421A Q141K NBD C458T T153M NBD C474T No change NBD C496G Q166E NBD A564G No change NBD A616C I206L NBD T623C F208S NBD T742C S248P Linker G1000T E334stop Linker G1098A No change Linker T1291C F431L TMD A1425G No change TMD T1465C F489L TMD A1768T N590Y TMD G1858A D620N TMD G2237T - G2393T - NBD, nucleotide-binding domain; TMD, transmembrane domain.
X
ABCG2 p.Gln141Lys 19111841:874:349
status: VERIFIED920 BCRP is also expressed in the intestinal epithelial cells, and Cusatis et al. [92] demonstrated that diarrhea, an adverse event related to oral gefitinib administration, is linked to genetic polymorphisms of BCRP, most notably C421A (Q141K).
X
ABCG2 p.Gln141Lys 19111841:920:234
status: VERIFIED
PMID: 19111842
[PubMed]
Wakabayashi-Nakao K et al: "Quality control of human ABCG2 protein in the endoplasmic reticulum: ubiquitination and proteasomal degradation."
No.
Sentence
Comment
813
Furthermore, certain non-synonymous single nucleotide polymorphisms (SNPs), such as Q141K, F208S, and S441N, were also found to greatly affect the stability of ABCG2 in the endoplasmic reticulum (ER) and to enhance the protein degradation rate via ubiquitination and proteasomal proteolysis [9a,b].
X
ABCG2 p.Gln141Lys 19111842:813:84
status: NEW938 The most extensively studied among those SNPs with potential clinical relevance is 421 CNA resulting in a glutamic acid to lysine substitution (Q141K) in the ABCG2 protein.
X
ABCG2 p.Gln141Lys 19111842:938:144
status: NEW939 The Q141K SNP has been identified with varying frequencies in different ethnic groups and was found to be the most relevant in Japanese and Chinese populations (approximately 30% in the allele frequency) [37].
X
ABCG2 p.Gln141Lys 19111842:939:4
status: NEW940 Q141K has been associated with lower levels of protein expression and impaired transport in vitro [34,43,46-49].
X
ABCG2 p.Gln141Lys 19111842:940:0
status: NEW942 Furthermore, the Q141K SNP was reportedly Fig. 3. Schematic illustration of the stable expression of ABCG2 in Flp-In-293 cells.
X
ABCG2 p.Gln141Lys 19111842:942:17
status: NEW948 It has been hypothesized that the reduced expression levels of the Q141K variant may be due to its ubiquitin-mediated proteasomal degradation.
X
ABCG2 p.Gln141Lys 19111842:948:67
status: NEW
PMID: 19135105
[PubMed]
Hegedus C et al: "Ins and outs of the ABCG2 multidrug transporter: an update on in vitro functional assays."
No.
Sentence
Comment
983
C421A, resulting in the Q141K amino acid change, has been examined most extensively, due to its high frequency in Asian and Caucasian populations [27,28].
X
ABCG2 p.Gln141Lys 19135105:983:24
status: VERIFIED
No.
Sentence
Comment
1282
Of these, the nonsynonymous 421CNA single nucleotide polymorphism (SNP) that results in a glycine to lysine (Q141K) amino acid change has been studied most extensively.
X
ABCG2 p.Gln141Lys 19135109:1282:109
status: VERIFIED1283 The Q141K SNP has been linked to decreased plasma membrane expression of ABCG2, decreased drug transport or reduced ATPase activity [138-141].
X
ABCG2 p.Gln141Lys 19135109:1283:4
status: VERIFIED1284 Some small studies have shown that the Q141K SNP alters the pharmacokinetics of chemotherapeutic agents such as topotecan, diflomotecan, and 9-aminocamptothecin [142-144].
X
ABCG2 p.Gln141Lys 19135109:1284:39
status: VERIFIED1286 Thus, the Q141K SNP maylead to higher drug toxicity in some patient populations.
X
ABCG2 p.Gln141Lys 19135109:1286:10
status: VERIFIED1336 The Q141K SNP offers the possibility to do similar studies with ABCG2.
X
ABCG2 p.Gln141Lys 19135109:1336:4
status: VERIFIED
PMID: 19200005
[PubMed]
Porcelli L et al: "Intracellular trafficking of MDR transporters and relevance of SNPs."
No.
Sentence
Comment
139
The most studied ABCG2 polymorphism is the nonsynonymous SNP C421A, which results in a glutamine to lysine amino acid change at position 141 (Q141K).
X
ABCG2 p.Gln141Lys 19200005:139:142
status: VERIFIED142 PA317 cells transfected with the ABCG2 C421A variant (PA/Q141K) had markedly decreased ABCG2 protein expression, compared with the wild-type ABCG2-transfected cells (PA/WT), despite similar levels of ABCG2 mRNA.
X
ABCG2 p.Gln141Lys 19200005:142:57
status: VERIFIED143 Additionally, PA/Q141K cells were 2-3 fold more sensitive to SN-38, mitoxantrone and topotecan compared with PA/WT.
X
ABCG2 p.Gln141Lys 19200005:143:17
status: VERIFIED144 Nonetheless, cross-resistance patterns were similar for the wild-type and the Q141K ABCG2 variant, suggesting that this polymorphism does not affect substrate recognition of ABCG2 [96].
X
ABCG2 p.Gln141Lys 19200005:144:78
status: VERIFIED148 [98] reported that the protein expression level of the Q141K variant was approximately half that of the wild-type ABCG2 in Flp-In- Table 1.
X
ABCG2 p.Gln141Lys 19200005:148:55
status: VERIFIED149 Polymorphisms and Mutations Affecting the Cellular Localization of MDR Transporters Transporter Variant Amino-acid Change Localization References Intracellular + plasma membrane [99] C421A Q141K Plasma membrane [97, 98, 101] Intracellular + plasma membrane [98, 101] G34A V12M Plasma membrane [97, 99] ABCG2 G1322A S441N Intracellular [97, 98] ABCC1 G128C C43S Intracellular + plasma membrane [116] 4175-4180del RM1392-1393del Intracellular (ER) [118] C2302T R768W Intracellular (ER) [119] A3517T I1173F Intracellular (ER) [120, 121] C2366T S789F Intracellular + plasma membrane [122] ABCC2 G4348A A1459T Intracellular + plasma membrane [122] 293 transfected cells.
X
ABCG2 p.Gln141Lys 19200005:149:189
status: VERIFIED150 Additionally, Q141K-expressing cells were more sensitive to SN-38 and mitoxantrone compared with wild-type-expressing cells, but they were more resistant to doxorubicin and daunorubicin.
X
ABCG2 p.Gln141Lys 19200005:150:14
status: VERIFIED152 [96], suggesting that the substrate specificity of the Q141K variant slightly differs from that of wild-type ABCG2.
X
ABCG2 p.Gln141Lys 19200005:152:55
status: VERIFIED154 [99] did not observe decreased expression of ABCG2 in HEK-293 cells transfected with Q141K ABCG2 compared with cells transfected with wild-type ABCG2.
X
ABCG2 p.Gln141Lys 19200005:154:85
status: VERIFIED156 [100] did not find a correlation between the Q141K SNP and the level of expression of ABCG2.
X
ABCG2 p.Gln141Lys 19200005:156:45
status: VERIFIED157 Despite similar levels of ABCG2 protein expression, Q141K-expressing HEK-293 cells were 1.2 to 5-fold more sensitive to mitoxantrone, topotecan, SN-38 and diflomotecan than cells transfected with wild-type ABCG2 [99].
X
ABCG2 p.Gln141Lys 19200005:157:52
status: VERIFIED158 Of note, basal ATPase activity was 1.8-fold lower in membrane protein isolated from Sf9 insect cells infected with recombinant baculoviruses containing full-length Q141K ABCG2 compared to protein from cells expressing wild-type ABCG2 [99].
X
ABCG2 p.Gln141Lys 19200005:158:164
status: VERIFIED160 [101] who reported that the ATPase activity of Q141K ABCG2 was 1.3-fold lower than wild-type ABCG2 in the Sf9 system.
X
ABCG2 p.Gln141Lys 19200005:160:47
status: VERIFIED163 [99] reported that HEK-293 cells expressing the Q141K variant displayed high intra-cellular ABCG2 staining, as well as cell surface staining.
X
ABCG2 p.Gln141Lys 19200005:163:48
status: VERIFIED165 These results suggested an impaired membrane trafficking or incorrect membrane insertion of Q141K ABCG2 [99], but they were not confirmed by others [97,98,101] who showed that both the wild-type and Q141K ABCG2 were localized in the cell surface.
X
ABCG2 p.Gln141Lys 19200005:165:92
status: VERIFIEDX
ABCG2 p.Gln141Lys 19200005:165:199
status: VERIFIED195 Additionally, the expression levels of S441N ABCG2 were much lower than the wild-type ABCG2 and also lower than the Q141K [97].
X
ABCG2 p.Gln141Lys 19200005:195:116
status: VERIFIED217 From these studies it is clear that only the S441N and, possibly, the V12M and Q141K variants might affect ABCG2 localization within the cell.
X
ABCG2 p.Gln141Lys 19200005:217:79
status: VERIFIED
PMID: 19474787
[PubMed]
Keskitalo JE et al: "ABCG2 polymorphism markedly affects the pharmacokinetics of atorvastatin and rosuvastatin."
No.
Sentence
Comment
187
et al. C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low‑level drug resistance.
X
ABCG2 p.Gln141Lys 19474787:187:114
status: NEW18 The c.421C>A SNP (rs2231142), resulting in an amino acid change p.Gln141Lys, is one of the best-characterized sequence variations in the ABCG2 gene.
X
ABCG2 p.Gln141Lys 19474787:18:66
status: NEW22 this SNP affects ABCG2 function; some studies have suggested that it reduces ABCG2 expression,11,14-16 and other studies have suggested that it reduces the ATPase activity of ABCG2.12,17 However, the p.Gln141Lys variant is located within the cell apart from the ATP-binding region.
X
ABCG2 p.Gln141Lys 19474787:22:202
status: NEW186 et al. C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low‑level drug resistance.
X
ABCG2 p.Gln141Lys 19474787:186:114
status: NEW
PMID: 19506252
[PubMed]
Woodward OM et al: "Identification of a urate transporter, ABCG2, with a common functional polymorphism causing gout."
No.
Sentence
Comment
4
Introduction of the mutation Q141K encoded by the common SNP rs2231142 by site-directed mutagenesis resulted in 53% reduced urate transport rates compared to wild-type ABCG2 (P < 0.001).
X
ABCG2 p.Gln141Lys 19506252:4:29
status: NEW35 Impaired Urate Transport of ABCG2 Q141K.
X
ABCG2 p.Gln141Lys 19506252:35:34
status: NEW47 To test whether this SNP is not only statistically associated but causally related to elevated urate levels, we introduced the mutation Q141K encoded by the rs2231142 T allele by site-directed mutagenesis.
X
ABCG2 p.Gln141Lys 19506252:47:136
status: NEW48 Wild-type and Q141K mutant ABCG2 showed similar expression levels at the cell surface when expressed in Xenopus oocytes (Fig. S1).
X
ABCG2 p.Gln141Lys 19506252:48:14
status: NEW49 Notably, Q141K-expressing oocytes showed 54% reduced urate transport rates compared with those expressing wild-type ABCG2 at similar levels (Fig. 2 B and C), and decreased urate efflux across a range of intracellular urate concentrations (Fig. 2D).
X
ABCG2 p.Gln141Lys 19506252:49:9
status: NEW50 Our evidence for Q141K as a causal loss-of-function variant is supported by data showing reduced transport of chemotherapeutic agents by this mutation (6).
X
ABCG2 p.Gln141Lys 19506252:50:17
status: NEW53 Information on the SNP rs2231442, encoding the Q141K variant, was available as an imputed SNP from genome-wide Affymetrix 6.0 data along with 601 other SNPs in a 600-kb region containing ABCG2, and also genotyped directly using the TaqMan assay.
X
ABCG2 p.Gln141Lys 19506252:53:47
status: NEW64 Among the white study participants, population-attributable risk calculations yielded that a conservatively estimated 10% of gout cases could be attributed to the Q141K mutation.
X
ABCG2 p.Gln141Lys 19506252:64:163
status: NEW65 Our findings are of substantial clinical interest because of the high prevalence of the Q141K mutation in individuals of European and Asian ancestry and the substantial population attributable risk.
X
ABCG2 p.Gln141Lys 19506252:65:88
status: NEW82 We show that ABCG2 is a urate efflux transporter and rs2231142 (Q141K) a loss-of-function mutation that causes hyperuricemia and gout.
X
ABCG2 p.Gln141Lys 19506252:82:64
status: NEW89 Oocytes after injection were cultured in a modified L-15 media (OR-3) and kept at 15-20 °C. mRNA was prepared using the SP6 mMessage mMachine (Ambion Inc.) according to the manufactures protocol. The Q141K mutant was created using site directed mutagenesis with the primers: 5Ј-GGT GAG AGA AAA CTT AAA GTT CTC AGC AGC TC 3-Ј and 5Ј-GAG CTG CTG AGA ACT TTA AGT TTT CTC TCA CC-3Ј and completed using the Quick-Change Lightning kit (Stratagene) according to the manufacturer`s protocol.
X
ABCG2 p.Gln141Lys 19506252:89:205
status: NEW97 For the 1-2-h accumulation studies, after incubation in the C-14 urate solution, 2 oocytes were placed in each scintillation tube (N) with lysis buffer of 1 N NaOH; a total Q141 *CFTR F508 ABCG2 CFTR 1 2 3 4 5 0.02 0.04 0.06 0.08 0.10 Internal oocyte concentration ( µM) nim/etycoo/lomp:xulffE 0.0 0.3 0.6 0.9 noitalumuccAetarU nim021/etycoo/lomp WT Q141K C D** 150 76 52 H2OWTQ141K α-BCRP α-actin B A Fig. 2.
X
ABCG2 p.Gln141Lys 19506252:97:355
status: NEW98 The ABCG2 Q141K mutation results in reduced urate transport.
X
ABCG2 p.Gln141Lys 19506252:98:10
status: NEW102 (B) Western blot of oocytes expressing ABCG2 WT or Q141K (monomers and dimers of ABCG2 are detected).
X
ABCG2 p.Gln141Lys 19506252:102:51
status: NEW104 (C) Accumulation rates in oocytes expressing ABCG2 WT or Q141K normalized to ABCG2 expression level.
X
ABCG2 p.Gln141Lys 19506252:104:57
status: NEW105 (D) Efflux rates for ABCG2 WT and Q141K.
X
ABCG2 p.Gln141Lys 19506252:105:34
status: NEW106 (WT [red triangles]: slope ϭ 0.01, N ϭ 55; Q141K [black squares]: slope ϭ 0.02, N ϭ 55).
X
ABCG2 p.Gln141Lys 19506252:106:55
status: NEW
PMID: 19569219
[PubMed]
Adkison KK et al: "Oral sulfasalazine as a clinical BCRP probe substrate: pharmacokinetic effects of genetic variation (C421A) and pantoprazole coadministration."
No.
Sentence
Comment
14
The combined result of intestinal and liver BCRP activity is lower systemic exposures of substrate drugs.6 Several nonsynonymous single nucleotide polymorphisms (SNPs) in the human ABCG2 gene have been associated with reduced BCRP transport activity, including C421A, C376T, G34A, T1291C, and T623C.5 C421A, which results in a substitution of lysine for glutamine (Q141K) in the BCRP protein has been associated with increased drug exposure in vivo in man.
X
ABCG2 p.Gln141Lys 19569219:14:365
status: VERIFIED
PMID: 19584153
[PubMed]
Kim DH et al: "Clinical relevance of a pharmacogenetic approach using multiple candidate genes to predict response and resistance to imatinib therapy in chronic myeloid leukemia."
No.
Sentence
Comment
201
Gardner et al. reported that the ABCG2 SNP Q141K (rs2231142 in the current article) is associated with the intracellular level of imatinib in vitro model (6).
X
ABCG2 p.Gln141Lys 19584153:201:43
status: VERIFIED204 Similar to a previous result using an in vitro model (6), the ABCG2 genotype Q141K (rs2231142) was associated with molecular response to imatinib therapy in univariate analyses although it was not statistically significant in multivariate analyses.
X
ABCG2 p.Gln141Lys 19584153:204:77
status: VERIFIED
PMID: 19605531
[PubMed]
Cotte S et al: "ABC-transporter gene-polymorphisms are potential pharmacogenetic markers for mitoxantrone response in multiple sclerosis."
No.
Sentence
Comment
42
TaqManTM PCR was performed for ABCG2 V12M (reference SNP rs2231137) and Q141K (rs2231142) using Platinum qPCR SuperMix-UDG (Invitrogen, Karlsruhe, Germany) on a 7500 Real Time PCR system (Applied Biosystems, Darmstadt, Germany).
X
ABCG2 p.Gln141Lys 19605531:42:72
status: VERIFIED70 Retrospective clinical correlation of genotype and MX response Patient samples were genotyped for ABCB1 2677 G4T, 3435C4T, ABCG2 V12M and Q141K and retrospectively correlated with clinical MX response.
X
ABCG2 p.Gln141Lys 19605531:70:138
status: VERIFIED102 Of five different ABCG2 SNPs with potential functional significance investigated, only reference SNP (rs) 2231137 (G4A) leading to a V12M substitution and rs2231142 (C4A) resulting in a Q141K substitution were observed.
X
ABCG2 p.Gln141Lys 19605531:102:186
status: VERIFIED110 A high degree of linkage disequilibrium was found between ABCG2 V12M and Q141K [linkage D` = 0.854, (Gaunt et al., 2007)].
X
ABCG2 p.Gln141Lys 19605531:110:73
status: VERIFIED207 For ABCG2, only V12M and Q141K polymorphisms could be detected, in vitro leading to disruption of apical membrane localization (V12M) or decreased ATPase function (Q141K) Table 3 Association of ABC-transporter genotype with therapeutic response to MX monotherapy, exact Cochran-Armitage test (P = 0.039) (panel A), or MX/GC combination therapy (P = 0.348) (panel B) Total, n (%) Responder, n (%) Non-Responder, n (%) A: MX monotherapy ABCB1/ABCG2-H 24 (15.5) 15 (62.5) 9 (37.5) ABCB1/ABCG2-I 98 (63.2) 78 (79.6) 20 (20.4) ABCB1/ABCG2-L 33 (21.3) 28 (84.8) 5 (15.2) Total 155 121 (78.1) 34 (21.9) B: MX/GC combination therapy ABCB1/ABCG2-H 21 (13.6) 12 (57.1) 9 (42.9) ABCB1/ABCG2-I 100 (64.9) 58 (58.0) 42 (42.0) ABCB1/ABCG2-L 33 (21.4) 21 (63.6) 12 (36.4) Total 154 91 (59.1) 63 (40.9) Retrospective analysis using EDSS, relapse rate and MSFC as main outcome parameters to define responders and non-responders, respectively.
X
ABCG2 p.Gln141Lys 19605531:207:25
status: VERIFIEDX
ABCG2 p.Gln141Lys 19605531:207:164
status: VERIFIED
PMID: 19633067
[PubMed]
Deeken JF et al: "Identification of compounds that correlate with ABCG2 transporter function in the National Cancer Institute Anticancer Drug Screen."
No.
Sentence
Comment
23
One nonsynonymous substitution, 421CϾA (dbSNP 914CϾA, rs2231142), leads to an amino acid substitution of lysine for glutamine at position 141 and has been shown to result in lower plasma membrane expression, reduced drug efflux, and reduced ATPase activity (Imai et al., 2002; Mizuarai et al., 2004; Morisaki et al., 2005).
X
ABCG2 p.Gln141Lys 19633067:23:117
status: VERIFIED135 DNA from 59 of the NCI-60 cell lines were genotyped to identify the presence of the Q141K allelic variant, previously shown to have diminished function compared with wild-type ABCG2 (Imai et al., 2002; Morisaki et al., 2005), as well as a SNP variant in the first intron of the gene recently found to correlate with chemotherapy toxicity in vivo (Rudin et al., 2008).
X
ABCG2 p.Gln141Lys 19633067:135:84
status: VERIFIED137 For the Q141K SNP, 12 cell lines were found to contain a variant allele.
X
ABCG2 p.Gln141Lys 19633067:137:8
status: VERIFIED139 The other 10 lines were heterozygous, containing one Q141K variant allele (A549, COLO205, HCT116, SF295, MALME-3M, SK-OV-3, CAKI-1, HOP62, HOP92, and MDA-MB-231).
X
ABCG2 p.Gln141Lys 19633067:139:53
status: VERIFIED143 To determine whether these variants affected the correlation between gene expression and transporter function, the scatter plot analysis comparing expression with function was repeated after excluding those cell lines with the Q141K SNP or the intron 1 SNP.
X
ABCG2 p.Gln141Lys 19633067:143:227
status: VERIFIED165 Nucleotide Change Amino Acid Reference Sequence Cell Lines Heterozygote Variants Homozygote Variants Intron 1 rs2622604 MOLT4, HOP-92, HCC2998, SF539, SNB19, SNB75, U251, SKMEL5, OVCAR3, OVCAR8, RXF393, TK10, NCI ADR-RES, MDA-MB-231, HS578T, 786-0 SW620, OVCAR 5, BT549, T47D 914CϾA Q141K rs2231142 A549, COLO205, HCT116, SF295, MALME-3M, SKOV-3, CAKI-1, HOP62, HOP92, MDA-MB-231 LOX IMVI, A498 862CϾT Y123Y rs2231139 None None 989CϾG Q166E rs1061017 None None 1057AϾG G188G rs3116439 None None 1116TϾC F208S rs1061018 None None 1235TϾC S248P rs3116448 None None 1493GϾT E334* rs3201997 None None levels of P-gp or MRP1 did not improve PCCs (data not shown).
X
ABCG2 p.Gln141Lys 19633067:165:289
status: VERIFIED
PMID: 19696792
[PubMed]
Cha PC et al: "Single nucleotide polymorphism in ABCG2 is associated with irinotecan-induced severe myelosuppression."
No.
Sentence
Comment
48
In addition to this SNP, rs7977213 in SLCO1B3 as well as the UGT1A7*3 variant Table 1 Demographical characteristic of patients First study Second study Combined study Case (N¼23) Control (N¼58) Case (N¼7) Control (N¼20) Case (N¼30) Control (N¼78) Age 62.04 (37-77) 60.29 (34-77) 60.29 (40-81) 67.60 (50-84) 61.63 (37-81) 62.21 (34-84) % of men 61 71 57 42 60 65 Types of cancers Lung 12 52% 10 17% 2 29% 4 17% 14 47% 14 18% Cervical 6 26% 2 3% 0 0% 0 0% 6 20% 2 3% Colorectal 3 13% 35 60% 3 43% 13 57% 6 20% 48 62% Gastric 1 4% 4 7% 1 14% 2 9% 2 7% 6 8% Ovarian 0 0% 2 3% 1 14% 1 4% 1 3% 3 4% Breast+cervical 1 4% 0 0% 0 0% 0 0% 1 3% 0 0% Pancreatic 0 0% 1 2% 0 0% 0 0% 0 0% 1 1% Esophageal 0 0% 1 2% 0 0% 0 0% 0 0% 1 1% Breast 0 0% 1 2% 0 0% 0 0% 0 0% 1 1% No information 0 0% 2 0% 0 0% 0 0% 0 0% 2 3% Types of regimens CPT-11 1 4% 11 19% 1 14% 2 9% 2 6% 13 17% Other drug combinations 22 96% 47 81% 6 86% 18 91% 28 94% 65 83% Associations of 170 SNPs with severe myelosuppression in subjects who received irinotecan therapy Allele Frequency of allele 1 Fisher test`s P-values Gene name SNP ID Position of SNP/functional SNP 1 2 dCase eControl f1vs2 g11vs h22vs Odds ratio UGT1A9 rs3832043 UGT1A9*1b or *22 9T 10T 0.63 0.63 1.00E+00 8.05EÀ01 7.33EÀ01 0.76 UGT1A7 rs17868323 Exon 1 (Lys 129 Asn) T G 0.54 0.63 3.72EÀ01 1.00E+00 1.16EÀ01 2.68 UGT1A7 1A7_R131Kaa Exon 1 (R131K) (UGT1A7*2) C A 0.54 0.63 3.72EÀ01 1.00E+00 1.16EÀ01 2.68 UGT1A7 1A7_R131Kba Exon 1 (R131K) (UGT1A7*2) G A 0.54 0.63 3.72EÀ01 1.00E+00 1.16EÀ01 2.68 UGT1A7 rs11692021 Exon 1 (Arg 208 Trp) (UGT1A7*3) T C 0.65 0.76 1.71EÀ01 1.00E+00 6.72EÀ03 15.56 UGT1A1 rs887829 Intron (tagged UGT1A1*28, promoter indel) G A 0.96 0.90 3.53EÀ01 1.64EÀ01 1.00E+00 5.15 UGT1A1 rs4148323 Exon 1 (Arg 71 Gly) (UGT1A1*6) G A 0.76 0.78 8.34EÀ01 4.51EÀ01 2.14EÀ02 12.00 UGT1A1 rs35350960 Exon 1 (Gln 229 Pro) (UGT1A1*27) C A 1.00 0.99 1.00E+00 1.00E+00 1.00E+00 NA BCHE rs697356 3' near gene G C 0.30 0.40 2.74EÀ01 4.95EÀ01 4.46EÀ01 1.64 BCHE rs1007845 3' near gene G A 0.83 0.78 6.67EÀ01 6.13EÀ01 1.00E+00 1.40 BCHE rs2048493 Intron 2 C G 0.78 0.62 6.41EÀ02 5.08EÀ02 4.29EÀ01 2.74 BCHE rs4639017 Intron 1 C G 0.72 0.60 2.07EÀ01 2.07EÀ01 7.17EÀ01 2.07 ABCC5 rs6810123 3' near gene A G 0.33 0.41 3.72EÀ01 1.00E+00 2.07EÀ01 2.07 ABCC5 rs12638772 3' near gene A G 0.36 0.32 7.07EÀ01 2.50EÀ01 1.00E+00 2.36 ABCC5 rs7613247 3' near gene A G 0.93 0.94 1.00E+00 1.00E+00 1.00E+00 1.15 ABCC5 rs2176825 3' near gene A G 0.25 0.37 1.81EÀ01 5.07EÀ01 2.07EÀ01 1.98 ABCC5 rs13066518 3' near gene T A 0.33 0.39 4.78EÀ01 1.00E+00 4.50EÀ01 1.62 ABCC5 rs3749443 3' near gene A G 0.20 0.18 1.00E+00 1.00E+00 7.90EÀ01 1.29 ABCC5 rs1402001 3' near gene A G 0.52 0.57 6.03EÀ01 7.95EÀ01 2.30EÀ01 2.10 ABCC5 rs6790814 3' near gene C G 0.66 0.76 2.33EÀ01 4.63EÀ01 1.25EÀ01 4.42 ABCC5 rs9838667 3' near gene T G 0.34 0.46 2.12EÀ01 5.64EÀ01 3.05EÀ01 1.85 ABCC5 rs2280392 3' near gene G A 0.25 0.23 8.35EÀ01 3.40EÀ01 8.02EÀ01 2.84 ABCC5 rs1879257 3' near gene A G 0.43 0.32 2.02EÀ01 3.07EÀ01 3.27EÀ01 2.02 ABCC5 rs3817403 3' near gene A G 0.87 0.90 7.82EÀ01 1.00E+00 1.00E+00 1.19 ABCC5 rs3805111 3' near gene T C 0.09 0.10 7.85EÀ01 1.00E+00 7.72EÀ01 1.24 ABCC5 rs3805108b 3' near gene A G 0.11 0.19 2.50EÀ01 6.69EÀ01 4.00EÀ01 1.97 ABCC5 rs2872247 3' near gene T G 0.76 0.70 4.49EÀ01 6.30EÀ01 6.67EÀ01 1.30 ABCC5 rs2293001 3' near gene T C 0.48 0.54 6.00EÀ01 7.79EÀ01 5.56EÀ01 1.44 ABCC5 rs4148572 Intron 2 C G 0.33 0.22 1.60EÀ01 1.36EÀ01 3.30EÀ01 4.20 ABCC5 rs4148568 Intron 2 A G 0.13 0.18 6.37EÀ01 5.85EÀ01 7.89EÀ01 NA ABCC5 rs4148564 Intron 2 A G 0.89 0.82 3.44EÀ01 3.00EÀ01 1.00E+00 1.89 ABCC5 rs4148560 Intron 2 A T 0.78 0.80 8.30EÀ01 7.96EÀ01 1.36EÀ01 4.20 ABCC5 rs7624838 Intron 2 T C 0.50 0.52 8.63EÀ01 7.82EÀ01 1.00E+00 1.26 ABCG2 rs2231164 Intron 14 C T 0.36 0.39 8.56EÀ01 5.57EÀ02 4.46EÀ01 NA ABCG2 rs2622611 Intron 10 T G 0.16 0.18 8.20EÀ01 3.29EÀ01 1.00E+00 NA ABCG2 rs1871744 Intron 6 T C 0.55 0.69 9.76EÀ02 3.22EÀ01 1.71EÀ01 2.73 ABCG2 rs2231142 Exon 5 (Gln 141 Lys) C A 0.78 0.78 1.00E+00 1.00E+00 1.00E+00 0.79 ABCG2 rs2231137 Exon 2 (Val 12 Met) G A 0.67 0.79 1.53EÀ01 3.19EÀ01 1.36EÀ01 4.20 ABCG2 rs1564481 Intron 1 C T 0.72 0.62 2.77EÀ01 3.15EÀ01 6.67EÀ01 1.74 ABCG2 rs2622624 Intron 1 A G 0.41 0.29 1.93EÀ01 2.78EÀ01 3.35EÀ01 2.41 ABCG2 rs2622604 Intron 1 T C 0.28 0.09 2.35EÀ03 7.81EÀ02 6.66EÀ03 4.40 ABCB1 rs1882478 Intron 27 C T 0.59 0.55 7.27EÀ01 4.31EÀ01 7.57EÀ01 1.57 ABCB1 rs6979885 Intron 27 G A 0.89 0.91 1.00E+00 1.00E+00 1.00E+00 1.19 ABCB1 rs2235047 Intron 27 T G 0.50 0.52 8.63EÀ01 7.82EÀ01 1.00E+00 1.26 ABCB1 rs1045642 Exon 27 (Ile 3 Ile) T C 0.37 0.44 4.80EÀ01 1.00E+00 4.34EÀ01 1.67 ABCB1 rs1002205 Intron 26 C G 0.52 0.60 3.75EÀ01 4.21EÀ01 7.14EÀ01 1.70 ABCB1 rs6949448 Intron 26 T C 0.35 0.40 5.91EÀ01 1.00E+00 6.09EÀ01 1.42 ABCB1 rs2235067 Intron 23 A G 0.07 0.11 5.60EÀ01 1.00E+00 5.36EÀ01 1.83 ABCB1 rs2373588 Intron 22 T C 0.43 0.39 5.98EÀ01 7.20EÀ01 7.99EÀ01 1.53 ABCB1 rs7787082 Intron 22 A G 0.50 0.50 1.00E+00 7.72EÀ01 7.72EÀ01 NA ABCB1 rs3789246 Intron 20 A G 0.09 0.19 1.50EÀ01 5.51EÀ01 2.69EÀ01 2.31 ABCB1 rs1922242b Intron 17 A T 0.78 0.68 2.45EÀ01 3.24EÀ01 4.90EÀ01 1.74 ABCB1 rs2235046 Intron 17 A G 0.72 0.59 1.51EÀ01 4.38EÀ02 1.00E+00 2.89 ABCB1 rs868755 Intron 9 C A 0.59 0.61 1.00E+00 1.00E+00 7.29EÀ01 1.36 ABCB1 rs4148734 Intron 8 C T 0.87 0.90 7.79EÀ01 5.42EÀ01 1.00E+00 1.55 ABCB1 rs2235018 Intron 6 A G 0.67 0.81 9.65EÀ02 2.09EÀ01 1.40EÀ01 4.13 ABCB1 rs10256836a Intron 5 C G 0.13 0.09 5.68EÀ01 1.00E+00 5.31EÀ01 1.73 ABCB1 rs10259849a Intron 5 C T 0.14 0.10 5.75EÀ01 1.00E+00 5.36EÀ01 1.65 ABCB1 rs1202172 Intron 5 T G 0.96 0.86 1.01EÀ01 8.01EÀ02 1.00E+00 4.00 Table 2 Continued Allele Frequency of allele 1 Fisher test`s P-values Gene name SNP ID Position of SNP/functional SNP 1 2 dCase eControl f1vs2 g11vs h22vs Odds ratio ABCB1 rs17327442 Intron 5 T A 0.89 0.94 5.12EÀ01 4.93EÀ01 1.00E+00 1.87 ABCB1 rs1202184 Intron 5 G A 0.24 0.33 3.44EÀ01 1.00E+00 2.25EÀ01 1.91 ABCB1 rs3789243 Intron 4 T C 0.50 0.31 2.81EÀ02 5.05EÀ02 1.38EÀ01 3.50 ABCB1 rs3213619 Exon 2 (5' UTR) C T 0.02 0.10 1.81EÀ01 1.00E+00 1.63EÀ01 5.02 ABCB1 rs4148732 Intron 1 A G 0.87 0.96 7.89EÀ02 6.87EÀ02 1.00E+00 3.67 ABCB1 rs13233308 Intron 1 T C 0.43 0.44 1.00E+00 7.60EÀ01 7.95EÀ01 0.82 ABCB1 rs1978095 Intron 1 T C 0.67 0.73 5.59EÀ01 6.21EÀ01 6.89EÀ01 1.36 ABCB1 rs2157929 Intron 1 T C 0.93 0.79 3.32EÀ02 5.60EÀ02 5.51EÀ01 3.81 ABCB1 rs10278483 Intron 1 T C 0.96 0.86 1.01EÀ01 1.36EÀ01 5.88EÀ01 3.34 CYP3A5 rs776746 Intron 3 (CYP3A5*3) A G 0.22 0.32 2.50EÀ01 6.67EÀ01 3.26EÀ01 1.79 CYP3A4 rs28371759c Exon 10 (Pro 293 Leu) (CYP3A4*18) 1.00 1.00 1.00E+00 1.00E+00 1.00E+00 NA CYP3A4 rs12721627b Exon 7 (Ser 185 Thr) (CYP3A4*16) C G 1.00 0.96 3.23EÀ01 3.22EÀ01 1.00E+00 NA ABCC2 rs12268782 5' near gene A G 0.22 0.13 2.26EÀ01 1.00E+00 1.81EÀ01 2.21 ABCC2 rs2804398 Intron 7 T A 0.83 0.84 8.14EÀ01 7.90EÀ01 1.00E+00 1.29 ABCC2 rs2756109 Intron 7 G T 0.63 0.65 8.55EÀ01 1.00E+00 1.00E+00 1.12 ABCC2 rs2273697 Exon 10 (Ile 417 Val) G A 0.83 0.92 8.91EÀ02 5.96EÀ02 1.00E+00 3.33 ABCC2 rs11190291a Intron 11 T C 0.17 0.08 8.91EÀ02 1.00E+00 5.96EÀ02 3.33 ABCC2 rs2002042 Intron 19 T C 0.33 0.39 4.78EÀ01 2.78EÀ01 1.00E+00 3.52 ABCC2 rs17222723c Exon 25 (Glu 1188 Val) T A 1.00 1.00 1.00E+00 1.00E+00 1.00E+00 NA ABCC2 rs3740065b Intron 29 T C 0.65 0.60 5.96EÀ01 6.18EÀ01 9.90EÀ02 6.36 ABCC2 rs12762549 3' near gene C G 0.48 0.36 2.13EÀ01 1.00E+00 6.81EÀ02 3.35 ABCC2 rs2862691 3' near gene T C 0.19 0.25 5.26EÀ01 6.05EÀ01 6.11EÀ01 NA ABCC2 rs11598781 3' near gene T C 0.17 0.27 2.30EÀ01 1.00E+00 1.40EÀ01 2.29 ABCC2 rs11190303 3' near gene T C 0.24 0.33 2.62EÀ01 5.33EÀ02 1.00E+00 NA SLCO1B3 rs12228798 Intron 1 C T 0.82 0.83 1.00E+00 7.77EÀ01 2.27EÀ01 NA SLCO1B3 rs7977213 Intron 2 G C 0.43 0.18 1.29EÀ03 1.31EÀ03 2.55EÀ02 NA SLCO1B3 rs10841661 Intron 2 T C 0.48 0.23 2.73EÀ03 5.65EÀ03 4.79EÀ02 9.88 SLCO1B3 rs4149118 Intron 4 A G 0.59 0.48 3.31EÀ01 3.49EÀ01 5.40EÀ01 1.85 SLCO1B3 rs3764009a Intron 4 A G 0.68 0.69 1.00E+00 1.00E+00 1.00E+00 1.16 SLCO1B3 rs7311358 Exon 7 (Ile 233 Met) A G 0.68 0.69 1.00E+00 1.00E+00 1.00E+00 1.16 SLCO1B3 rs11045585b Intron 12 G A 0.13 0.21 2.76EÀ01 3.14EÀ01 6.06EÀ01 NA SLCO1B3 rs980084 Intron 12 G C 0.28 0.45 7.48EÀ02 3.80EÀ01 7.66EÀ02 2.67 SLCO1B3 rs3764006 Exon 14 (Gly 611 Gly) T C 0.87 0.70 2.74EÀ02 1.32EÀ01 9.75EÀ02 NA SLCO1B3 rs919840 3' near gene C G 0.97 0.90 2.99EÀ01 2.77EÀ01 1.00E+00 3.74 SLCO1B3 rs2117032 3' near gene T C 0.52 0.47 6.05EÀ01 7.68EÀ01 7.82EÀ01 1.35 SLCO1B3 rs7312051 3' near gene C T 1.00 0.91 1.26EÀ01 1.04EÀ01 1.00E+00 NA SLCO1B3 rs10841714 3' near gene C T 0.15 0.17 8.01EÀ01 1.00E+00 1.00E+00 NA SLCO1B3 rs2174012 3' near gene T C 0.62 0.63 1.00E+00 5.72EÀ01 4.55EÀ01 0.39 SLCO1B3 rs11045639a 3' near gene G A 0.65 0.72 4.46EÀ01 2.17EÀ01 7.25EÀ01 2.05 SLCO1B3 rs2900459 3' near gene G A 0.46 0.56 2.95EÀ01 1.43EÀ02 5.70EÀ01 5.96 SLCO1B3 rs4762693 3' near gene G A 0.65 0.72 4.46EÀ01 2.17EÀ01 7.25EÀ01 2.05 SLCO1B3 rs10734711 3' near gene A G 0.28 0.35 4.61EÀ01 2.78EÀ01 8.05EÀ01 3.52 SLCO1B1 rs12228427 5' near gene (LST-3TM12 Intron 9) A G 0.96 0.88 1.59EÀ01 1.36EÀ01 1.00E+00 3.34 SLCO1B1 rs1910163 5' near gene (LST-3TM12 Intron 12) A T 0.28 0.34 4.66EÀ01 7.25EÀ01 6.21EÀ01 1.44 SLCO1B1 rs6487207 5' near gene (LST-3TM12 Intron 11) T G 0.78 0.73 5.54EÀ01 8.11EÀ01 3.22EÀ01 NA SLCO1B1 rs1604539 5' near gene (LST-3TM12 Intron 12) T G 0.80 0.75 5.41EÀ01 6.18EÀ01 1.00E+00 1.42 SLCO1B1 rs7973691 5' near gene T C 0.80 0.83 8.21EÀ01 7.98EÀ01 1.00E+00 1.22 SLCO1B1 rs10743408 Intron 2 C G 0.24 0.18 4.97EÀ01 1.00E+00 3.06EÀ01 1.73 SLCO1B1 rs976754 Intron 2 T C 0.83 0.69 1.15EÀ01 8.67EÀ02 6.67EÀ01 2.54 SLCO1B1 rs2291073 Intron 3 T G 0.78 0.72 4.35EÀ01 8.11EÀ01 1.76EÀ01 NA SLCO1B1 rs4149037 Intron 4 A G 0.70 0.80 2.12EÀ01 2.07EÀ01 6.19EÀ01 2.07 SLCO1B1 rs4149056 Exon 5 (Ala 174 Val) T C 0.72 0.84 8.02EÀ02 2.04EÀ01 8.01EÀ02 NA SLCO1B1 rs2417967 Intron 11 A G 0.33 0.21 1.54EÀ01 1.00E+00 8.68EÀ02 2.41 SLCO1B1 rs7969341b Intron 14 T C 0.50 0.46 7.24EÀ01 1.58EÀ01 5.60EÀ02 3.80 SLCO1B1 rs4149085 3' UTR T C 0.74 0.66 4.53EÀ01 8.05EÀ01 1.76EÀ01 NA SLCO1B1 rs12372067 3' near gene C A 0.21 0.33 2.06EÀ01 1.00E+00 1.68EÀ01 2.42 SLCO1B1 rs12310063 3' near gene A C 0.67 0.76 3.21EÀ01 2.13EÀ01 1.00E+00 2.07 ABCC1 rs8050881 5' near gene A G 0.33 0.23 2.37EÀ01 1.00E+00 1.44EÀ01 2.13 ABCC1 rs4148330 5' near gene G A 0.48 0.34 1.46EÀ01 2.95EÀ01 2.13EÀ01 2.02 Continued Allele Frequency of allele 1 Fisher test`s P-values Gene name SNP ID Position of SNP/functional SNP 1 2 dCase eControl f1vs2 g11vs h22vs Odds ratio ABCC1 rs7190484 Intron 1 T C 0.43 0.34 3.67EÀ01 5.03EÀ01 4.62EÀ01 1.52 ABCC1 rs215098 Intron 1 C A 0.41 0.34 4.63EÀ01 1.96EÀ01 1.00E+00 2.30 ABCC1 rs215096 Intron 1 T C 0.89 0.87 1.00E+00 5.63EÀ01 2.89EÀ01 0.00 ABCC1 rs152023 Intron 1 G A 0.48 0.41 4.75EÀ01 3.79EÀ01 8.05EÀ01 1.79 ABCC1 rs6498595 Intron 1 G C 0.41 0.31 2.70EÀ01 2.73EÀ02 1.00E+00 4.76 ABCC1 rs7196970 Intron 1 C G 0.70 0.63 4.71EÀ01 3.25EÀ01 1.00E+00 1.73 ABCC1 rs12935283 Intron 1 A G 0.67 0.61 4.78EÀ01 3.19EÀ01 1.00E+00 1.79 ABCC1 rs246240 Intron 5 A G 0.60 0.58 1.00E+00 1.00E+00 1.00E+00 1.06 ABCC1 rs924138b Intron 5 T C 0.68 0.63 5.84EÀ01 6.17EÀ01 1.00E+00 1.38 ABCC1 rs2062541 Intron 6 C T 0.71 0.64 4.46EÀ01 4.45EÀ01 7.51EÀ01 1.60 ABCC1 rs11647513 Intron 6 C T 0.78 0.70 3.34EÀ01 2.14EÀ01 1.00E+00 2.13 ABCC1 rs35593 Intron 11 T C 0.71 0.75 8.37EÀ01 1.00E+00 1.00E+00 2.70 ABCC1 rs3765129 Intron 11 C T 0.98 0.84 2.69EÀ02 1.75EÀ02 1.00E+00 9.90 ABCC1 rs17287570 Intron 12 A C 0.73 0.91 6.32EÀ03 1.03EÀ02 2.75EÀ01 4.27 ABCC1 rs35597 Intron 12 A G 0.59 0.55 7.19EÀ01 5.85EÀ01 1.00E+00 1.45 ABCC1 rs35598a Intron 12 A G 0.82 0.86 6.21EÀ01 7.86EÀ01 2.78EÀ01 NA ABCC1 rs9932506 Intron 12 G A 0.72 0.75 6.94EÀ01 6.21EÀ01 1.00E+00 1.44 ABCC1 rs35604 Intron 12 G A 0.24 0.25 1.00E+00 1.00E+00 1.00E+00 1.63 ABCC1 rs35606 Intron 13 C T 0.82 0.86 6.17EÀ01 7.82EÀ01 2.86EÀ01 NA ABCC1 rs35620 Intron 14 G C 0.26 0.23 8.39EÀ01 1.00E+00 6.19EÀ01 1.39 ABCC1 rs35625 Intron 14 C T 0.41 0.34 4.70EÀ01 7.52EÀ01 4.72EÀ01 1.45 ABCC1 rs35626 Intron 15 T G 0.43 0.40 7.21EÀ01 5.08EÀ01 2.96EÀ01 1.93 ABCC1 rs4148353 Intron 15 T G 0.20 0.07 2.42EÀ02 1.00E+00 1.69EÀ02 4.02 ABCC1 rs35629 Intron 15 C T 0.80 0.76 5.46EÀ01 6.24EÀ01 1.00E+00 1.32 ABCC1 rs2269800 Intron 20 A G 0.74 0.66 4.53EÀ01 8.06EÀ01 2.78EÀ01 3.52 ABCC1 rs11864374 Intron 21 G A 0.78 0.77 8.41EÀ01 1.00E+00 1.00E+00 1.63 ABCC1 rs3887893 Intron 22 A G 0.48 0.46 8.62EÀ01 2.30EÀ01 5.85EÀ01 2.10 ABCC1 rs4148376 Intron 23 A G 0.93 0.95 1.00E+00 1.00E+00 1.00E+00 1.30 ABCC1 rs2238475 Intron 23 C A 0.11 0.18 3.45EÀ01 1.00E+00 4.21EÀ01 1.80 ABCC1 rs212079 Intron 26 G A 0.76 0.83 3.77EÀ01 1.00E+00 6.71EÀ02 8.55 ABCC1 rs2283512 Intron 26 G T 0.48 0.46 1.00E+00 7.68EÀ01 1.00E+00 1.32 ABCC1 rs212081 Intron 27 T C 0.20 0.22 8.34EÀ01 5.73EÀ01 4.61EÀ01 1.50 ABCC1 rs212084 Intron 28 G A 0.68 0.77 2.90EÀ01 3.02EÀ01 6.00EÀ01 1.81 ABCC1 rs212087 Intron 28 C T 0.57 0.70 1.41EÀ01 1.38EÀ01 3.45EÀ01 2.30 ABCC1 rs4148380 3' UTR G A 0.87 0.89 7.88EÀ01 7.75EÀ01 1.00E+00 1.22 ABCC1 rs212091 3' UTR G A 0.22 0.34 1.84EÀ01 2.68EÀ01 3.35EÀ01 4.04 ABCC1 rs12448760 3' near gene G A 0.82 0.89 2.95EÀ01 3.79EÀ01 1.00E+00 1.79 ABCC1 rs9932935 3' near gene (ABCC6 Intron 29) A T 0.96 0.91 5.12EÀ01 5.00EÀ01 1.00E+00 1.93 ABCC1 rs2066738 3' near gene (ABCC6 Intron 28) C T 0.74 0.90 1.50EÀ02 5.28EÀ02 7.81EÀ02 2.95 ABCC1 rs169845 3' near gene (ABCC6 Intron 27) G C 0.26 0.40 1.04EÀ01 3.28EÀ01 2.13EÀ01 2.07 ABCC1 rs2238471 3' near gene (ABCC6 Intron 26) A C 0.93 0.81 5.49EÀ02 5.79EÀ02 1.00E+00 3.78 ABCC1 rs3213471 3' near gene (ABCC6 Intron 24) A G 0.91 0.92 1.00E+00 7.33EÀ01 1.00E+00 1.32 ABCC1 rs3213473 3' near gene (ABCC6 Intron 24) T G 0.16 0.13 7.98EÀ01 1.00E+00 7.71EÀ01 1.27 CES2 rs3843712 5' near gene G A 0.18 0.12 4.41EÀ01 1.00E+00 4.00EÀ01 1.80 CES2 rs8062110 5' near gene G C 0.61 0.65 7.16EÀ01 1.00E+00 7.28EÀ01 1.39 CES2 rs4783744 5' near gene G A 0.66 0.62 8.37EÀ01 7.76EÀ01 1.00E+00 1.24 CES2 rs7194513 5' near gene G A 0.26 0.27 1.00E+00 3.14EÀ01 6.29EÀ01 NA CES2 rs28382812c Exon 1 (Ile 37 Ile) C T 1.00 1.00 1.00E+00 1.00E+00 1.00E+00 NA CES2 rs2241410 Intron 2 T G 0.10 0.11 7.85EÀ01 1.00E+00 7.71EÀ01 1.26 CES2 rs2303218 Intron 2 G A 0.09 0.21 1.03EÀ01 5.55EÀ01 1.15EÀ01 2.70 CES2 rs8192924c Exon 5 (His 270 Arg) G A 1.00 1.00 1.00E+00 1.00E+00 1.00E+00 NA CES2 rs28382827c Exon 12 (Leu 613 Leu) C T 1.00 1.00 1.00E+00 1.00E+00 1.00E+00 NA Abbreviations: Chrom, chromosome; HWE, Hardy-Weinberg equilibrium; NA, not available; SNP, single nucleotide polymorphism.
X
ABCG2 p.Gln141Lys 19696792:48:4445
status: NEW
PMID: 19771428
[PubMed]
Sai K et al: "Additive effects of drug transporter genetic polymorphisms on irinotecan pharmacokinetics/pharmacodynamics in Japanese cancer patients."
No.
Sentence
Comment
3
Associations of grade 3/4 neutropenia were observed with ABCC2 -1774delG (*1A), ABCG2 421C[A (Q141K) and IVS12 ?
X
ABCG2 p.Gln141Lys 19771428:3:94
status: VERIFIED40 Since the *9 haplotype with 1236C[T, 2677G[T (A893S) without 3435C[T [16] showed the same trend for PK/PD as *2 (data not shown), the current study classified the Table 1 List of major transporter haplotypes and their markers analyzed for Japanese cancer patients Gene Haplotype Tagging SNP Abbreviation used in this paper Haplotype frequency Monotherapy (N = 110)a With cisplatin (N = 124)a ABCB1 BJLb (block 1) -1789G[A 0.182 0.210 *2 groupc (block 2) 2677G[T(A893S) B 0.382 0.379 *10 groupd (block 2) 2677G[A(A893T) 0.182 0.169 *1b (block 3) IVS27-182G[T 0.200 0.169 ABCC2 *1A -1774delG C 0.373 0.371 *1C/G 3972C[T(I1324I) 0.218 0.266 ABCG2 # IIB [*1a-*2-*1b]e 421C[A(Q141K), IVS12 ?
X
ABCG2 p.Gln141Lys 19771428:40:671
status: VERIFIED48 Major combinations in 177 patients were the wild type # IA (frequency = 0.291), # IIB [containing 421C[A (Q141K) and IVS12 ?
X
ABCG2 p.Gln141Lys 19771428:48:106
status: VERIFIED50 Note that # IIB and # IIIC are subgroups of block 1 *2 [421C[A (Q141K)] and block 1*3 [34G[A (V12M)], respectively [28].
X
ABCG2 p.Gln141Lys 19771428:50:64
status: VERIFIED86 = UGT1A1*6 or *28. a BJL contains -1789G[A, *2 (block 1) = 325G[A (E109K), *3 (block 1) = 304G[A (G102R); b *2 (block 2) contains 2677G[T (A893S); c *1b (block 3) = IVS27-182G[T, *2 (block 3) = 3751G[ A (V1251I); d *1A contains -1774delG; e IIB contains 421C[A (Q141K) and IVS12 ?
X
ABCG2 p.Gln141Lys 19771428:86:262
status: VERIFIED150 ABCG2# IIB contains the non-synonymous SNP 421C[A (Q141K), which was detected at higher frequencies in Asians and was reported to cause reduced expression of BCRP in vitro [36, 39-41].
X
ABCG2 p.Gln141Lys 19771428:150:51
status: VERIFIED151 In clinical studies, the association of 421C[A (Q141K) with higher plasma levels of diflomotecan was shown in Caucasians [42].
X
ABCG2 p.Gln141Lys 19771428:151:48
status: VERIFIED153 An association of 421C[A (Q141K) alone with irinotecan PK/PD was not significant in our hands (data not shown), but # IIB containing both 421C[A (Q141K) and IVS12 ?
X
ABCG2 p.Gln141Lys 19771428:153:26
status: VERIFIEDX
ABCG2 p.Gln141Lys 19771428:153:146
status: VERIFIED
PMID: 19788499
[PubMed]
Vahakangas K et al: "Drug transporters in the human blood-placental barrier."
No.
Sentence
Comment
99
Table 4 Significance of drug transporter polymorphisms in human placenta Protein Gene polymorphisms Type of study Significance in placenta Reference P-gp/MDR1 G2677A/T (Ala toThr/Ser) T-129C 100 human placentas Less P-gp protein Less P-gp protein 1 P-gp/MDR1 G2677T/A C3435T 73 human placentas from Caucasians No effect on MDR1 mRNA Homozygosity of 3435T and 2677T lead to lower protein levels 2 P-gp/MDR1 C3435T 44 human placentas T allele associated with a higher expression 3 P-gp/MDR1 C3435T and G2677A/T Human placental perfusion No effect on saquinavir transfer 3, 4 P-gp/MDR1 C3435T Human placental perfusion 3435T associated with increased transfer of quetiapine 5 MRP2 G1249A 58 human placentas Reduced expression of MRP2 mRNA in preterm placentas only 6 BCRP G34A (Val12Met) C421A (Gln141Lys) 99 human placentas No effect on protein level Protein decreased 7 References: (1) Tanabe et al. (2001), (2) Hitzl et al. (2004), (3) Rahi et al. (2008), (4) Mölsä et al. (2005), (5) Rahi et al. (2007), (6) Meyer zu Schwabedissen et al. (2005b), (7) Kobayashi et al. (2005).
X
ABCG2 p.Gln141Lys 19788499:99:792
status: NEW159 At least one non-synonymous polymorphism (C421A; Gln141Lys) seems to lead to a lower expression of ABCG2/BCRP protein both in vitro (Imai et al., 2002) and in human placenta (Kobayashi et al., 2005).
X
ABCG2 p.Gln141Lys 19788499:159:49
status: NEW
PMID: 19827267
[PubMed]
Ishikawa T et al: "Human ABC transporter ABCG2 in cancer chemotherapy and pharmacogenomics."
No.
Sentence
Comment
219
The most extensively studied among those SNPs with potential clinical relevance is 421 C>A resulting in a glutamic acid to lysine substitution (Q141K) in the ABCG2 protein.
X
ABCG2 p.Gln141Lys 19827267:219:144
status: VERIFIED220 The Q141K SNP has been identified with varying frequencies in different ethnic groups and was found to be the most relevant in Japanese and Chinese populations (approximately 30% in the allele frequency).
X
ABCG2 p.Gln141Lys 19827267:220:4
status: VERIFIED222 COOH H2N N590Y V12M G51C Q126stop Q141K T153M Q166E I206L F208S S248P E334stop F431L F489L D620N R482G R482T S441N F571I OUT IN R160Q R575stop ATP-binding site Figure 7. Continued A 005-024 pp JETO-0900616-TI (Review).indd 8/7/2009 3:59:50 19 Q141K has been associated with lower levels of protein expression and impaired transport in vitro (Imai et al., 2002; Kobayashi et al., 2005; Misuarai et al., 2004; Zamber et al., 2003; Morisaki et al., 2008; Kondo et al., 2004).
X
ABCG2 p.Gln141Lys 19827267:222:34
status: VERIFIEDX
ABCG2 p.Gln141Lys 19827267:222:246
status: VERIFIED224 Furthermore, the Q141K SNP was reportedly associated with a higher incidence of diarrhea in non-small cell lung cancer patients treated with gefitinib (Cusatis et al., 2006).
X
ABCG2 p.Gln141Lys 19827267:224:17
status: VERIFIED225 It has been demonstrated that the reduced expression levels of the Q141K variant may be due to its ubiquitin-mediated proteasomal degradation (Furukawa et al., 2009).
X
ABCG2 p.Gln141Lys 19827267:225:67
status: VERIFIED228 Furthermore, the F208S, S248P, F431L, S441N, and F489L variants exhibited greatly altered protein expression levels and drug resistance profiles Figure 7. Continued WT V12M Q141K F208S S248P F431L S441N F489L R482G R482T Protein expression + + + - + + - + + + MTX transport + + + - - - - +/ - - Porphyrin transport + + + - - + - +/ + + SN-38 resistance + + + - +/ + - - + + MX resistance + + + - - - - - -- - - - - - - - +/ - - - - - - - - + + Doxorubicin resistance + + Daunorubicin resistance + + ATPase activity (Prazosin) + + WTV12M Q141K F431L F489L S248P F208S S441L R482G R482T ∆1.5 ∆3 ∆3.5 ∆5 ∆4 - - - - - - -- - - B 005-024 pp JETO-0900616-TI (Review).indd 8/7/2009 3:59:51 20 Journal of Experimental Therapeutics and Oncology Vol. 8 2009 (Tamura et al., 2007b).
X
ABCG2 p.Gln141Lys 19827267:228:173
status: VERIFIEDX
ABCG2 p.Gln141Lys 19827267:228:537
status: VERIFIED232 It is known that, in the ER, the N-linked glycans play pivotal roles in protein fold- 0.0 0.5 1.0 1.5 Mock WT V12M G51C Q126stop Q141K T153M Q166E I206L F208S S248P E334stop F431L S441N F489L F571I N590Y D620N R482G R482T Methotrexatetransport (nmol/min/mgprotein) Methotrexate 0.0 0.5 1.0 1.5 0.0 0.5 1.0 1.5 Mock WT V12M G51C Q126stop Q141K T153M Q166E I206L F208S S248P E334stop F431L S441N F489L F571I N590Y D620N R482G R482T Methotrexatetransport (nmol/min/mgprotein) MethotrexateMethotrexate Porphyrintransport (nmol/min/mgprotein) 0.0 0.1 0.2 0.3 0.4 0.5 0.0 0.1 0.2 0.3 0.4 0.5 Porphyrin Figure 7.
X
ABCG2 p.Gln141Lys 19827267:232:129
status: VERIFIEDX
ABCG2 p.Gln141Lys 19827267:232:337
status: VERIFIED251 The new camptothecin analogues that were non-substrates for ABCG2 circumvented ABCG2-mediated drug resistance without any influence from major SNPs, i.e., V12M and Q141K (Tamura et al. 2007b).
X
ABCG2 p.Gln141Lys 19827267:251:164
status: VERIFIED
No.
Sentence
Comment
102
In particular, a SNP in exon 5 of the ABCG2 gene has been described, in which a 421C>A transversion results in a lysine to glutamine amino acid change at codon 141 (Q141K) [68].
X
ABCG2 p.Gln141Lys 19835554:102:165
status: VERIFIED108 Specifically, recent studies have demonstrated that subjects with a reduced ABCG2 activity due to the Q141K variant are at an increased risk for gefitinib-induced diarrhea [72], and altered pharmacokinetics of 9-aminocamptothecin, diflomotecan, irinotecan, rosuvastatin, sulfasalazine, and topotecan [64].
X
ABCG2 p.Gln141Lys 19835554:108:102
status: VERIFIED
PMID: 19842935
[PubMed]
Keskitalo JE et al: "Different effects of the ABCG2 c.421C>A SNP on the pharmacokinetics of fluvastatin, pravastatin and simvastatin."
No.
Sentence
Comment
160
7 Imai Y, Nakane M, Kage K et al.: C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 19842935:160:143
status: NEW9 One of the most studied variations, c.421C>A (p.Gln141Lys; rs2231142), has been associated with reduced transport activity of ABCG2 in vitro [4-10].
X
ABCG2 p.Gln141Lys 19842935:9:48
status: NEW17 The participants Aims: This study aimed to investigate possible effects of the ABCG2 c.421C>A (p.Gln141Lys; rs2231142) genotype on fluvastatin, pravastatin and simvastatin pharmacokinetics.
X
ABCG2 p.Gln141Lys 19842935:17:97
status: NEW161 7 Imai Y, Nakane M, Kage K etal.: C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 19842935:161:142
status: NEW
PMID: 19890391
[PubMed]
Stark K et al: "Common polymorphisms influencing serum uric acid levels contribute to susceptibility to gout, but not to coronary artery disease."
No.
Sentence
Comment
115
SNP Position a Major allele (1) Minor allele (2) Gene name(s) Function Call rate b rs12129861 Chr1: 144,437,046 G A PDZK1 59 Intergenic 98.4% rs780094 Chr2: 27,594,741 C T GCKR Intron 16 99.2% rs734553 Chr4: 9,532,102 T G SLC2A9 GLUT9 Intron 7 96.0% rs6855911 Chr4: 9,545,008 A G SLC2A9 GLUT9 Intron 7 99.0% rs2231142 Chr4: 89,271,347 G T ABCG2 Exon 5 Q141K 99.2% rs742132 Chr6: 25,715,550 A G LRRC16A Intron 34 99.4% rs1183201 Chr6: 25,931,423 T A SLC17A1 Intron 3 98.2% rs12356193 Chr10: 61,083,359 A G SLC16A9 Intron 5 98.7% rs17300741 Chr11: 64,088,038 G A SLC22A11 Intron 4 98.2% rs505802 Chr11: 64,113,648 T C SLC22A12 URAT1 59 Intergenic 99.3% a on human genome build 18. b in total sample (n = 4,960).
X
ABCG2 p.Gln141Lys 19890391:115:352
status: VERIFIED120 This is the only marker examined that leads to a missense mutation with an amino acid exchange from glutamine to lysine at position 141 in ABCG2 transporter and therefore could have a direct and causal influence on development of the disease [6].
X
ABCG2 p.Gln141Lys 19890391:120:100
status: VERIFIED
PMID: 19909340
[PubMed]
Nakagawa H et al: "Disruption of N-linked glycosylation enhances ubiquitin-mediated proteasomal degradation of the human ATP-binding cassette transporter ABCG2."
No.
Sentence
Comment
22
In fact, the protein expression levels of ABCG2 SNP variants (Q141K, F208S and S441N) were significantly lower than that of the wild-type (WT) ABCG2 [23].
X
ABCG2 p.Gln141Lys 19909340:22:62
status: VERIFIED
PMID: 19921266
[PubMed]
Wang B et al: "Genetic analysis of ABCG2 gene C421A polymorphism with gout disease in Chinese Han male population."
No.
Sentence
Comment
23
In the present study, gout in Chinese individuals was strongly associated with the ABCG2 missense SNP rs2231142 which leads to a glutamine-to-lysine amino acid substitution (Q141K) in exon 5.
X
ABCG2 p.Gln141Lys 19921266:23:174
status: VERIFIED
PMID: 19930591
[PubMed]
Andersen V et al: "Polymorphisms in the xenobiotic transporter Multidrug Resistance 1 (MDR1) and interaction with meat intake in relation to risk of colorectal cancer in a Danish prospective case-cohort study."
No.
Sentence
Comment
36
The variant allele of the non-synonymous BCRP C421A (Q141K) polymorphism has been associated with lower protein levels and lowered transport activity both in vitro [34,35] and in vivo [27,35], but no associations were found between either the intestinal levels of protein and mRNA and BRCP polymorphisms [36] or between BCRP polymorphisms and risk of CRC [4].
X
ABCG2 p.Gln141Lys 19930591:36:53
status: VERIFIED
PMID: 19949922
[PubMed]
Cascorbi I et al: "Pharmacogenetics of ATP-binding cassette transporters and clinical implications."
No.
Sentence
Comment
224
Both identified 34G>A (V12M) and 421C>A (Q141K).
X
ABCG2 p.Gln141Lys 19949922:224:41
status: NEW231 HEK-293 cells, transfected with wild-type or V12N, ABCG2 showed apical staining with an ABCG2 antibody, but high intracellular staining in case of Q141K, suggesting impaired membrane trafficking or incorrect membrane insertion.
X
ABCG2 p.Gln141Lys 19949922:231:147
status: NEW242 0.005 c. 376 C>T Q126stop 0.01 0.00a 0.00b Lack of function c. 421 C>A Q141K 0.35 0.11a 0.02b Reduced activity [120, 124, 137] IVS 5 -16 A>G ?
X
ABCG2 p.Gln141Lys 19949922:242:71
status: NEW
PMID: 19949923
[PubMed]
Aszalos A et al: "Flow cytometric evaluation of multidrug resistance proteins."
No.
Sentence
Comment
258
The V12M and Q141K variants were described by Zamber et al.
X
ABCG2 p.Gln141Lys 19949923:258:13
status: NEW
PMID: 19949928
[PubMed]
Ross DD et al: "Impact of breast cancer resistance protein on cancer treatment outcomes."
No.
Sentence
Comment
70
A number of single nucleotide polymorphisms (SNPs) have been observed in the BCRP gene (77), and of those nonsynonymous SNPs observed in the coding region, the most common and most extensively studied are the G34A (exon 2) and C421A (exon 5) alleles, which cause alterations of amino acids 12 (V12M) and 141 (Q141K), respectively (78-81).
X
ABCG2 p.Gln141Lys 19949928:70:309
status: VERIFIED79 In work done by Mizurai et al., the enforced expression of the G34A or C421A allele in porcine renal LLC-PK1 cells resulted in reduced transporter function, with a reduction in BCRP apical membrane localization for the G34A variant protein and reduced transporter function for the Q141K allele (82).
X
ABCG2 p.Gln141Lys 19949928:79:281
status: VERIFIED84 transfected seven BCRP coding region SNPs into LLC-PK1 cells, and found lower BCRP -protein expression for the Q141K and S441N alleles (84).
X
ABCG2 p.Gln141Lys 19949928:84:111
status: VERIFIED90 found four nonsynonymous coding region SNPs among 92 Korean subjects (V12M, Q141K, P269S, Q126Stop), and four SNPs in the BCRP promoter region, one of which was in the HIF-1 response element (C-19031T) (86).
X
ABCG2 p.Gln141Lys 19949928:90:76
status: VERIFIED93 Tamura et al. used multicolor fluorescence in situ hybridization to assure uniform mRNA expression of cDNAs of seven BCRP SNPs (V12M, Q141K, F208S, S248P, F431L, S441N and F489L) transduced into Flp-In-293 cells (87, 88).
X
ABCG2 p.Gln141Lys 19949928:93:134
status: VERIFIED94 Protein expression from the F208S and S441N variants was found to be low; the V12M and Q141K alleles had IC50 s for SN-38 that were approximately half that of the wild-type; all the other alleles examined had significantly lower IC50 values for SN-38, mitoxantrone, doxorubicin, daunorubicin and etoposide when compared with wild type alleles (88).
X
ABCG2 p.Gln141Lys 19949928:94:87
status: VERIFIED104 The first report associating a BCRP polymorphism with altered drug exposure found that cancer patients (N = 5) heterozygous for the C421A (Q141K) allele had plasma levels of IV diflomotecan that were almost threefold higher than those of 15 patients harboring the wild-type allele (92).
X
ABCG2 p.Gln141Lys 19949928:104:153
status: VERIFIED119 found the Q141K polymorphism is 3.1.2.
X
ABCG2 p.Gln141Lys 19949928:119:10
status: VERIFIED124 Korenaga et al. investigated the C421A (Q141K) allele and found that individuals with the wild-type C/C genotype were more at risk for developing nonpapillary renal cell carcinoma (RCC) in a study of 200 Japanese patients with nonpapillary RCC and age-and sex-matched control subjects (108).
X
ABCG2 p.Gln141Lys 19949928:124:40
status: VERIFIED
PMID: 19950006
[PubMed]
Sissung TM et al: "Pharmacogenetics of membrane transporters: an update on current approaches."
No.
Sentence
Comment
57
This SNP results in an amino acid change of Gln to Lys at codon 141 and has been shown in Flp-In-293 cells to have half the protein expression of the wildtype [34].
X
ABCG2 p.Gln141Lys 19950006:57:44
status: VERIFIED123 [70, 71] Docetaxel AUC and overall liver with 3435TT genotype [100-102] Docetaxel is transported by ABCB1 [103] ABCG2 Topotecan Increased accumulation of drug in cells transfected with 421A (Q141K) [104] Increased bioavailability in heterozygous C421A patients [104] Imatinib Increased accumulation of drug in cells transfected with 421A (Q141K) [105] No significant difference in AUC or Cmax in heterozygous C421 patients [105] ABCC1 N/A None to date ABCC2 N/A None to date OATP1B1 Pravastatin Reduced membrane expression of OATP1B1*5 variant [45] Increased AUC in OATP1B1*5 [94, 106] OATP1B3 Leuprolide and goserelin Reduced transport of testosterone with the 334G/699A haplotype [24] Increased progression-free survival in patients with 334G/699A haplotype [97] consequences of the 2677G[T/A polymorphism may be explained by expression alterations alone and not necessarily by altered substrate binding or transport efficiency of the protein.
X
ABCG2 p.Gln141Lys 19950006:123:191
status: VERIFIEDX
ABCG2 p.Gln141Lys 19950006:123:339
status: VERIFIED
PMID: 20053405
[PubMed]
Brandstatter A et al: "Sex and age interaction with genetic association of atherogenic uric acid concentrations."
No.
Sentence
Comment
69
Bioinformatic analysis The ABCG2 SNP rs2231142 (Q141K) was recently shown to be a loss-of-function mutation that causes hyperuricemia and gout [9].
X
ABCG2 p.Gln141Lys 20053405:69:48
status: VERIFIED
PMID: 20090896
[PubMed]
Ichida K et al: "What lies behind serum urate concentration? Insights from genetic and genomic studies."
No.
Sentence
Comment
89
The frequency of the mutation Q141K, encoded by the common SNP rs2231142, is highly variable in the human population; the frequency of the A allele ranges from 1 to 5% in Africans, to approximately 30% in Asians.
X
ABCG2 p.Gln141Lys 20090896:89:30
status: VERIFIED90 Urate transport by the ABCG2 mutant Q141K is about half that of the wild type [43].
X
ABCG2 p.Gln141Lys 20090896:90:36
status: VERIFIED91 Q126X shows stronger effects on gout development than Q141K, conferring an odds ratio of 5.97 [44].
X
ABCG2 p.Gln141Lys 20090896:91:54
status: VERIFIED
No.
Sentence
Comment
87
Furthermore, the mutation Q141K encoded by the common SNP rs2231142 resulted in a 53% reduction in urate transport rates, compared with wild-type ABCG2 [34 ].
X
ABCG2 p.Gln141Lys 20110790:87:26
status: VERIFIED
PMID: 20130569
[PubMed]
Tomlinson B et al: "ABCG2 polymorphism is associated with the low-density lipoprotein cholesterol response to rosuvastatin."
No.
Sentence
Comment
5
Rosuvastatin is one of the few drugs for which regulatory authorities, including the US Food and Drug Administration, have recommended starting with lower doses (5 mg instead of 10 mg) in Asian patients.3 This recommendation was based on data from single-dose pharmacokinetic studies that showed that systemic exposure to rosuvastatin was approximately twice as high in Asians as in non-Asians.4 These -differences are unlikely to be due to ethnicity-related variations in drug metabolizing enzymes, given that -rosuvastatin -undergoes relatively little enzymic modification and is a substrate for a number of drug transporters that influence its disposition.5,6 The efflux transporter ATP-binding cassette G2 (ABCG2) plays a significant role in the disposition of rosuvastatin in -vitro.7 The c.421C>A (rs2231142, Gln141Lys) single-nucleotide polymorphism of ABCG2 influences the pharmacokinetics of rosuvastatin in Chinese and Caucasian subjects.8,9 We examined whether this ABCG2 single-nucleotide polymorphism influences the reduction of LDL-C levels when rosuvastatin is administered to Chinese patients with hypercholesterolemia, including some with familial hypercholesterolemia (FH).
X
ABCG2 p.Gln141Lys 20130569:5:829
status: NEW
PMID: 20140710
[PubMed]
Yue W et al: "Two novel SNPs of the ABCG2 gene and its associations with milk traits in Chinese Holsteins."
No.
Sentence
Comment
18
For example, the significance of the Q141K SNP has been shown in vitro [14] and in clinical studies [15, 16].
X
ABCG2 p.Gln141Lys 20140710:18:37
status: VERIFIED
PMID: 20159988
[PubMed]
Pollex EK et al: "Breast cancer resistance protein (BCRP)-mediated glyburide transport: effect of the C421A/Q141K BCRP single-nucleotide polymorphism."
No.
Sentence
Comment
0
Breast Cancer Resistance Protein (BCRP)-Mediated Glyburide Transport: Effect of the C421A/Q141K BCRP Single-Nucleotide Polymorphism Erika K. Pollex, Gregory Anger, Janine Hutson, Gideon Koren, and Micheline Piquette-Miller Division of Clinical Pharmacology and Toxicology (E.K.P., J.H., G.K.) and Motherisk Program (E.K.P., J.H., G.K.), Hospital for Sick Children, Toronto, Ontario, Canada; and Department of Pharmaceutical Sciences (E.K.P., G.A., G.K., M.P.-M.) and Institute of Medical Science (J.H., G.K.), University of Toronto, Toronto, Ontario, Canada Received October 14, 2009; accepted February 16, 2010 ABSTRACT: The antidiabetic agent glyburide (glibenclamide) is frequently used for the treatment of type II diabetes and is increasingly being used for the treatment of gestational diabetes.
X
ABCG2 p.Gln141Lys 20159988:0:90
status: VERIFIED3 Associations between the Q141K (C421A) SNP and ABCG2 protein expression, membrane surface translocation, efflux activity, or ATPase activity have been shown.
X
ABCG2 p.Gln141Lys 20159988:3:25
status: VERIFIED5 The purpose of this study is to investigate whether the Q141K SNP causes alterations in ABCG2-mediated glyburide transport.
X
ABCG2 p.Gln141Lys 20159988:5:56
status: VERIFIED6 Glyburide accumulation assays were carried out with stably transfected human embryonic kidney (HEK)-293 cells expressing wild-type ABCG2 (Arg482) and polymorphic ABCG2 (Q141K).
X
ABCG2 p.Gln141Lys 20159988:6:169
status: VERIFIED8 The apparent Kt and Vmax values for the transfected HEK-293 cells expressing the polymorphic variant (Q141K) of ABCG2 were significantly higher than those values determined for the wild-type ABCG2-expressing cells (p < 0.05).
X
ABCG2 p.Gln141Lys 20159988:8:102
status: VERIFIED9 Our results indicate that the Q141K variant of ABCG2 may have the potential to alter the placental pharmacokinetics of glyburide used in pregnancy.
X
ABCG2 p.Gln141Lys 20159988:9:30
status: VERIFIED28 The results of these studies vary, showing inconsistencies in the effect of the C421A (Q141K) polymorphism on ABCG2 protein activity.
X
ABCG2 p.Gln141Lys 20159988:28:87
status: VERIFIED29 It has been suggested that the Q141K SNP may affect ABCG2 protein expression, membrane surface translocation, efflux activity, or ATPase activity.
X
ABCG2 p.Gln141Lys 20159988:29:31
status: VERIFIED30 Of particular concern, in vivo studies have shown patients expressing the Q141K variant who were exposed to the chemotherapeutic agents topotecan and diflomotecan achieved higher plasma drug levels, suggesting a significant reduction in ABCG2-mediated excretion (Sparreboom et al., 2004).
X
ABCG2 p.Gln141Lys 20159988:30:74
status: VERIFIED34 Because BCRP/ABCG2 is believed to protect the fetus against the accumulation of its substrates, it is important to determine the potential effect of the Q141K SNP on the placental transfer of drugs used in pregnancy.
X
ABCG2 p.Gln141Lys 20159988:34:153
status: VERIFIED37 Therefore, the purpose of this study is to investigate whether the Q141K SNP causes alterations in ABCG2-mediated glyburide transport.
X
ABCG2 p.Gln141Lys 20159988:37:67
status: VERIFIED38 Materials and Methods Stably transfected human embryonic kidney (HEK)-293 cells containing full-length ABCG2 encoding wild-type (Arg482) or the SNP variant (Q141K) of ABCG2, or an empty vector to serve as a control were obtained (Dr. Robert W. Robey, National Cancer Institute, Bethesda, MD), and expression was enforced by selection in G418 (Invitrogen, Carlsbad, CA).
X
ABCG2 p.Gln141Lys 20159988:38:157
status: VERIFIED41 Flow cytometry assays were performed to confirm surface expression of ABCG2 in the wild-type (Arg482) and polymorphic (Q141K) clones.
X
ABCG2 p.Gln141Lys 20159988:41:119
status: VERIFIED51 Transport activity was examined by measuring glyburide accumulation in stably transfected HEK-293 cells expressing wild-type ABCG2 (Arg482), polymorphic ABCG2 (Q141K), and an empty vector.
X
ABCG2 p.Gln141Lys 20159988:51:160
status: VERIFIED72 Cells were incubated for 30 min with either phycoerythrin-labeled negative control antibody or the phycoerythrin-labeled anti-ABCG2 antibody 5D3 (red, negative control; green, Arg482; blue, Q141K).
X
ABCG2 p.Gln141Lys 20159988:72:190
status: VERIFIED77 Data from the HEK-293 empty vector-transfected cell line and each of the ABCG2-transfected HEK-293 cell lines (Arg482, Q141K) were used simultaneously to fit the model parameters because the assumption was made that the permeability of the empty vector-transfected cell line and each of the ABCG2-transfected HEK-293 cell lines was the same.
X
ABCG2 p.Gln141Lys 20159988:77:119
status: VERIFIED84 The surface expression of ABCG2 in HEK-293 cells transfected with empty vector, wild-type (Arg482), or SNP variant (Q141K) of FIG. 2.
X
ABCG2 p.Gln141Lys 20159988:84:116
status: VERIFIED85 A, glyburide accumulation in the presence and absence of FTC (10 M) in HEK293 cells transfected with wild-type ABCG2 (Arg482), ABCG2 polymorphic variant (Q141K), and control (empty vector) after 60 min of exposure to 20 M glyburide.
X
ABCG2 p.Gln141Lys 20159988:85:162
status: VERIFIED87 B, accumulation of glyburide in HEK-293 cells transfected with wild-type ABCG2 (Arg482), ABCG2 polymorphic variant (Q141K), and empty vector control after 20 min of exposure to various concentrations of glyburide in the presence and absence of FTC (10 M).
X
ABCG2 p.Gln141Lys 20159988:87:116
status: VERIFIED90 As shown in Fig. 1, surface expression of ABCG2 was detected at similar levels in the ABCG2-transfected HEK-293 cell lines expressing wild-type (Arg482) and the polymorphic variant (Q141K) of ABCG2 (Fig. 1).
X
ABCG2 p.Gln141Lys 20159988:90:182
status: VERIFIED94 Inhibition of ABCG2/BCRP by fumitremorgin C (FTC) (10 M) resulted in marked increases in intracellular accumulation of [3 H]glyburide in HEK-293 cells expressing the wild-type (Arg482) ABCG2 or SNP variant (Q141K) of ABCG2 after 60 min of exposure to 20 M glyburide (Fig. 2A).
X
ABCG2 p.Gln141Lys 20159988:94:215
status: VERIFIED96 [3 H]Glyburide accumulation experiments carried out for 20 min at various concentrations of glyburide (0.2-100 M) show inhibitable transport in both Arg482- and Q141K-transfected HEK-293 cells exposed to up to 20 M glyburide (Fig. 2B).
X
ABCG2 p.Gln141Lys 20159988:96:169
status: VERIFIED98 Data obtained suggest that full FTC-mediated inhibition of BCRP/ ABCG2 is seen in the wild-type transfected cells at higher drug concentrations than in the SNP-transfected cells (Q141K) (Fig. 2B).
X
ABCG2 p.Gln141Lys 20159988:98:179
status: VERIFIED101 In the transfected HEK-293 cells expressing the polymorphic variant (Q141K) of ABCG2, the apparent Kt and Vmax values were 80.37 Ϯ 22.96 M and 384.79 Ϯ 69.71 pmol/min ⅐ mg protein, respectively.
X
ABCG2 p.Gln141Lys 20159988:101:69
status: VERIFIED102 Both the apparent Kt and Vmax values for the transfected HEK-293 cells expressing the polymorphic variant (Q141K) of ABCG2 were found to be significantly higher than those values determined for the wild-type ABCG2-expressing cells (p Ͻ 0.05).
X
ABCG2 p.Gln141Lys 20159988:102:107
status: VERIFIED106 The recent identification of the nonsynonymous SNP, Q141K (Honjo et al., 2002; Imai et al., 2002), in the coding region of ABCG2 and the potential functional consequences on drug disposition has led to an increasingly important area of research.
X
ABCG2 p.Gln141Lys 20159988:106:52
status: VERIFIED107 To elucidate the potential effects of the Q141K SNP on BCRP-mediated glyburide transport, we examined and compared the accumulation of glyburide in HEK293 cells stably transfected with full-length ABCG2 encoding wild-type or the SNP variant (Q141K) of ABCG2.
X
ABCG2 p.Gln141Lys 20159988:107:42
status: VERIFIEDX
ABCG2 p.Gln141Lys 20159988:107:242
status: VERIFIED110 Regarding BCRP transport kinetics, the values obtained for apparent affinity (Kt) of glyburide for BCRP suggest that glyburide has greater affinity for the wild-type ABCG2 protein compared with the affinity determined for the Q141K ABCG2 variant.
X
ABCG2 p.Gln141Lys 20159988:110:226
status: VERIFIED114 Rate of glyburide transport in wild-type (Arg482), SNP (Q141K), and empty vector-transfected HEK-293 cells after exposure to various concentrations of glyburide (0.2-100 M) for 20 min.
X
ABCG2 p.Gln141Lys 20159988:114:56
status: VERIFIED119 Metabolism of glyburide in this system is also thought to be minimal and similar in both wild-type and Q141K ABCG2-transfected cells; however, intracellular binding and glyburide metabolism could also confound the estimation of Kt values.
X
ABCG2 p.Gln141Lys 20159988:119:103
status: VERIFIED120 It has been previously reported that the Q141K variant is associated with increased sensitivity to chemotherapeutic agents as a result of a decrease in protein expression in transfected cells (Imai et al., 2002).
X
ABCG2 p.Gln141Lys 20159988:120:41
status: VERIFIED121 Data obtained in our study did not show reduced surface expression of Q141K ABCG2.
X
ABCG2 p.Gln141Lys 20159988:121:70
status: VERIFIED122 Thus, the impaired ability of the ABCG2 protein to efflux glyburide seen in cells transfected with Q141K ABCG2 was likely the result of SNP-induced alterations in the function of the protein itself.
X
ABCG2 p.Gln141Lys 20159988:122:99
status: VERIFIED123 Similar to our findings, Morisaki et al. (2005) and Zamber et al. (2003) did not observe a correlation between decreased expression of ABCG2 and the Q141K SNP.
X
ABCG2 p.Gln141Lys 20159988:123:149
status: VERIFIED124 However, Morisaki et al. (2005) noted that a larger proportion of the surface-localized Q141K ABCG2 protein is intracellular, implying less efficient post-translational processing in the SNP variant and thus providing a potential mechanism for reduced efficiency.
X
ABCG2 p.Gln141Lys 20159988:124:88
status: VERIFIED125 In summary, data from our accumulation studies indicate that the HEK-293 cell line expressing the Q141K polymorphic variant of the ABCG2/BCRP gene exhibits a reduced affinity for BCRP-mediated glyburide efflux.
X
ABCG2 p.Gln141Lys 20159988:125:98
status: VERIFIED126 Therefore, the Q141K variant of ABCG2 may have the potential to alter the placental pharmacokinetics of glyburide and other clinically used BCRP substrate drugs in pregnancy.
X
ABCG2 p.Gln141Lys 20159988:126:15
status: VERIFIED128 However, the results of this study provide sufficient reason to further investigate the impact of SNPs on ABCG2-mediated glyburide transport because the potential exists for increased fetal exposure to glyburide in pregnancy among patients carrying the Q141K polymorphic variant allele of ABCG2.
X
ABCG2 p.Gln141Lys 20159988:128:253
status: VERIFIED
PMID: 20207952
[PubMed]
Bailey KM et al: "Hepatic metabolism and transporter gene variants enhance response to rosuvastatin in patients with acute myocardial infarction: the GEOSTAT-1 Study."
No.
Sentence
Comment
28
In vitro pharmacokinetic evidence strongly suggests that common nonsynonymous SNPs in the SLCO1B1 (521TϾC; Val174 Ala) and BCRP (421CϾA; Gln141 Lys) genes both result in markedly decreased transport function and thus could potentially play a significant role in determining rosuvastatin concentration within the hepatocyte.23-29 It is a continual challenge to the medical profession to seek to match individual treatments to individual patients (personalized medicine).
X
ABCG2 p.Gln141Lys 20207952:28:149
status: VERIFIED
PMID: 20345483
[PubMed]
Kawahara H et al: "Pharmacological interaction with sunitinib is abolished by a germ-line mutation (1291T>C) of BCRP/ABCG2 gene."
No.
Sentence
Comment
5
These inhibitory effects of sunitinib were further analyzed in Q141K-, R482G-, R482S-, and F431L-variant BCRPs.
X
ABCG2 p.Gln141Lys 20345483:5:63
status: VERIFIED20 (14) We also reported variant BCRP SNP cDNAs harboring 421C>A (amino acid substitution Q141K),(15) and this SNP is physiologically important because the pharmacokinetics of diflomotecan, a new camptothecin-derivative anticancer agent, and the risk of adverse reactions, such as gefitinib-induced diarrhea, was affected in patients heterozygous for the A421 allele.
X
ABCG2 p.Gln141Lys 20345483:20:87
status: VERIFIED109 (13,35-37) The Q141K variant, a widespread SNP in Japanese individuals, is associated with the low protein expression of BCRP,(15) and the F431L variant, also a germ-line mutation of BCRP, shows a low level of resistance to SN-38.
X
ABCG2 p.Gln141Lys 20345483:109:15
status: VERIFIED173 Reversal ratios are shown for wild-type (gray circles), and Q141K (open squares), F431L (filled circles), R482S (open diamonds), and R482G (open triangles) BCRP variant-expressing cells.
X
ABCG2 p.Gln141Lys 20345483:173:60
status: VERIFIED
PMID: 20347140
[PubMed]
Hutson JR et al: "Placental P-glycoprotein and breast cancer resistance protein: influence of polymorphisms on fetal drug exposure and physiology."
No.
Sentence
Comment
142
The G34A and C421 SNPs result in amino acid changes (V12M and Q141K respectively).
X
ABCG2 p.Gln141Lys 20347140:142:62
status: VERIFIED357 [60] Imai Y, Nakane M, Kage K, Tsukahara S, Ishikawa E, Tsuruo T, et al. C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 20347140:357:180
status: VERIFIED
PMID: 20386493
[PubMed]
Stamp LK et al: "Polymorphisms within the folate pathway predict folate concentrations but are not associated with disease activity in rheumatoid arthritis patients on methotrexate."
No.
Sentence
Comment
57
With the exception of ABCG2 (rs2231142; Q141K) and ITPA 94C > A 368 Pharmacogenetics and Genomics 2010, Vol 20 No 6 (rs41320251), patients were genotyped for each SNP by two-tube allele-specific polymerase chain reaction (PCR) (see Supplementary data Table S1, Supplemental digital content 1, http://links.lww.com/FPC/A155 for primer sequences).
X
ABCG2 p.Gln141Lys 20386493:57:40
status: VERIFIED67 Patients were genotyped for ABCG2 (rs2231142; Q141K) using a predesigned TaqMan SNP genotyping assay (C__15854163_70) (Applied Biosystems, Foster City, California, USA).
X
ABCG2 p.Gln141Lys 20386493:67:46
status: VERIFIED
PMID: 20421215
[PubMed]
Yamagishi K et al: "The rs2231142 variant of the ABCG2 gene is associated with uric acid levels and gout among Japanese people."
No.
Sentence
Comment
31
The rs2231142 variant in ABCG2 (Q141K) was genotyped in participants in community surveys in 2001 in Kyowa and in 2003 in Ikawa, as a part of the CIRCS.
X
ABCG2 p.Gln141Lys 20421215:31:32
status: VERIFIED86 A recent functional and association study of Japanese people [8] has identified another causal SNP of ABCG2, Q126X, with less frequency of minor allele (1.8% among control), but stronger effect on gout/hyperuricaemia than presently analysed ABCG2 (Q141K).
X
ABCG2 p.Gln141Lys 20421215:86:248
status: VERIFIED
No.
Sentence
Comment
84
ABCG2 A non-synonymous single nucleotide polymorphism (rs2231142; Q141K) is the likely etiological variant explaining the association of ABCG2 with gout [11,24].
X
ABCG2 p.Gln141Lys 20472486:84:66
status: VERIFIED152 Strong association of the ABCG2 Q141K variant with gout has been reported in people of Western Pacific (Samoa, Tonga) ancestry (OR > 2.5) but not in people of Eastern Pacific ancestry (Cook Island and New Zealand M¯aori) (OR < 1.4) [28].
X
ABCG2 p.Gln141Lys 20472486:152:32
status: VERIFIED
No.
Sentence
Comment
35
ABCG2 encodes an ATP binding cassette transporter, expressed in the apical membranes of several tissues, including liver and human proximal renal tubular cells, where it transports a wide variety of substrates, including urate.21 Recently, ABCG2 has been shown to encode a high-capacity urate secretion transporter.21,22 Several loss-of-function ABCG2 variants have also been identified that confer an increased risk of gout, including a common missense mutation (Q141K) within the nucleotide binding domain (next to the equivalent phenylalanine residue commonly mutated in cystic fibrosis), which was shown to reduce urate efflux in Xenopus oocytes by 53%.21 This variant appears to be the causal ABCG2 variant associated with raised serum urate and gout in GWAS meta-analyses.20,23 It confers an adjusted odds ratio of 1.68 per allele for gout and has a minor allele frequency of 3% in blacks, 11% in whites, and about 30% in Asians.
X
ABCG2 p.Gln141Lys 20613716:35:464
status: VERIFIED
PMID: 20700710
[PubMed]
Wakabayashi-Nakao K et al: "Production of cells with targeted integration of gene variants of human ABC transporter for stable and regulated expression using the Flp recombinase system."
No.
Sentence
Comment
34
Furthermore, certain non-synonymous single nucleotide polymorphisms (SNPs), such as Q141K, F208S, and S441N, were also found to greatly affect the stability of ABCG2 in the ER and to enhance the protein degradation rate via ubiquitination and proteasomal proteolysis in Flp-In-293 cells (22-27) (Fig. 1).
X
ABCG2 p.Gln141Lys 20700710:34:84
status: VERIFIED
PMID: 20720558
[PubMed]
Takahashi N et al: "Influence of CYP3A5 and drug transporter polymorphisms on imatinib trough concentration and clinical response among patients with chronic phase chronic myeloid leukemia."
No.
Sentence
Comment
231
44 Imai, Y., Nakane, M., Kage, K., Tsukahara, S., Ishikawa, E., Tsuruo, T. et al. C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 20720558:231:189
status: NEW6 Moreover, previous studies have shown that the ABCG2 421C4A (p.Q141K) variant is prevalent among Japanese and Han Chinese individuals and less common among Africans and Caucasians.
X
ABCG2 p.Gln141Lys 20720558:6:63
status: NEW79 In addition, our study identified a significant correlation between ABCG2 421C4A (p.Q141K) and IM trough concentration, suggesting an important role for the BCRP efflux transporter in IM metabolism.
X
ABCG2 p.Gln141Lys 20720558:79:84
status: NEW
PMID: 20812902
[PubMed]
Ni Z et al: "Structure and function of the human breast cancer resistance protein (BCRP/ABCG2)."
No.
Sentence
Comment
22
Of these, Q141K is most extensively studied and has been found to be associated with inter-individual variations in the pharmacokinetics, response or toxicity of drugs [20-22] as well as genetic diseases such as gout [23].
X
ABCG2 p.Gln141Lys 20812902:22:10
status: VERIFIED244 The most important variant is Q141K, which occurs in Japanese and Chinese populations at high allele frequencies (30 - 60%) and in Caucasians and African-American populations at relatively low allele frequencies (5 - 10%) [111-112].
X
ABCG2 p.Gln141Lys 20812902:244:30
status: VERIFIED245 Several studies consistently revealed that Q141K had a lower protein expression level than wild-type BCRP in both transfected cells and human tissues [113-115].
X
ABCG2 p.Gln141Lys 20812902:245:43
status: VERIFIED246 The transport activity of Q141K in vivo would be expected to be decreased compared with wild-type BCRP owing to its lower level of protein expression.
X
ABCG2 p.Gln141Lys 20812902:246:26
status: VERIFIED248 A recent study has revealed that Q141K undergoes increased lysosomal and proteasomal degradations than wild-type BCRP, possibly explaining the lower level of protein expression of the variant [119].
X
ABCG2 p.Gln141Lys 20812902:248:33
status: VERIFIED
PMID: 20854129
[PubMed]
Hahnova-Cygalova L et al: "Fetoprotective activity of breast cancer resistance protein (BCRP, ABCG2): expression and function throughout pregnancy."
No.
Sentence
Comment
183
The nonsynonymous C421A SNP that results in a glycine to lysine (Q141K) amino-acid change has been linked to decreased plasma membrane expression of ABCG2 (Imai et al., 2002; Morisaki et al., 2005) and, consequently, altered drug pharmacokinetics (Sparreboom et al., 2004, 2005; Zamboni et al., 2006).
X
ABCG2 p.Gln141Lys 20854129:183:65
status: VERIFIED191 In a recent work by Pollex et al. (2010), glyburide transport was studied in wild-type (Arg482) and SNP (Q141K) HEK-293 cells over a range of substrate concentrations (0.2-100 μM).
X
ABCG2 p.Gln141Lys 20854129:191:104
status: NEW192 The investigators conclude that the Q141K variant of ABCG2 may have the potential to alter the placental pharmacokinetics of glyburide and other clinically used ABCG2 substrate drugs in pregnancy (Pollex et al., 2010).
X
ABCG2 p.Gln141Lys 20854129:192:36
status: VERIFIED
PMID: 20858603
[PubMed]
Phipps-Green AJ et al: "A strong role for the ABCG2 gene in susceptibility to gout in New Zealand Pacific Island and Caucasian, but not Maori, case and control sample sets."
No.
Sentence
Comment
0
A strong role for the ABCG2 gene in susceptibility to gout in New Zealand Pacific Island and Caucasian, but not Ma¯ori, case and control sample sets Amanda J. Phipps-Green1, Jade E. Hollis-Moffatt1, Nicola Dalbeth3, Marilyn E. Merriman1, Ruth Topless1, Peter J. Gow4, Andrew A. Harrison5, John Highton2, Peter B.B. Jones3, Lisa K. Stamp6 and Tony R. Merriman1,* 1 Department of Biochemistry and 2 Department of Medicine, University of Otago, Dunedin, New Zealand, 3 Department of Medicine, University of Auckland, Auckland, New Zealand, 4 Department of Rheumatology, Middlemore Hospital, Auckland, New Zealand, 5 Department of Medicine, University of Otago, Wellington, New Zealand and 6 Department of Medicine, University of Otago, Christchurch, New Zealand Received June 24, 2010; Revised September 8, 2010; Accepted September 16, 2010 Genetic variation in ABCG2 (rs2231142, Q141K), encoding a uric acid transporter, is associated with gout in diverse populations.
X
ABCG2 p.Gln141Lys 20858603:0:881
status: NEW23 In addition, a missense single nucleotide polymorphism (SNP) (rs2231142; Q141K) in ABCG2 has been associated with hyperuricaemia and gout in Caucasian, Han Chinese, Japanese and African-American samples (4,7-10).
X
ABCG2 p.Gln141Lys 20858603:23:73
status: VERIFIED25 The lysine allele of Q141K, which explains the genetic association in Caucasian populations, encodes a transporter with 50% reduced activity (7,9).
X
ABCG2 p.Gln141Lys 20858603:25:21
status: VERIFIEDX
ABCG2 p.Gln141Lys 20858603:25:126
status: NEW26 Given the very high rate of gout in NZ Ma¯ori and Pacific Island people, here we tested whether or not ABCG2 [rs2231142 (Q141K)] conferred a strong risk for gout in case-control samples drawn from these populations, and in an NZ Caucasian case-control sample set.
X
ABCG2 p.Gln141Lys 20858603:26:126
status: VERIFIED60 DISCUSSION Association of rs2231142 (Q141K) with serum urate levels and gout in Caucasian and Japanese is established (4,7,9,10), and has been reported in Han Chinese and African-American sample sets (4,8).
X
ABCG2 p.Gln141Lys 20858603:60:37
status: VERIFIED64 Analysis of association of rs2231142 (ABCG2: Q141K) in NZ Ma¯ori, Pacific Island and Caucasian case-control samples Genotype, no.
X
ABCG2 p.Gln141Lys 20858603:64:45
status: VERIFIED74 Given the associations of ABCG2 Q141K reported in sample sets drawn from diverse populations (Caucasian, Japanese, Han Chinese, African-American, Pacific Island; Table 1) (4,7-10), the lack of association observed in NZ Ma¯ori is notable.
X
ABCG2 p.Gln141Lys 20858603:74:32
status: VERIFIED96 Given that ABCG2 Q141K determines serum urate levels, where a gender effect is observed (4), and that gout is a condition of extreme serum urate levels in both men and women, a gender effect of ABCG2 in gout would not be expected since all cases, whether male or female, are already hyperuricaemic.
X
ABCG2 p.Gln141Lys 20858603:96:17
status: VERIFIED22 In addition, a missense single nucleotide polymorphism (SNP) (rs2231142; Q141K) in ABCG2 has been associated with hyperuricaemia and gout in Caucasian, Han Chinese, Japanese and African-American samples (4,7-10).
X
ABCG2 p.Gln141Lys 20858603:22:73
status: NEW24 The lysine allele of Q141K, which explains the genetic association in Caucasian populations, encodes a transporter with 50% reduced activity (7,9).
X
ABCG2 p.Gln141Lys 20858603:24:21
status: NEW59 DISCUSSION Association of rs2231142 (Q141K) with serum urate levels and gout in Caucasian and Japanese is established (4,7,9,10), and has been reported in Han Chinese and African-American sample sets (4,8).
X
ABCG2 p.Gln141Lys 20858603:59:37
status: NEW63 Analysis of association of rs2231142 (ABCG2: Q141K) in NZ Ma¯ori, Pacific Island and Caucasian case-control samples Genotype, no.
X
ABCG2 p.Gln141Lys 20858603:63:45
status: NEW
PMID: 20922799
[PubMed]
Tanaka M et al: "Association of multi-drug resistance gene polymorphisms with pancreatic cancer outcome."
No.
Sentence
Comment
75
Minor Allele Frequency Observeda /Reportedb MDR1 7q21.12a Ex27 -55T>C I1145I 1045642 0.49/0.47 MRP1 16p13.11a Ex28 36G>A S1219S 2239330 0.28/0.24 MRP2 10q24.2c Ex10 40G>A V417I 2273697 0.25/0.23 Ex28 -16C>T I1324I 3740066 0.35/0.35 MRP3 17q21.33b Ex26 -13C>T H1314H 2277624 0.24/0.17 MRP4 13q32.1a Ex8 40A>G R317R 2274406 0.39/0.37 MRP5 3q27.1b Ex10 -2A>G Q382Q 7636910 0.35/0.39 BCRP 4q22.1b Ex5 43C>A Q141K 2231142 0.12/0.10 SNP indicates single-nucleotide polymorphism; RS No., reference SNP identification number.
X
ABCG2 p.Gln141Lys 20922799:75:403
status: VERIFIED
PMID: 20972558
[PubMed]
Kim KA et al: "Effect of ABCG2 genotypes on the pharmacokinetics of A771726, an active metabolite of prodrug leflunomide, and association of A771726 exposure with serum uric acid level."
No.
Sentence
Comment
17
Several ABCG2 genetic variants have been reported; the most frequent ABCG2 polymorphisms detected among different ethnic groups are c.34G>A (rs2231137), which codes for V12M, and c.421C>A (rs2231142), which codes for Q141K [4].
X
ABCG2 p.Gln141Lys 20972558:17:217
status: VERIFIED
PMID: 21054463
[PubMed]
Kim KA et al: "ABCG2 polymorphisms, 34G>A and 421C>A in a Korean population: analysis and a comprehensive comparison with other populations."
No.
Sentence
Comment
21
The most frequent ABCG2 polymorphisms detected among different ethnic groups are 34G>A, which codes for V12M, and 421C>A, which codes for Q141K (14).
X
ABCG2 p.Gln141Lys 21054463:21:138
status: VERIFIED81 Comparisons of ABCG2 allele frequencies with other ethnic groups SNP Amino acid change Population (n) Frequency (%) Reference G34A V12M Korea (250) 19Æ8 Present study Southeast Asians (20) 45Æ0 14 Chinese (20) 20Æ0 14 Japanese (124) 19Æ0 15 Japanese (120) 17Æ5 27 Japanese (20) 15Æ0 14 Caucasian (150) 10Æ3 19 Ashkenazi Jewish (20) 10Æ0 14 Mexicans (20) 10Æ0 14 Dutch (100) 6Æ5 37 African-American (150) 6Æ3 27 Middle Eastern (40) 5Æ0 14 Caucasian (150) 3Æ7 27 Swedish (60) 1Æ7 36 C421A Q141K Korea (250) 27Æ8 Present study Japanese (20) 35Æ0 14 Chinese (20) 35Æ0 14 Chinese (95) 34Æ2 22 Japanese (120) 32Æ7 27 Japanese (124) 26Æ6 15 Southeast Asians (20) 15Æ0 14 Middle Eastern (40) 13Æ0 14 Dutch (100) 12Æ0 37 Caucasian (172) 11Æ3 22 Mexicans (20) 10Æ0 14 Swedish (60) 10Æ0 36 Caucasian (150) 8Æ7 19 Ashkenazi Jewish (20) 5Æ0 14 African-American (150) 2Æ3 27 was demonstrated that 421C>A carriers have a 1Æ3-fold decrease in ATPase activity compared to wild-type (19), and the bioavailability of sulfasalazine, diflomotecan and topotecan was significantly elevated by this polymorphism (29-31).
X
ABCG2 p.Gln141Lys 21054463:81:557
status: VERIFIED
PMID: 21106720
[PubMed]
Yue W et al: "Decreased hepatic breast cancer resistance protein expression and function in multidrug resistance-associated protein 2-deficient (TR) rats."
No.
Sentence
Comment
15
A single nucleotide polymorphism in ABCG2 C421A (Q141K) has been associated with altered drug disposition in clinical studies (elevated plasma concentrations of diflomotecan after intravenous administration and of topotecan and rosuvastatin after oral administration) (Sparreboom et al., 2004, 2005; Zhang et al., 2006a).
X
ABCG2 p.Gln141Lys 21106720:15:49
status: VERIFIED
PMID: 21175590
[PubMed]
Kerr ID et al: "The ABCG family of membrane-associated transporters: you don't have to be big to be mighty."
No.
Sentence
Comment
143
The effects in vivo are rather less well understood, with the exception of the SNP rs2231142 (resulting in a Gln141Lys change).
X
ABCG2 p.Gln141Lys 21175590:143:110
status: VERIFIED145 Interestingly, previous analysis had suggested that the Gln141Lys variant of ABCG2 was only subtly different in terms of export of chemotherapeutic drugs compared to wild type ABCG2 (Tamura et al., 2007), which emphasises that studies on the impact of SNPs on ABCG2 function have to be taken into the context of the extreme diversity of transport substrates.
X
ABCG2 p.Gln141Lys 21175590:145:56
status: VERIFIED167 The effects in vivo are rather less well understood, with the exception of the SNP rs2231142 (resulting in a Gln141Lys change).
X
ABCG2 p.Gln141Lys 21175590:167:109
status: NEW169 Interestingly, previous analysis had suggested that the Gln141Lys variant of ABCG2 was only subtly different in terms of export of chemotherapeutic drugs compared with wild-type ABCG2 (Tamura et al., 2007), which emphasizes that studies on the impact of SNPs on ABCG2 function have to be taken Apo-A1 HDL sitosterol lipid droplets urate lumen ABCG2 ABCG5/G8 Apo-A1 HDL sitosterol lipidpp droplets urate lumen ABCG2 ABCG5/G8 lumen ABCG5/G8 sitosterol Figure 2 Principal functions of human ABCG transporters.
X
ABCG2 p.Gln141Lys 21175590:169:56
status: NEW
PMID: 21184741
[PubMed]
Sugiyama T et al: "Posttranslational negative regulation of glycosylated and non-glycosylated BCRP expression by Derlin-1."
No.
Sentence
Comment
29
Moreover, the certain single nucleotide polymorphism (SNP) variants of BCRP (Q141K, F208S and S441N), which protein expression was markedly low despite the functional expression of mRNA, were also degraded by ERAD [10,11].
X
ABCG2 p.Gln141Lys 21184741:29:77
status: VERIFIED162 These include naturally occurring SNPs variants of BCRP such as Q141K, F208S and S441N [10,11].
X
ABCG2 p.Gln141Lys 21184741:162:64
status: VERIFIED
PMID: 21188243
[PubMed]
Ishikawa T et al: "Key Role of Human ABC Transporter ABCG2 in Photodynamic Therapy and Photodynamic Diagnosis."
No.
Sentence
Comment
158
The most extensively studied among those SNPs with potential clinical relevance is 421 C > A resulting in a glutamine to lysine substitution (Q141K) in the ABCG2 protein.
X
ABCG2 p.Gln141Lys 21188243:158:142
status: VERIFIED159 The Q141K SNP has been identified with varying frequencies in different ethnic groups and was found to be the most relevant in Japanese and Chinese populations (approximately 30% in the allele frequency).
X
ABCG2 p.Gln141Lys 21188243:159:4
status: VERIFIED161 Q141K has been associated with lower levels of protein expression and impaired transport in vitro [79-84].
X
ABCG2 p.Gln141Lys 21188243:161:0
status: VERIFIED163 Furthermore, the Q141K SNP was reportedly associated with a higher incidence of diarrhea in nonsmall cell lung cancer patients treated with gefitinib [88].
X
ABCG2 p.Gln141Lys 21188243:163:17
status: VERIFIED164 It has been demonstrated that the reduced expression levels of the Q141K variant may be due to its ubiquitin-mediated proteasomal degradation [89].
X
ABCG2 p.Gln141Lys 21188243:164:67
status: VERIFIED167 Based on the currently available data on SNPs and acquired mutations, we have created a total of 18 variant forms of ABCG2 (V12M, G51C, Q126stop, Q141K, T153M, Q166E, I206L, F208S, S248P, E334stop, F431L, S441N, R482G, R482T, F489L, F571I, N590Y, and D620N) by site-directed mutagenesis and expressed them in insect cells [41, 90].
X
ABCG2 p.Gln141Lys 21188243:167:146
status: VERIFIED177 Gefitinib and imatinib are new anticancer drugs Outside Plasma membrane Inside H2N COOH V12M G51C Q126stop Q141K T153M R160Q Q166E I206L F208S S248P E334stop F431L F489L S441N R482G R482T F571I R575stop N590Y D620N T542A A528T D296H P269S ATP-binding cassette (a) 0 0.1 0.3 0.4 0.2 0.5 Mock WT V12M G51C Q126stop Q141K T153M Q166E I206L F208S S248P E334stop F431L S441N F489L F571I N590Y D620N R482G R482T ATP-dependenthematoporphyrin transport(nmol/min/mgprotein) (b) Figure 4: (a) Schematic illustration of human ABCG2 and its nonsynonymous polymorphisms.
X
ABCG2 p.Gln141Lys 21188243:177:109
status: VERIFIEDX
ABCG2 p.Gln141Lys 21188243:177:315
status: VERIFIED
PMID: 21262849
[PubMed]
Shen H et al: "Ixabepilone, a novel microtubule-targeting agent for breast cancer, is a substrate for P-glycoprotein (P-gp/MDR1/ABCB1) but not breast cancer resistance protein (BCRP/ABCG2)."
No.
Sentence
Comment
37
A significant association between survival beyond 15 months and the ABCG2 421CϾA (Q141K) polymorphism was observed in a clinical trial (p ϭ 0.05) of 64 patients with hormone-refractory prostate cancer randomized to receive docetaxel plus vinorelbine or docetaxel plus estramustine phosphate.
X
ABCG2 p.Gln141Lys 21262849:37:88
status: VERIFIED
PMID: 21311410
[PubMed]
Yamakawa Y et al: "Association of genetic polymorphisms in the influx transporter SLCO1B3 and the efflux transporter ABCB1 with imatinib pharmacokinetics in patients with chronic myeloid leukemia."
No.
Sentence
Comment
77
Individual Clearance of Imatinib as a Function of Variant Genotypes Allele Region Effect* Number of Patients Allele Frequency† WT Het Var p q SLC22A11022C.T Exon6 P341L 24 8 2 0.82 0.18 SLCO1B1521T.C Exon6 V174A 26 7 1 0.87 0.13 SLCO1B3334T.G Exon3 S112A 5 10 19 0.29 0.71 ABCB11236C.T Exon12 G412G 5 19 10 0.43 0.57 ABCB12677G.T/A Exon21 A893S/T 10 14 10 0.50 0.50 ABCB13435C.T Exon26 I1145I 7 21 6 0.51 0.49 ABCG2421C.A Exon5 Q141K 21 13 0 0.81 0.19 CYP2C9430C.T Exon3 R144C 34 0 0 1.00 0.00 CYP2C91075A.C Exon7 I359L 33 1 0 0.99 0.01 CYP2C19636G.A Exon5 W212X 27 7 0 0.90 0.10 CYP2C19681G.A Exon4 Splice defect 16 13 5 0.66 0.34 CYP2D6100C.T Exon1 P34S 13 16 5 0.62 0.38 CYP2D61846G.A Exon4 Splice defect 34 0 0 1.00 0.00 CYP3A56986A.G Intron3 Splice defect 2 12 20 0.24 0.76 Allele Clearance 6 SD (L/hr) P WT Het Var WT vs Het vs Var WT + Het vs Var WT vs Het + Var SLC22A11022C.T 8.8 6 2.9 8.2 6 3.5 8.3 6 3.5 0.973 0.913 0.926 SLCO1B1521T.C 8.7 6 3.1 8.3 6 2.0 5.5 0.304 0.235 0.288 SLCO1B3334T.G 5.7 6 2.3 7.4 6 2.4 9.5 6 3.1 0.046 0.019 0.071 ABCB11236C.T 11.7 6 3.1 8.1 6 2.7 8.2 6 3.2 0.277 0.642 0.196 ABCB12677G.T/A 9.8 6 3.2 8.1 6 2.5 8.0 6 3.3 0.494 0.445 0.270 ABCB13435C.T 12.7 6 3.0 7.9 6 2.4 9.2 6 3.5 0.058 0.581 0.035 ABCG2421C.A 7.9 6 3.1 9.5 6 2.8 N/A 0.446 N/A 0.462 CYP2C9430C.T 8.3 6 3.0 N/A N/A N/A N/A N/A CYP2C91075A.C 8.6 6 3.0 10.0 N/A 0.508 N/A 0.647 CYP2C19636G.A 8.1 6 2.8 9.7 6 3.3 N/A 0.242 N/A 0.257 CYP2C19681G.A 8.6 6 3.6 9.5 6 2.6 7.0 6 1.1 0.473 0.252 0.852 CYP2D6100C.T 7.3 6 3.2 8.2 6 2.4 12.7 6 3.3 0.190 0.089 0.276 CYP2D61846G.A 8.3 6 3.0 N/A N/A N/A N/A N/A CYP3A56986A.G 6.3 6 1.0 7.9 6 3.4 9.4 6 2.8 0.285 0.323 0.175 *Number represents amino acid codon.
X
ABCG2 p.Gln141Lys 21311410:77:435
status: VERIFIED
PMID: 21311724
[PubMed]
Hampras SS et al: "Genetic polymorphisms of ATP-binding cassette (ABC) proteins, overall survival and drug toxicity in patients with Acute Myeloid Leukemia."
No.
Sentence
Comment
119
[15] Imai Y, Nakane M, Kage K, Tsukahara S, Ishikawa E, Tsuruo T, Miki Y and Sugimoto Y. C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 21311724:119:196
status: NEW
PMID: 21332310
[PubMed]
Lemos C et al: "Impact of ABCG2 polymorphisms on the clinical outcome and toxicity of gefitinib in non-small-cell lung cancer patients."
No.
Sentence
Comment
7
In particular, the nonsynonymous SNP ABCG2 421C/A, which results in a glutamine to lysine amino acid substitution at position 141 (Q141K), has been associated with markedly decreased levels of ABCG2 protein expression [11-13] and/or activity [14-16].
X
ABCG2 p.Gln141Lys 21332310:7:70
status: NEWX
ABCG2 p.Gln141Lys 21332310:7:131
status: NEW236 11 Imai Y, Nakane M, Kage K et al.: C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance. Mol. Cancer Ther. 1, 611-616 (2002).
X
ABCG2 p.Gln141Lys 21332310:236:144
status: NEW
PMID: 21449672
[PubMed]
Kwan P et al: "Gene-wide tagging study of the association between ABCC2, ABCC5 and ABCG2 genetic polymorphisms and multidrug resistance in epilepsy."
No.
Sentence
Comment
34
For ABCG2, 77 kbp from positions 89,365,500 to 89,442,500 on chromosome 4 were tagged by 11 poly-morphisms (with forced inclusion of two coding SNPs: rs2231137 or V12M and rs2231142 or Q141K), capturing 29 of 39 alleles at r2 ≥ 0.8.
X
ABCG2 p.Gln141Lys 21449672:34:185
status: NEW
PMID: 14965249
[PubMed]
Haimeur A et al: "The MRP-related and BCRP/ABCG2 multidrug resistance proteins: biology, substrate specificity and regulation."
No.
Sentence
Comment
721
One of these polymorphisms, C421A, results in the substitution of a Lys residue for a Gln residue at amino acid position 141 (Gln141Lys).
X
ABCG2 p.Gln141Lys 14965249:721:126
status: NEW
PMID: 16041239
[PubMed]
Colombo S et al: "Influence of ABCB1, ABCC1, ABCC2, and ABCG2 haplotypes on the cellular exposure of nelfinavir in vivo."
No.
Sentence
Comment
78
- 19346T > A 50 upstream Epidauros bc-v-081 c.19 delG exon 2 p.K7fsX28 Epidauros bc-v-007 c.34G > A exon 2 p.V12M Honjo et al., 2001 bc-v-008 rs2231137 c.71C > T exon 2 p.A24V Epidauros bc-v-009 c.114T > C exon 2 synonymous (p.S38S) Zamber et al., 2003 bc-v-071 rs12721644 IVS 2 + 35 A > G intron 2 Honjo et al., 2001 bc-v-058 rs4148152 IVS 2-12 A > G intron 4 Epidauros bc-v-014 rs2231141 c.421C > A exon 5 p.Q141K Imai et al., 2002 bc-v-015 rs2231142 c.496C > G exon 5 p.Q166E Epidauros bc-v-016 rs1061017 IVS 5 + 14 A > T intron 5 Epidauros bc-v-017 rs2231143 Statistics Association between AUC values and genotypes at single SNP loci was evaluated using a Kruskal-Wallis rank test complemented by a Spearman rank test for trend.
X
ABCG2 p.Gln141Lys 16041239:78:410
status: NEW
PMID: 19349540
[PubMed]
Innocenti F et al: "Comprehensive pharmacogenetic analysis of irinotecan neutropenia and pharmacokinetics."
No.
Sentence
Comment
115
% of Patients HWE Exact P (white)African American (n ϭ 11) White (n ϭ 67) Other (n ϭ 7) ABCB1 IVS9 -44AϾG 10276036 .012 A/A 45.4 37.3 0 A/G 36.4 34.3 57.1 G/G 18.2 28.4 42.9 ABCB1 1236CϾT 1128503 .012 C/C 45.5 38.8 0 C/T 54.5 34.3 57.1 T/T 0 26.9 42.9 ABCB1 IVS13 ϩ24CϾT 2235033 .027 C/C 27.3 29.9 0 C/T 45.4 35.8 57.1 T/T 27.3 34.3 42.9 ABCB1 IVS14 ϩ38AϾG 2235013 .027 A/A 18.2 29.9 0 A/G 54.5 35.8 57.1 G/G 27.3 34.3 42.9 ABCB1 2677GϾA/T (A893T/S) 2032582 .046 G/G 40.0 36.9 40.0 G/T 60.0 36.9 60.0 T/T 0 26.2 0 ABCB1 3435CϾT 1045642 .212 C/C 36.4 28.4 57.1 C/T 54.5 41.8 42.9 T/T 9.1 29.8 0 ABCG2 34GϾA (V12M) 2231137 .113 G/G 100 92.5 28.6 G/A 0 6.0 57.1 A/A 0 1.5 14.3 ABCG2 421CϾA (Q141K) 2231142 1.000 C/A 9.1 14.9 42.9 C/C 90.9 85.1 57.1 A/A 0 0 0 SLCO1B1*1b 388AϾG (N130D) 2306283 .624 A/A 18.2 31.3 0 A/G 63.6 46.3 71.4 G/G 18.2 22.4 28.6 SLCO1B1*5 521TϾC (V174A) 4149056 1.000 T/T 81.8 65.7 57.1 T/C 18.2 31.3 42.9 C/C 0 3.0 0 NOTE. Alleles for which a * nomenclature has not yet been assigned have been reported according to their genomic position related to the ATG start site. The reference sequences used for genotyping are the following: ABCG2, NM_004827; SLCO1B1, NM_006446; ABCB1, NM_000927; ABCC1, NM_004987; and ABCC2, NM_00039.
X
ABCG2 p.Gln141Lys 19349540:115:766
status: NEW
PMID: 20368717
[PubMed]
Bergmann TK et al: "Impact of CYP2C8*3 on paclitaxel clearance: a population pharmacokinetic and pharmacogenomic study in 93 patients with ovarian cancer."
No.
Sentence
Comment
135
This effect on clearance of a 'non-fixed` variable provides a competing and dynamic biological explanation for clearance that certainly should be Table 4 Clearance of unbound paclitaxel as function of observed genotypes Gene/allelea Effectb Reference homozygote Heterozygote Variant homozygote P-valuee SNP IDf Nc CLd (10th-90th) Nc CLd (10th-90th) Nc CLd (10th-90th) Candidate SNPs for confirmative analysis CYP2C8 1196A4G(*3) K399R 74 395 (297-490) 19 350 (238-458) 0.03* (0.04) rs10509681 ABCB1 1236C4T G412G 29 391 (270-569) 45 393 (299-490) 19 359 (291-437) 0.25 (0.25) rs1128503 2677G4T/Ag A893S/T 26 387 (270-490) 42(GT) 396 (299-490) 20(TT) 356 (294-437) 0.20 (0.26) rs2032582 3435C4T I1145I 11 403 (326-548) 44 387 (282-490) 38 378 (297-468) 0.83 (0.43) rs1045642 Candidate SNPs for exploratory analysis CYP2C8 792C4G(*4) I264M 86 391 (297-490) 7 321 (270-374) 0.04* (0.03) rs1058930 15577956G4T (*1B) - 49 395 (298-552) 43 373 (291-478) 1 461 0.75 (0.36) rs7909236 15578055A4C (*1C) - 69 382 (291-478) 24 393 (300-552) 0.48 (0.62) rs17110453 ABCB1 À1A4G - 1 458 29 396 (270-592) 63 379 (297-477) 0.56 (0.3) rs2214102 61A4G N21D 63 384 (282-490) 29 386 (298-478) 1 437 0.52 (0.77) rs9282564 1199G4A S400N 83 385 (291-490) 10 386 (322-461) 0.74 (0.99) rs2229109 CYP3A4 24616372T4C (*1B) - 85 383 (296-490) 7 397 (270-641) 0.67 (0.72) rs2740574 CYP3A5 219-237G4A Frameshift 84 388 (297-490) 9 360 (176-726) 0.30 (0.36) rs776746 SLCO1B3 699G4A M233I 1 326 19 377 (299-481) 73 388 (291-490) 0.99 (0.46) rs7311358 767G4C G256A 67 386 (298-481) 26 383 (291-490) 0.63 (0.89) rs60140950 CYP1B1 1294C4G (*3) V432L 30 389 (270-530) 36 401 (298-490) 27 361 (300-470) 0.77 (0.24) rs1056836 ABCC1 7356253C4G - 65 394 (297-548) 27 368 (291-470) 1 332 0.04* (0.15) rs504348 ABCC2 1249G4A V417I 67 381 (291-490) 24 396 (297-552) 2 415 (368-468) 0.21 (0.39) rs2273697 3563T4A V1188E 87 386 (296-490) 5 370 (176-569) 0.7 (0.7) rs17222723 4544G4A C1515Y 75 389 (296-490) 3 355 (176-569) 0.72 (0.52) rs8187710 ABCG2 421C4A Q141K 61 374 (291-478) 32 408 (315-548) 0.4 (0.09) rs2231142 34G4A V12M 87 385 (291-490) 4 395 (296-726) 0.68 (0.83) rs2231137 ABCC10 2759T4C I920T 46 386 (297-478) 43 386 (291-548) 4 373 (326-467) 0.88 (0.89) rs2125739 Abbreviations: CL, clearance of unbound paclitaxel; SNP, single-nucleotide polymorphism.
X
ABCG2 p.Gln141Lys 20368717:135:2017
status: NEW
PMID: 21567408
[PubMed]
Nakagawa H et al: "Ubiquitin-mediated proteasomal degradation of ABC transporters: a new aspect of genetic polymorphisms and clinical impacts."
No.
Sentence
Comment
155
Effect of Mutations and Nonsynonymous SNPs on Protein Trafficking, Maturation, or ERAD of ABC Transporters Protein AA Mutation/SNP Effect on Protein Reference ABCA1 W590S Mutation Functional defect 115 R587W Mutation Impaired glycol processing 115 Q597R Mutation Impaired glycol processing, ERAD 115,116 Y1532C Mutation Altered protein trafficking 117 R1925Q Mutation Altered protein trafficking 118 ABCA3 R43L Mutation Altered protein trafficking 119 L101P Mutation Altered protein trafficking 119 R280C Mutation Altered protein trafficking 119 ABCA4 L541P Mutation Mislocalization 120 R602W Mutation Mislocalization 120 A1038V Mutation Mislocalization 120 C1490Y Mutation Mislocalization 120 ABCB1a G268V Mutation ERAD 121 G341C Mutation ERAD 121 I1196S Mutation Reduced glycosylation 122 ABCB4 I541F Mutation Accumulation in ER 123 ABCB11a E135K Mutation Reduced level of mature protein 124 L198P Mutation Reduced level of mature protein 124 E297G Mutation Reduced level of mature protein 124 L413W Mutation Reduced level of mature protein 124 R432T Mutation Reduced level of mature protein 124 D482G Mutation Immature protein in ER 124,125 N490D Mutation Reduced level of mature protein 124 A570T Mutation Reduced level of mature protein 124 T655I Mutation Reduced level of mature protein 124 Y818F SNP Moderate reduction of protein 124 G982R Mutation Retention in ER 125 R1153C Mutation ERAD 125 R1286Q Mutation Retention in ER 125 ABCC2a R768W Mutation Impaired protein trafficking 126 I1173F Mutation Impaired protein maturation 127 R1392 Mutation Impaired protein maturation 128 M1393 Mutation Impaired protein maturation 129 ABCC4a E757K SNP Altered protein trafficking 23 ABCC7 F508 Mutation Misfolding, ERAD 36-39,130 G85E Mutation Impaired protein maturation 130-132 G91R Mutation Impaired protein maturation 130-132 N1303K Mutation Impaired protein maturation 130-132 ABCC8 WT Wild type Ubiquitin-proteasome degradation 133 A116P Mutation Ubiquitin-proteasome degradation 133 V187D Mutation Ubiquitin-proteasome degradation 133 F1388 Mutation Impaired protein trafficking 134 L1544P Mutation Impaired protein trafficking 135,136 ABCC11a G180R SNP Ubiquitin-proteasome degradation 50 27 Mutation Ubiquitin-proteasome degradation 50 ABCG2a V12M SNP Altered protein localization 96 Q141K SNP Ubiquitin-proteasome degradation 102 F208S SNP Ubiquitin-proteasome degradation 78,99 S441N SNP Ubiquitin-proteasome degradation 78,99 Mutations of ABCA1, ABCA3, ABCA4, ABCB4, ABCB11, ABCC2, ABCC7 (CFTR), and ABCC8 are associated with Tangier disease, fatal surfactant deficiency, Stargardt disease, progressive familial intrahepatic cholestasis type 3 (PFIC-3), progressive familial intrahepatic cholestasis type 2 (PFIC-2), Dubin-Johnson syndrome, cystic fibrosis, and familial hyperinsulinism, respectively.
X
ABCG2 p.Gln141Lys 21567408:155:2292
status: NEW76 Furthermore, the nonsynonymous SNPs of Q141K, F208S, and S441N (Fig. 4) have been found to greatly affect APCG2 protein levels in the plasma membrane.
X
ABCG2 p.Gln141Lys 21567408:76:39
status: NEW78 Q141K (Gln141Lys), F208S (Phe208Ser), and S441N (Ser441Asn) are nonsynonymous SNPs that cause the reduced expression of ABCG2 protein.
X
ABCG2 p.Gln141Lys 21567408:78:0
status: NEWX
ABCG2 p.Gln141Lys 21567408:78:7
status: NEW126 Pharmaceutical and Clinical Impacts of SNP 421C>A (Q141K) in ABCG2 Gene The most extensively studied among those SNPs with potential clinical relevance is 421 C>A resulting in a glutamine to lysine substitution (Gln141Lys or Q141K) in the ABCG2 protein.
X
ABCG2 p.Gln141Lys 21567408:126:51
status: NEWX
ABCG2 p.Gln141Lys 21567408:126:212
status: NEWX
ABCG2 p.Gln141Lys 21567408:126:225
status: NEW127 Q141K has been associated with lower levels of protein expression (Fig. 7a) and impaired transport activities in vitro.93,96-99,101 Figure 6.
X
ABCG2 p.Gln141Lys 21567408:127:0
status: NEW141 The SNP 421C>A is a nonsynonymous polymorphism that leads to amino acid substitution; Gln141Lys (Q141K).
X
ABCG2 p.Gln141Lys 21567408:141:86
status: NEWX
ABCG2 p.Gln141Lys 21567408:141:97
status: NEW145 (b) The allele frequencies of 421C (WT) and 421A (Q141K) among different ethnic populations.
X
ABCG2 p.Gln141Lys 21567408:145:50
status: NEW148 The reduced protein levels of the Q141K variant are due to ubiquitin-mediated proteasomal degradation as well as endosomal degradation (Fig. 7a).102 The Q141K SNP has been identified with varying frequencies in different ethnic groups and was found to be the most relevant in Japanese and Chinese populations (approximately 30% in the allele frequency) (Fig. 7b).
X
ABCG2 p.Gln141Lys 21567408:148:34
status: NEWX
ABCG2 p.Gln141Lys 21567408:148:153
status: NEW149 It has been reported that patients carrying the Q141K SNP have elevated plasma levels of gefitinib, diflomotecan, and increased bioavailability of oral topotecan.103-105 The Q141K SNP was reportedly associated with a higher incidence of diarrhea in nonsmall cell lung cancer patients treated with gefitinib.106 Figure 8.
X
ABCG2 p.Gln141Lys 21567408:149:48
status: NEWX
ABCG2 p.Gln141Lys 21567408:149:174
status: NEW153 Three panels depict the time courses of the SmartAmp assay reactions with ABCG2 allele-specific primers carrying 421C (WT) or 421A (Q141K) alleles; namely, C/C homozygote, C/A heterozygote, and A/A homozygote.
X
ABCG2 p.Gln141Lys 21567408:153:132
status: NEW168 As the expression levels of the Q141K variant is reduced by ubiquitin-mediated proteasomal degradation,102 renal excretion of serum uric acid via ABCG2 is impaired in humans who are carrying the 421A allele (Q141K variant).
X
ABCG2 p.Gln141Lys 21567408:168:32
status: NEWX
ABCG2 p.Gln141Lys 21567408:168:208
status: NEW
PMID: 16370938
[PubMed]
Dey S et al: "Single nucleotide polymorphisms in human P-glycoprotein: its impact on drug delivery and disposition."
No.
Sentence
Comment
518
IMAI Y, NAKANE M, KAGE K et al.: C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 16370938:518:140
status: NEW
PMID: 16648557
[PubMed]
Mutoh K et al: "A T3587G germ-line mutation of the MDR1 gene encodes a nonfunctional P-glycoprotein."
No.
Sentence
Comment
220
Moreover, Q141K BCRP-expressing cells show low levels of BCRP expression compared with WT BCRP-expressing cells (34, 35).
X
ABCG2 p.Gln141Lys 16648557:220:10
status: NEW299 Imai Y, Nakane M, Kage K, et al. C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 16648557:299:140
status: NEW
PMID: 21619426
[PubMed]
Stieger B et al: "Pharmacogenetics of drug transporters in the enterohepatic circulation."
No.
Sentence
Comment
94
Gene name Transporter SNP Protein Population size (n) In vitro function Ref. Intestinal uptake transporters SLC15A1 PEPT1 p.P586L 44 Reduced Vmax [81] p.F28Y 247 Increased Km [82] Intestinal efflux transporters ABCB1 MDR1 c.571G>A p.G191R N/A Reduced drug resistance [201] c.1199G>A p.S440N N/A Reduced activity (substrate dependent) [202] c.11199G>A c.1199G>t p.S440N p.S440I N/A N/A Increased drug resistance Reduced drug resistance [203] c.1292-3GT>TG p.C431L N/A Reduced drug resistance [204] c.2005C>T p.R669C N/A Reduced substrate affinity [202] c.2547A>G p.I849M N/A Increased transport activity [202] c.2677G>T p.A893S 60 Lower intracellular digoxin accumulation [205] c.2677G>T c.2677G>A p.A893S p.A893T N/A N/A Unchanged Unchanged [206] c.2677G>T p.A893S 46 No change in rhodamine 123 efflux from peripheral blood lymphocytes [207] c.2667G>T p.A893S N/A Reduced transport function [208] c.2667G>T c.2677G>A p.A893S p.A893T N/A N/A Increased transport function Increased transport function [209] c.2667G>T c.2677G>A p.A893S p.A893T N/A N/A Increased activity (substrate dependent) Increased substrate affinity and transport activity [202] c.2667G>T p.A893S 48 No change in rhodamine 123 efflux activity in peripheral blood mononuclear cells [210] c.2956A>G p.M986V N/A Increased transport activity [202] c.2995G>A p.A999T N/A Increased substrate affinity and transport activity [202] c.3151C>G p.P1051A N/A Increased transport activity (substrate dependent) [202] c.3188G>C p.G1063A N/A Increased transport activity [202] ABCG2 ABCG2 c.34G>A p.V12M N/A Low transport protein expression in vitro [211] c.34G>A p.V12M N/A Unchanged [212] c.34G>A p.V12M N/A No change in HEK-293, lowered transport activity in Sf9 cells in vitro [213] c.34G>A p.V12M N/A Unchanged [214] c.421C>A p.Q141K N/A Lower transport protein expression, normal transport activity [212] c.421C>A p.Q141K N/A Reduced drug resistance and lower ATPase activity [213] c.421C>A p.Q141K N/A Reduced drug extrusion [215] c.421C>A p.Q141K N/A Reduced drug resistance [216] c.421C>A p.Q141K N/A Unchanged [217] c.421C>A p.Q141K N/A No change of intracellular porphyrin accumulation [218] c.421C>A p.Q141K N/A Reduced transport activity [219] c.421C>A p.Q141K N/A Reduced transport activity [55] c.421C>A p.Q141K N/A Increased Km [220] For more information on members of the SLC superfamily of transporters please consult [301] and for more information of ABC transporters please consult [302].
X
ABCG2 p.Gln141Lys 21619426:94:1787
status: NEWX
ABCG2 p.Gln141Lys 21619426:94:1876
status: NEWX
ABCG2 p.Gln141Lys 21619426:94:1953
status: NEWX
ABCG2 p.Gln141Lys 21619426:94:2003
status: NEWX
ABCG2 p.Gln141Lys 21619426:94:2054
status: NEWX
ABCG2 p.Gln141Lys 21619426:94:2091
status: NEWX
ABCG2 p.Gln141Lys 21619426:94:2168
status: NEWX
ABCG2 p.Gln141Lys 21619426:94:2222
status: NEWX
ABCG2 p.Gln141Lys 21619426:94:2275
status: NEW739 219 Polgar O, Deeken JF, Ediriwickrema LS et al.: The 315-316 deletion determines the BXP-21 antibody epitope but has no effect on the function of wild type ABCG2 or the Q141K variant.
X
ABCG2 p.Gln141Lys 21619426:739:171
status: NEW742 220 Pollex EK, Anger G, Hutson J, Koren G, Piquette-Miller M: Breast cancer resistance protein (BCRP)-mediated glyburide transport: effect of the C421A/Q141K BCRP single-nucleotide polymorphism.
X
ABCG2 p.Gln141Lys 21619426:742:153
status: NEW
PMID: 20035425
[PubMed]
Akasaka K et al: "Impact of functional ABCG2 polymorphisms on the adverse effects of gefitinib in Japanese patients with non-small-cell lung cancer."
No.
Sentence
Comment
2
Since c.421C [ A ABCG2, resulting in p.Q141K substitution, is more prevalent in Asian populations, the putative relationship between gefitinib-induced adverse effects and this functional polymorphism was investigated in Japanese patients.
X
ABCG2 p.Gln141Lys 20035425:2:39
status: NEW97 In contrast, the c.421C [ A polymorphism results in a p.Q141K variant ABCG2, of which expression level is 3-to 5-fold lower than that of the wild type in spite of similar mRNA levels [22].
X
ABCG2 p.Gln141Lys 20035425:97:56
status: NEW
PMID: 20103563
[PubMed]
Klaassen CD et al: "Xenobiotic, bile acid, and cholesterol transporters: function and regulation."
No.
Sentence
Comment
6547
Chinese men with one mutant Q141K ABCG2 (BCRP) allele demonstrate higher plasma concentrations of rosuvastatin compared with those with both wild-type alleles (Table 15) (Zhang et al., 2006b).
X
ABCG2 p.Gln141Lys 20103563:6547:30
status: NEW6548 Similar findings have been reported in Finnish volunteers with the Q141K ABCG2 (BCRP) SNP after atorvastatin or rosuvastatin administration (Keskitalo et al., 2009).
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ABCG2 p.Gln141Lys 20103563:6548:67
status: NEW6589 Absent C421A Q141K 2 Normal/reduced G445C A149P ↔ Normal G448A R163K ↔ Normal C496G Q166E ↔ Normal/reduced A616C I206L 2↔ Normal T623C F208S N.D. Reduced T742C S248P N.D. Normal C805T P269S 2↔ Normal T1291C F431L 2 Normal/reduced G1322A S441N 2 Reduced T1465C F489L 2↔ Normal/reduced A1768T N590Y 2↔ Increased G1858A D620N 2↔ Normal 2, reduced function; ↔, no change in function; N.D. not determined.
X
ABCG2 p.Gln141Lys 20103563:6589:13
status: NEW6807 In support of these findings, humans with the Q141K ABCG2 (BCRP) polymorphism display increased oral bioavailability of sulfasalazine (Table 15) (Urquhart et al., 2008; Yamasaki et al., 2008).
X
ABCG2 p.Gln141Lys 20103563:6807:46
status: NEW6918 A polymorphism in ABCG2 (BCRP) (Q141K) is clinically associated with diarrhea as well as elevated concentrations in heterozygous patients receiving another tyrosine kinase inhibitor, gefitinib (Table 15) (Cusatis et al., 2006; Li et al., 2007a).
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ABCG2 p.Gln141Lys 20103563:6918:32
status: NEW7031 It is noteworthy that a variant ABCG2 (BCRP) gene (Q141K) is associated with reduced BCRP protein accumulation in placenta, although the functional relevance of this polymorphism has not yet been determined (Table 15) (Kobayashi et al., 2005b).
X
ABCG2 p.Gln141Lys 20103563:7031:51
status: NEW
PMID: 22015057
[PubMed]
Garcia-Donas J et al: "Single nucleotide polymorphism associations with response and toxic effects in patients with advanced renal-cell carcinoma treated with first-line sunitinib: a multicentre, observational, prospective study."
No.
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Comment
57
See Online for webappendix Single nucleotide polymorphism Variation Patients* Homozygous wild-type Heterozygous Homozygous variant Minor allele frequency VEGFR2 rs2305948 C>T V297I 95 78 15 2 0·100 VEGFR2 rs1870377T>A Q472H 95 53 34 8 0·263 VEGFR3 rs307826 A>G T494A 95 80 15 0 0·079 VEGFR3 rs448012 C>G H890Q 94 32 48 14 0·404 VEGFR3 rs307821 G>T R1324L 95 78 16 1 0·095 PDGFR-α rs35597368T>C S478P 95 77 16 2 0·105 VEGF-A rs2010963 G>C 5´-UTR 95 47 37 11 0·311 VEGF-A rs699947 A>C Promoter 95 27 47 21 0·468 VEGF-A rs1570360 G>A Promoter 95 45 41 9 0·311 IL8 rs1126647 A>T 3´-UTR 94 35 48 11 0·372 CYP3A4 rs2740574 A>G Promoter 94 89 5 0 0·027 CYP3A5 rs776746 G>A Splicing 94 82 12 0 0·064 ABCB1 rs1045642 C>T I1145I 94 27 51 16 0·441 ABCB1 rs1128503 C>T G412G 95 36 45 14 0·384 ABCB1 rs2032582 G>T A893S 92 38 39 15 0·375 ABCG2 rs2231142 C>A Q141K 95 85 10 0 0·053 UTR=untranslated region.
X
ABCG2 p.Gln141Lys 22015057:57:936
status: NEW
PMID: 21887680
[PubMed]
Windsor RE et al: "Germline genetic polymorphisms may influence chemotherapy response and disease outcome in osteosarcoma: a pilot study."
No.
Sentence
Comment
44
3R adverse prognosis in ALL.45 ABC efflux ABCB1 (MDR1) 7q21.12 MAP 1128503 1236C>T Gly412 Gly T allele : exposure to doxorubicin in breast cancer patients.4 No association in platinum-treated ovarian cancer.5 1045642 3435C>T Ile145 Ile CC : response to platinum chemotherapy in NSCLC.6 No association in platinum-treated ovarian cancer.5 ABCG2 (BCRP) 4q22.1 MAP 2231142 421C>A Gln141 Lys A ; OS in platinum-treated lung cancer.7 No association in platinum-treated ovarian cancer.5 ABCC1 (MRP1) 6p13.11 M 246240 A>G G ; methotrexate toxicity in psoriasis.8 3784862 A>G ABCC2 10q24.2 M 717620 24C>T T : response to platinum chemotherapy in NSCLC.9 No association in ovarian cancer.5 2273697 1249G>A Val417 Ile No association with response to platinum chemotherapy in NSCLC.9 17222723 3563T>A Val1188 Glu A : acute ACT, in 100% LD with Cis1515 Tyr.10 8087710 4544G>A Cis1515 Tyr DNA repair ERCC1 19q13.32 A, P 3212986 1510C>A (8092C>A)* Clinical effects conflicting.
X
ABCG2 p.Gln141Lys 21887680:44:377
status: NEW
PMID: 22515603
[PubMed]
Ishikawa T et al: "Recent advances in pharmacogenomics of ABC transporters involved in breast cancer therapy."
No.
Sentence
Comment
43
The most extensively studied among those SNPs with potential clinical relevance is 421C>A resulting in a glutamic acid to lysine substitution (Q141K) in the ABCG2 protein. The expression level of the Q141K variant reduced compared with the wild-type, which is due to its ubiquitin-mediated proteasomal degradation [10].
X
ABCG2 p.Gln141Lys 22515603:43:143
status: NEWX
ABCG2 p.Gln141Lys 22515603:43:200
status: NEW45 Furthermore, the Q141K SNP was reportedly associated with a higher incidence of diarrhea in non-small-cell lung cancer patients treated with gefitinib [11].
X
ABCG2 p.Gln141Lys 22515603:45:17
status: NEW
PMID: 22112610
[PubMed]
Tian C et al: "Common variants in ABCB1, ABCC2 and ABCG2 genes and clinical outcomes among women with advanced stage ovarian cancer treated with platinum and taxane-based chemotherapy: a Gynecologic Oncology Group study."
No.
Sentence
Comment
4
Sequenom iPLEXTMGOLD Assay and MALDI-TOF platform were used to genotype the non-synonymous G2677T/A (rs2032582; encoding Ala893Ser/Thr) and synonymous C3435T (rs1045642; encoding Ile1145Ile) variants in ABCB1, the non-synonymous G1249A variant in ABCC2 (rs2273697; encoding Val417Ile), and the non-synonymous C421A variant in ABCG2 (rs2231142; encoding Q141K, Gln141Lys) in normal DNA from up to 511 women in Gynecologic Oncology Group (GOG) phase III trials, GOG-172 or GOG-182.
X
ABCG2 p.Gln141Lys 22112610:4:353
status: NEWX
ABCG2 p.Gln141Lys 22112610:4:360
status: NEW109 The non-synonymous C421A polymorphism in ABCG2 results in an amino acid change, Gln141Lys.
X
ABCG2 p.Gln141Lys 22112610:109:80
status: NEW
No.
Sentence
Comment
36
ABCB1 1236C>T rs1128503 Decreased irinotecan clearance; risk of toxicity and reduced survival when in haplotype with 2677 and 3435 [56,58,59] ABCB1 2677G>A/T rs2032582 Risk of toxicity and reduced survival when in haplotype with 1236 and 3435 [58,59] ABCB1 3435C>T rs1045642 Increased toxicity; risk of toxicity and reduced survival when in haplotype with 1236 and 2677 [57-59] ABCC2 -24C>T rs717620 Increased response and survival with 3972; toxicity as part of ABCC2 haplotype in patients without GT1A1*28 [46,61-63] ABCC2 3972T>C rs3740066 Increased response and survival with -24; toxicity as part of ABCC2 haplotype in patients without UGT1A1*28 [43,46,60-63] ABCG2 34G>A rs2231137 Increased toxicity; no association with toxicity and outcome [60,61] ABCG2 421C>A; Q141K rs2231142 Reduced expression; irinotecan resistance; toxicity with IVS12 +49G>T [49,61,66,67] ABCG2 IVS12+49G>T rs3832043 Toxicity with 421C>A [49,61,66,67] CES1 -816A>C Unknown Altered CES1 promoter activity [22] CES2 830C>G; -171C>G rs11075646 No association with expression, catalytic activity, toxicity or outcome [20] CYP3A4 Activity Altered irinotecan dosing requirement [24] NR1I2 Expression Altered SN-38 glucuronidation [79] TDP1 IVS12+79T>G rs2401863 Response; no toxicity association at higher doses [74,75] UGT1A1 -3156G>A rs10929302 Increased risk of toxicity [32,33] UGT1A1 (TA)7 TAA, *28 rs8175347 Increased risk of toxicity; dose dependent [32,33,38-41] UGT1A1 G71R, *6 rs4148323 Increased risk of toxicity [44,47] UGT1A7 *2 (N129K and R131K) rs17868323, rs17868324 SN-38 glucuronidation; response [47,52] UGT1A7 *3 (N129K, R131K and W208R) rs17868323, rs17868324, rs11692021 SN-38 glucuronidation; increased risk of toxicity; altered response [47,52,54] UGT1A9 -118(dT) rs3832043 SN-30 glucuronidation; response [44,47,52,54] XRCC1 Haplotype (-1149delGGCC, R399Q) rs321329 rs25487 Response [74] XRCC1 R399Q rs25487 No association with toxicity; association with response [76,77] dbSNP: SNP database Asians to 45% in Africans.
X
ABCG2 p.Gln141Lys 20602618:36:770
status: NEW77 The ABCG2 variant 421C>A (Q141K) reduced ABCG2 gene expression and caused irinotecan resistance in cancer cell lines [66] and neutropenia in 55 patients receiving irinotecan monotherapy when assessed as a haplotype with ABCG2 IVS12 +49G>T [67].
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ABCG2 p.Gln141Lys 20602618:77:26
status: NEW268 66 Imai Y, Nakane M, Kage K et al.: C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 20602618:268:144
status: NEW
PMID: 22069643
[PubMed]
Anzai N et al: "Molecular mechanism of ochratoxin a transport in the kidney."
No.
Sentence
Comment
163
In addition, the finding that the Q141K polymorphism associated with gout leads to decreased urate excretion capacity suggests that ABCG2 contributes to urate excretion at the apical membrane of renal proximal tubules or at the luminal membrane of the intestine [56], or both.
X
ABCG2 p.Gln141Lys 22069643:163:34
status: NEW
PMID: 20367534
[PubMed]
Rodrigues AC et al: "Efflux and uptake transporters as determinants of statin response."
No.
Sentence
Comment
126
Reduced BCRP transport activity has been associated with the presence of the ABCG2 c.421C>A SNP (rs2231142), resulting in an amino acid change p.Gln141Lys [53-55].
X
ABCG2 p.Gln141Lys 20367534:126:145
status: NEW
PMID: 20154415
[PubMed]
Maeda K et al: "[Transporters involved in hepatobiliary transport of drugs]."
No.
Sentence
Comment
1
Jpn.)135,76~79(2010) 化合物を医薬品にするために必要な薬物動態試験(その 4)排泄③ 前田 和哉 胆汁排泄とトランスポーター 要約:近年,ヒト肝臓において非常に多くのトランス ポーターが同定・機能解析されるにつれて,トランス ポーターの遺伝子多型や薬物間相互作用による機能変 動が薬物動態に与える影響を明らかにするための臨床 研究も続々と報告されてきている.それに伴い,異物 解毒システムの中でのトランスポーターの重要性が広 く認知されてきた.代謝によって消失すると考えられ てきた薬物の中にも肝取り込みトランスポーターの基 質が含まれていることが明らかとなり,取り込みトラ ンスポーターの機能変動が薬物動態の変化につながる 事例が複数報告されてきている.本稿では,ヒト肝臓 に発現する主な薬物トランスポーターを紹介すると共 に,これらの遺伝子多型・薬物間相互作用が薬物動態 や薬効・副作用に与える影響について概説することを 目指した. はじめに 肝臓は,腎臓とならび,種々の薬物の異物解毒器官 として重要な役割を果たしている.肝臓における異物 解毒システムの構成要素としては,種々の代謝酵素と トランスポーターが挙げられる(図 1).代謝酵素は, 物質の構造変換を通じて薬物を不活性化へと導く役割 を果たすのに対して,トランスポーターは,血液側か ら肝臓中への薬物の取り込み,ならびに肝臓内から胆 汁中への薬物および代謝物の排出に寄与することによ り,効率よく血液側から胆汁への方向性のある経細胞 輸送(ベクトル輸送)を実現している.本稿では,肝 臓に発現するトランスポーターの基本特性について概 説すると共に,臨床薬物動態における重要性について も触れる. 1. 肝臓に発現する主な薬物トランスポーター 1)取り込みトランスポーター NTCP(Na+ -taurocholate cotransporting polypeptide)は,肝臓の血管側にのみ選択的に発現するトラ ンスポーターで,様々な胆汁酸を Na+ イオンと共輸送 する.胆汁酸以外にも,dehydrodpiandrosterone sulfate(DHEAS)や estrone-3-sulfate(E-sul)などステ ロイド抱合体や,肝機能検査薬ブロモスルホフタレイ ン,HMG-CoA 還元酵素阻害薬ロスバスタチンも基質 とする(1, 2). OATP(organic anion transporting polypeptide)ファ ミリートランスポーターは,Na+ イオン非依存的に基 質を輸送するトランスポーターで,ヒト肝臓において は,特に OATP1B1 と OATP1B3 が有機アニオン化合 物の肝取込みに重要な役割を果たすと考えられている. これらトランスポーターは共にヒト肝臓に選択的に発 現しており,極めて多様な構造のアニオン系化合物を 認識する.基質の中には,HMG-CoA 還元酵素阻害薬 (スタチン)やアンジオテンシン変換酵素阻害薬やア ンジオテンシン II 受容体拮抗薬(サルタン),また種々 の抗がん薬など臨床上汎用されている医薬品が多数見 受けられる(3).OATP1B1 と OATP1B3 のアミノ酸レ ベルでのホモロジーは 80%に達しており,基質認識性 は極めて類似しているが,一部の基質は,片方のトラ キーワード:薬物トランスポーター,遺伝子多型,薬物間相互作用 東京大学 大学院薬学系研究科 分子薬物動態学教室(〒 113-0033 東京都文京区本郷 7-3-1) E-mail: kmaeda@mol.f.u-tokyo.ac.jp 原稿受領日:2009 年 11 月 11 日,依頼原稿 Title: Transporters involved in hepatobiliary transport of drugs. Author: Kazuya Maeda OCT1 NTCP Na+ OATP1B1 (OATP2) OATP1B3 (OATP8) OATP2B1 (OATP-B) OAT2 MRP3 MRP4 -OH -OX Phase I 代謝 Phase II ATP ATP ADPADP MRP2 BCRPMDR1 BSEP ATP ADP ATP ADP ADP ADP ATP ATP MRP6 ADP ATP Phase 0 取り込み 代謝 Phase III 排泄 図 1 肝臓における薬物の解毒システム 肝臓における解毒といえば,かつては,Phase I 代謝(主に CYPs による酸化代謝),Phase II 代謝(主にグルクロン酸,グルタチ オン,硫酸基などの抱合代謝)であったが,最近では,Phase 0 肝取り込み輸送や Phase III 胆汁排泄などトランスポーターを介 した膜透過が一連の異物解毒の流れに組み込まれるようになった. 77胆汁排泄とトランスポーター ンスポーターにのみ選択的に認識される.例えば,強 心配糖体ジゴキシンやコレシストキニン オクタペプ チド(CCK-8)は OATP1B3 に認識されるが OATP1B1 には認識されない(4, 5).また,同じサルタン類であ っても,バルサルタン,オルメサルタンは,OATP1B1, OATP1B3 両方の基質になるものの,テルミサルタン については,OATP1B3 選択的に輸送されることが報 告されている(6-9).また,OATP1B1 は,ビリルビン を基質として輸送する(10, 11).一部の薬物は,高ビ リルビン血症を副作用として呈することがあるが, OATP1B1 を強力に阻害することにより血清中ビリル ビン濃度の上昇を招いたと推測されるものが報告され ている(12). 一方,有機カチオン系化合物の肝取込みにおいては, 主に OCT1(organic cation transporter 1)が重要であ ると考えられる.OCT1 は,分子量の小さな水溶性の 高いカチオン性化合物(type I カチオン)を輸送する ことが知られている(13).基質薬物としては,抗ウィ ルス薬(アシクロビル,ガンシクロビル),H2 ブロッ カー(ファモチジン,ラニチジン)や経口抗糖尿病薬 メトホルミンなどが挙げられる.Wang らは,Oct1 ノ ックアウトマウスを用いてメトホルミンの体内動態お よび副作用の変動について検討した結果,Oct1 ノッ クアウトマウスで,メトホルミンの肝臓中濃度が著し く減少しており,さらにメトホルミン投与後の血中乳 酸濃度の上昇が著しく抑制されることを見出した(14, 15).このことから,OCT1 はメトホルミンの重篤な 副作用である乳酸アシドーシスの発現を決定する因子 の 1 つであることが推察されている. 2)胆汁排泄トランスポーター MDR1(multidrug resistance 1; P-glycoprotein) は, 肝臓のみならず,腎臓・小腸・血液脳関門など生体内 のあらゆる場所に発現し,細胞内からの化合物の排出 を担うトランスポーターである.MDR1 は,比較的脂 溶性の高い塩基性・中性化合物を主に幅広く基質とし て認識する.MDR1 の胆汁排泄への関与は,ノックア ウトマウスにおいて,ジゴキシンやベクロニウムの胆 汁排泄が有意に低下する報告から示されている(16, 17). 一 方,MRP2(multidrug resistance-associated protein 2)は,種々の抱合代謝物を含む有機アニオンの胆 汁排泄に重要な役割を果たす.MRP2 のin vivoにおけ る機能は,Mrp2 を遺伝的に欠損したラット EHBR (Eisai hyperbilirubinemic rat)や GY/TR- ラットを用 いた胆汁排泄の検討により明らかにされてきた.基質 薬物としては,スタチン類やサルタン類,抗悪性腫瘍 薬メトトレキサートや環状ペプチドのエンドセリン受 容体拮抗薬 BQ-123 など多岐にわたる.極めて興味深 い知見として,肝取り込みに関与する OATP トランス ポーターと MRP2 は,アミノ酸配列から見ると全く類 似性は認められないものの,基質認識性は極めて類似 している.その結果として,有機アニオン類はOATPs により肝取り込みされた後,MRP2 により速やかに胆 汁中へと排泄され,両者の協調的な働きにより効率的 な異物解毒が実現されている(18).また,MRP2 は還 元型グルタチオンやビリルビンなど種々の内因性基質 の胆汁排泄にも関与している.特に MRP2 の機能欠 損は,高ビリルビン血症を主徴とする Dubin-Johnson 症候群という遺伝病を引き起こすことが知られている. BCRP(breast cancer resistance protein)も,種々の 硫酸抱合体やグルクロン酸抱合体のみならず,非抱合 の化合物として種々の抗菌薬(ニトロフラントイン, スルファサラジン,フルオロキノロン類など)や抗が ん薬(エトポシド,カンプトテシン類,インドールカ ルバゾール類,イマチニブなど),フラボノイド類(ゲ ニステイン,クエルセチンなど)等,多岐にわたる構 造の化合物を基質として認識すると共に,MDR1 や MRP2 と基質特異性がかなりオーバーラップしている (19, 20).これまでプラバスタチンは,Mrp2 欠損ラッ トEHBRにおいて著しく胆汁排泄が低下することから, Mrp2 がスタチン類の胆汁排泄に重要な役割を果たす と信じられてきた(21)が,一方,同じスタチンのピタ バスタチンでは,EHBR で胆汁排泄の低下が見られず, Bcrp ノックアウトマウスにおいて胆汁排泄が著しく 低下することが見いだされた(22).また,ロスバスタ チンでは,EHBR,Bcrp ノックアウトマウスの両方で 胆汁排泄の低下が見られ,MRP2,BCRP 両方の関与が 考えられた(23).このことは,類似の構造を有する同 系統の薬物で共に胆汁排泄により消失する薬物であっ ても,それに関与する分子機構は異なるということを 示した好例であるといえる. 一方,BSEP(bile salt export pump)は,専ら胆汁 酸を排出するトランスポーターであり,NTCP による 肝取り込みと協調的に機能して,胆汁酸を効率よく血 管側から胆汁へと排出している.BSEP は,進行性家 族性肝内胆汁うっ滞 2 型(PFIC2)という致死性の遺 伝病の原因遺伝子であり,胆汁酸が肝臓から排出でき なくなり,肝臓内に胆汁酸が蓄積することにより発症 する.また,薬剤誘導性胆汁うっ滞という副作用が知 られている薬物のうち,抗糖尿病薬グリベンクラミド や抗結核薬リファンピシン,肺動脈性高血圧症治療薬 ボセンタン,また致死的な肝障害が原因で市場から撤 退した糖尿病治療薬トログリタゾンの硫酸抱合体など は BSEP を低濃度で強力に阻害することが in vitro 実 験から明らかとなっている(24, 25). 2. トランスポーターの遺伝子多型が薬物動態 に与えるインパクト トランスポーターの重要性が認知されるに従い,薬 物トランスポーターに関する遺伝子多型解析が急ピッ チに進められ,臨床研究を通じて薬物動態や薬効・副 作用との関連が明らかにされつつある. SLCO1B1(OATP1B1)の遺伝子多型については,特 に頻תが高い A388G(N130D)と T521C(V174A)に 78 前田 和哉 焦点をあてた臨床研究が複数展開されている(26). Nishizato らは,日本人における SLCO1B1 変異解析を 行い,T521C 変異が高頻度に A388G 変異とリンクして いることを見出した(*15 アレル)(27).日本人では *15 は,約 15% 程度のアレル頻度で存在する.またプ ラバスタチンの血中濃度が *15 アレル保持者において 有意に高いことを見出し,世界に先駆けて SLCO1B1 の変異が薬物動態を変動させることをヒトで直接示し た(27).その後,表 1 に示すような多くの基質薬物に ついて,T521C 変異保持者では血中濃度が上昇すると いう統一した結果が得られている.中にはこれまで代 謝により消失すると考えられていた薬物も含まれてお り,取り込みトランスポーターと代謝酵素の両方の基 質の場合,解毒の第 1 ステップである肝取り込み過程 の機能変化は,固有クリアランスに直接影響すること に留意すべきである.薬効や副作用との関連について もいくつか報告がある.例えば,レパグリニドの血糖 降下作用が T521C 変異保持者で上昇することが報告 されている(28).また,シンバスタチンにより筋毒性 を誘発した患者についてゲノムワイドな多型解析を実 施したところ,唯一 SLCO1B1 T521C 変異が統計的に 有意なリスクファクターとして抽出されており, T521C 変異をホモで持つ患者は,野生型の患者と比較 して 16.9 倍筋毒性を発症するリスクが高いことが見 出されている(29).一方,A388G 変異は,OATP1B1 の機能が亢進し,肝クリアランスの上昇につながるこ とが示唆される臨床研究のデータが複数出されている (30, 31)が事例はまだ少ないことから,さらなる検討 が求められる. BCRP の遺伝子多型で は,主にアジア人で頻度 の高い(アジア人:35%, 白人:10%)変異である C421A(Q141K)が注目 されている.これまで にジフロモテカン,ロス バスタチン,スルファサ ラジンなど複数の基質 薬物について C421A 変 異保持者で血中濃度の 上昇が見られている(32-34).一方で,当研究室 で は in vitro 実 験 よ り C421A変異が単位タンパ ク質量あたりの輸送活 性には影響を与えない ことを見出しており(35), また,ヒト胎盤における BCRP の発現量を遺伝子 型ごとに比較したところ, C421A変異を有している 検体で,発現量が有意に 低いことが示された(36).よって臨床試験の結果は, 主に小腸に発現する BCRP 発現量の低下が原因であろ うと推察されているが,ジフロモテカンにおいては静 脈内投与時でも血中濃度に差が見られている(34)こ とから,肝臓の胆管側の BCRP の機能低下も同時に起 こっている可能性が考えうる. 3. トランスポーターを介した薬物間相互作用 が薬物動態に与えるインパクト 肝臓において,薬物間相互作用の標的としてのトラ ンスポーターの重要性を広く知らしめるきっかけとな ったのは,セリバスタチンとシクロスポリン A(CsA) の相互作用である.セリバスタチンは,致死的な横紋 筋融解症を引き起こしたため市場から撤退を余儀なく されたが,その事例の多くで,ゲムフィブロジルなど 他剤との併用が報告されていた.一方,CsA もセリバ スタチンの血中濃度を上昇させることが臨床報告され ていた(37)ことから,Shitara らは,そのメカニズム 解明のため検討を行った(38)(図 2).セリバスタチン は,主に CYP2C8,一部 CYP3A4 により代謝され消失 することから,当初は CsA による代謝酵素の阻害が疑 われていたが,肝ミクロソームによるセリバスタチン の代謝は,30μM CsA 存在下においても半分以下の阻 害しか見られず,一方,セリバスタチンのヒト凍結肝 細胞や OATP1B1 発現細胞における取り込みを CsA は Ki=0.3 ~ 0.7μM と低濃度で阻害することが示された. これらよりセリバスタチンと CsA の相互作用は,CsA によるセリバスタチンの OATP1B1 を介した肝取り込 み過程の阻害が原因であることが示唆された(図 2). 一方,ゲムフィブロジルとの相互作用については,主 にはゲムフィブロジル グルクロニドによる CYP2C8 の mechanism-based inhibition であることが示された が,一部ゲムフィブロジル グルクロニドによる肝取り 込み過程の阻害も寄与することが示唆されている(39, 40)(図 2).これ以後,CsA との併用投与により,複 数の OATP 基質薬物(スタチン類,レパグリニド,ボ センタンなど)の血中濃度が上昇するという臨床報告 がなされている.一方,in vitro 試験により臨床投与条 件での肝臓入り口の最大のタンパク質非結合型血中濃 度の見積もり値と OATP1B1,OATP1B3 の阻害定数 (Ki)との比較を行ったところ,OATP1B1 については, CysA に加えて抗結核薬リファンピシン,リファマイ シン SV,抗 HIV 治療薬のインジナビル,リトナビル, 抗生物質クラリスロマイシンが,OATP1B3 について は,CysA とリファンピシンがそれぞれ阻害しうるこ とが示唆された(41, 42).最大濃度を仮定した時の相 互作用リスク評価ではあるが,これら薬剤と OATP 基 質との相互作用の報告も実際にあることから,今後注 意する必要があると思われる. おわりに 以上,肝臓の肝胆系輸送に関与するトランスポータ 表 1 OATP1B1 の遺伝子多型が 薬 物 動 態 に 与 え る 影 響 ~ OATP1B1*15 に よ り 血 中 濃度が上昇した事例~ HMG-CoA 還元酵素阻害薬 プラバスタチン シンバスタチン(acid 体) ピタバスタチン アトルバスタチン ロスバスタチン 高血糖治療薬 レパグリニド ナテグリニド 抗アレルギー治療薬 フェキソフェナジン 肺動脈性高血圧治療薬 アトラセンタン 抗がん薬 イリノテカン(SN-38) コレステロール吸収阻害薬 エゼチミブ ループ利尿薬 トラセミド アンジオテン̋ンII受容体拮抗薬 オルメサルタン 79胆汁排泄とトランスポーター ーと,それらが臨床薬物動態に与える影響について概 説した.従来,代謝酵素により消失すると考えられて きた薬物のうち,肝取り込みトランスポーターの基質 にもなる薬物が次第に増加傾向にあり,この場合,遺 伝子多型や薬物間相互作用による取り込みトランスポ ーターの機能変動は,直接肝固有クリアランスに影響 を与えることから,留意が必要である.現在ではヒト 肝臓試料(凍結肝細胞・肝ブロック)が入手可能とな り,ヒトにおける肝取り込み・胆汁排泄の予測が可能 となりつつある.一方,ヒトでは容易に測定できない 肝臓中濃度についても PET や SPECT などイメージン グ技術を利用することで非侵襲的に定量化することが 出来ることから,予測の妥当性をより精度よく行える 環境が整いつつある.今後,ヒト体内動態予測のため の in vitro 実験・モデル構築と妥当性評価のための臨 床研究が並行して行われ,予測事例がさらに集積する 必要性があると考えている. 文 献 1)Ho RH, et al. Gastroenterology. 2006;130:1793-1806. 2)Meier PJ, et al. Hepatology.
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ABCG2 p.Gln141Lys 20154415:1:32688
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Ieiri I et al: "Genetic polymorphisms of uptake (OATP1B1, 1B3) and efflux (MRP2, BCRP) transporters: implications for inter-individual differences in the pharmacokinetics and pharmacodynamics of statins and other clinically relevant drugs."
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Kim HS, Sunwoo YE, Ryu JY, et al. The effect of ABCG2 V12M, Q141K and Q126X, known functional variants in vitro, on the disposition of lamivudine.
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ABCG2 p.Gln141Lys 19442037:546:60
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97
Table 3 Associations between the principal components and polymorphisms Polymorphism PC1 PC2 PC3 PC4 PC5 PC6 PC7 PC8 PC9 UGT1A1, -53A(TA)6>7TAA, PROMOTER 0.086/0.5 0.301/0.2 0.007/4.9 0.019/1.8 0.216/0.2 0.009/3.4 0.314/0.2 0.204/0.2 0.123/0.4 UGT1A1, -3279G>T (UGT1A1*60), PBREM 0.021/1.7 0.056/0.7 0.043/0.9 0.027/1.3 0.588/0.1 0.001/24.8 0.482/0.1 0.527/0.1 0.046/0.8 UGT1A1, -3156G>A, PBREM 0.008/4.2 0.136/0.3 0.014/2.6 0.017/2.0 0.322/0.2 0.005/6.7 0.031/1.1 0.268/0.2 0.083/0.5 UGT1A7, 387G>T (N129K), EXON 1 0.007/4.6 0.139/0.3 0.001/26.7 0.050/0.8 0.050/0.8 0.103/0.4 0.116/0.4 0.186/0.3 0.114/0.4 UGT1A7, 622T>C (W208R), EXON 1 0.000/77.5 0.392/0.2 0.002/17.3 0.019/1.8 0.332/0.2 0.003/11.2 0.289/0.2 0.055/0.7 0.270/0.2 UGT1A9, -118(T)9>10, UGT1A9*1b, PROMOTER 0.003/12.3 0.258/0.2 0.001/36.4 0.017/2.0 0.054/0.7 0.025/1.4 0.067/0.6 0.279/0.2 0.066/0.6 UGT1A9, -2152C>T, PROMOTER 0.809/0.1 0.453/0.1 0.293/0.2 0.703/0.1 0.328/0.2 0.473/0.1 0.615/0.1 0.238/0.2 0.784/0.1 UGT1A9, -275T>A, PROMOTER 0.632/0.1 0.217/0.2 0.297/0.2 0.764/0.1 0.148/0.3 0.583/0.1 0.527/0.1 0.245/0.2 0.944/0.1 HNF1α, 79A>C (I27L), EXON 1 0.625/0.1 0.001/37.3 0.154/0.3 0.434/0.1 0.527/0.1 0.423/0.2 0.517/0.1 0.366/0.2 0.213/0.2 CYP3A4, -392A>G, CYP3A4*1B, 5ʹ-UTR 0.414/0.2 0.556/0.1 0.337/1.2 0.967/0.4 0.721/0.1 0.323/0.2 0.772/0.2 0.487/0.3 0.923/0.1 CYP3A5, 6986A>G, CYP3A5*3, INTRON 3 0.861/0.4 0.179/0.9 0.255/0.5 0.480/0.1 0.124/0.4 0.704/0.1 0.536/0.1 0.822/0.1 0.443/ 0.1 SLCO1B1, 388A>G (N130D), SLCO1B1*1b, EXON 4 0.079/0.5 0.106/0.4 0.023/1.6 0.097/0.4 0.580/0.1 0.379/0.2 0.317/0.2 0.038/1.0 0.269/0.2 SLCO1B1, 521T>C (V174A), SLCO1B1*15, EXON 5 0.878/0.1 0.614/0.6 0.600/0.1 0.433/0.2 0.751/0.2 0.159/0.5 0.942/0.1 0.145/0.3 0.066/0.6 ABCC2, -1549A>G, 5ʹ-Flanking region 0.383/0.2 0.001/47.4 0.301/0.2 0.308/0.2 0.171/0.3 0.749/0.1 0.705/0.1 0.253/0.2 0.643/0.1 ABCC2, -1019A>G, 5ʹ-Flanking region 0.583/0.1 0.002/15.4 0.254/0.2 0.249/0.2 0.398/0.2 0.732/0.1 0.681/0.1 0.226/0.2 0.809/0.1 ABCC2, -24C>T, 5ʹ-UTR 0.985/0.1 0.013/2.7 0.575/0.2 0.950/1.1 0.054/0.9 0.221/0.7 0.402/0.2 0.641/0.1 0.366/0.6 ABCC2, 1249G>A (V417I), EXON 10 0.443/0.1 0.045/0.9 0.934/0.1 0.358/0.2 0.521/0.1 0.329/0.2 0.495/0.1 0.002/14.9 0.706/0.1 ABCC2, -34T>C, INTRON 26 0.469/0.1 0.258/0.2 0.963/0.1 0.167/0.3 0.639/0.1 0.829/0.1 0.049/0.8 0.734/0.1 0.345/0.2 ABCC2, 3972C>T (I1324I), EXON 28 0.250/0.2 0.011/3.1 0.224/0.2 0.103/0.4 0.013/2.5 0.144/0.3 0.175/0.3 0.200/0.3 0.149/0.3 ABCC1, 1062T>C (N354N), EXON 9 0.136/0.3 0.179/0.3 0.221/0.2 0.120/0.4 0.139/0.3 0.684/0.1 0.013/2.3 0.228/0.2 0.082/0.5 ABCC1, -48C>T, INTRON 11 0.302/0.2 0.187/0.3 0.840/0.2 0.175/0.3 0.105/0.4 0.748/0.5 0.577/0.2 0.642/0.1 0.084/0.6 ABCC1, 1684T>C (L562L), EXON 13 0.405/0.2 0.018/2.0 0.414/0.2 0.098/0.4 0.579/0.1 0.436/0.1 0.805/0.1 0.037/1.0 0.233/0.2 ABCC1, -30C>G, INTRON 18 0.188/0.3 0.004/8.0 0.362/0.2 0.155/0.3 0.879/0.1 0.620/0.1 0.526/0.1 0.061/0.6 0.177/0.3 ABCC1, 4002G>A (S1334S), EXON 28 0.001/29.4 0.022/1.7 0.300/0.2 0.195/0.3 0.416/0.2 0.096/0.4 0.184/0.3 0.064/0.6 0.072/0.6 ABCC1, +18A>G, INTRON 30 0.023/1.6 0.198/0.3 0.424/0.2 0.825/0.1 0.365/0.2 0.296/0.2 0.217/0.2 0.403/0.2 0.236/0.2 ABCB1, -129T>C, 5ʹ-UTR 0.559/0.5 0.811/0.1 0.610/0.3 0.977/0.2 0.725/0.9 0.807/0.4 0.163/0.3 0.177/0.3 0.009/3.5 ABCB1, -25G>T, INTRON 4 0.229/0.3 0.774/0.1 0.832/0.5 0.826/1.1 0.635/0.1 0.877/0.2 0.368/0.2 0.661/0.1 0.832/0.1 ABCB1, -44A>G, INTRON 9 0.147/0.3 0.605/0.1 0.618/0.1 0.570/0.1 0.109/0.4 0.156/0.3 0.096/0.4 0.338/0.2 0.051/0.8 ABCB1, 1236C>T (G412G), EXON 12 0.182/0.3 0.437/0.1 0.382/0.2 0.482/0.1 0.090/0.5 0.280/0.2 0.106/0.4 0.376/0.2 0.153/0.3 ABCB1, +24C>T, INTRON 13 0.725/0.1 0.439/0.1 0.491/0.1 0.540/0.1 0.532/0.1 0.076/0.5 0.100/0.4 0.306/0.2 0.016/2.1 ABCB1, +38A>G, INTRON 14 0.627/0.1 0.538/0.1 0.669/0.1 0.540/0.1 0.532/0.1 0.054/0.7 0.100/0.4 0.306/0.2 0.033/1.1 ABCB1, 2677G>A/T (A893T/S), EXON 21 0.302/0.2 0.543/0.1 0.491/0.1 0.962/0.1 0.943/0.1 0.309/0.2 0.210/0.2 0.890/0.1 0.004/6.9 ABCB1, 3435C>T (I1145I), EXON 26 0.319/0.2 0.441/0.1 0.531/0.1 0.631/0.1 0.664/0.1 0.644/0.1 0.402/0.2 0.226/0.2 0.013/2.5 ABCG2, 34G>A (V12M), EXON 2 0.479/0.1 0.828/0.1 0.139/0.3 0.348/0.2 0.588/0.2 0.673/0.1 0.087/0.5 0.219/0.2 0.780/0.1 ABCG2, 421C>A (Q141K), EXON 5 0.565/0.1 0.397/0.2 0.421/0.2 0.435/0.1 0.628/0.1 0.256/0.2 0.708/0.1 0.533/0.1 0.787/0.1 CES2, -363C>G, 5ʹ-UTR 0.999/2.3 0.546/0.2 0.028/1.9 0.624/0.1 0.872/0.1 0.899/0.1 0.379/0.6 0.92/.1 0.586/0.1 CES2, +1361A>G, INTRON 1 0.381/1.0 0.549/0.2 0.616/0.8 0.118/0.4 0.546/0.1 0.629/0.1 0.275/0.3 0.26/0.2 0.352/0.2 Split to SN-38 and SN-38 to bile to gut to SN-38 IRN compartments SN-38 to SN-38G and SN-38G elimination Split to APC from IRN central compartment APC elimination EHR SN-38 recir-- culation without EHR SN-38 elimination IRN elimination The table shows the P values and Bayes factors, respectively, separated by a"/.
X
ABCG2 p.Gln141Lys 18418374:97:4294
status: NEW193 UGT1A1, -53A(TA)6>7TAA, PROMOTER 0.709(6):0.286(7) 0.62(6):0.38(7) 15,32 UGT1A1, -3279G>T (UGT1A1*60), PBREM 0.47(G):0.53(T) 0.85(G):0.15(T) UGT1A1, -3156G>A, PBREM 0.69(G):0.31(A) 0.715(G):0.285(A) UGT1A1, 211G>A (G71R), UGT1A1*6, EXON 1 0(A):1(G) 0(A):1(G) UGT1A1, 686C>A (P229Q), UGT1A1*27, EXON 1 0(A):1(C) 0(A):1(C) UGT1A7, 387G>T (N129K), EXON 1 0.646(G):0.354(T) 0.522(G):0.478(T) Supplementary Data S1 onlinea UGT1A7, 391C>A (R131K), EXON 1 0.646(G):0.354(T) 0.522(G):0.478(T) UGT1A7, 622T>C (W208R), EXON 1 0.521(T):0.479(C) 0.729(T):0.271(C) UGT1A9, -118(T)9>10, UGT1A9*1b, PROMOTER 0.59(9):0.41(10) 0.56(9):0.44(10) 42 UGT1A9, -2152C>T, PROMOTER 0.91(C):0.09(T) Unknownb UGT1A9, -275T>A, PROMOTER 0.91(T):0.09(A) Unknownb HNF1α, 79A>C (I27L), EXON 1 0.75(A):0.25(C) Unknownb Supplementary Data S1 onlinea CYP3A4, -392A>G, CYP3A4*1B, 5ʹ-UTR 0.977(A):0.023(G) 0.321(A):0.679(G) 43 CYP3A5, 6986A>G, CYP3A5*3, INTRON 3 0.023(A):0.977(G) 0.633(A):0.367(G) SLCO1B1, 388A>G (N130D), SLCO1B1*1b, EXON 4 0.396(C):0.604(T) 0.717(C):0.283(T) Supplementary Data S1 onlinea SLCO1B1, 521T>C (V174A), SLCO1B1*15, EXON 5 0.083(C):0.917(T) 0.022(C):0.978(T) ABCC1, 1062T>C (N354N), EXON 9 0.458(C):0.542(T) 0.643(C):0.357(T) 44 ABCC1, +8A>G, INTRON 9 0.643(A):0.357(G) 0.433(A):0.567(G) ABCC1, -48C>T, INTRON 11 0.146(T):0.854(C) 0(T):1.0(C) ABCC1, 1684T>C (L562L), EXON 13 0.917(C):0.083(T) 0.848(C):0.152(T) ABCC1, -30C>G, INTRON 18 0.042(C):0.958(G) 0.217(C):0.783(G) ABCC1, 4002G>A (S1334S), EXON 28 0.688(C):0.312(T) 0.955(C):0.045(T) ABCC1, +18A>G, INTRON 30 0.213(T):0.787(C) 0.042(T):0.958(C) ABCC2, -1549A>G, 5ʹ-Flanking region 0.43(A):0.57(G) 0.485(A):0.515(G) 44 ABCC2, -1019A>G, 5ʹ-Flanking region 0.43(G):0.57(A) 0.365(G):0.635(A) ABCC2, -24C>T, 5ʹ-UTR 0.230(A):0.770(G) 0.06(A):0.940(G) ABCC2, 1249G>A (V417I), EXON 10 0.146(A):0.854(G) 0.239(A):0.761(G) ABCC2, -34T>C, INTRON 26 0.17(C):0.83(T) 0.25(C):0.75(T) ABCC2, 3972C>T (I1324I), EXON 28 0.380(A):0.620(G) 0.280(A):0.720(G) ABCB1, -129T>C, 5ʹ-UTR 0.620(C):0.938(T) 0.043(C):0.957(T) 44 ABCB1, -25G>T, INTRON 4 0.273(T):0.737(G) 0.385(T) :0.615(G) ABCB1, -44A>G, INTRON 9 0.409(C):0.591(T) 0.20(C):0.80(T) ABCB1, 1236C>T (G412G), EXON 12 0.523(C):0.477(T) 0.864(C):0.136(T) ABCB1, +24C>T, INTRON 13 0.50(T):0.50(C) 0.467(T):0.533(C) ABCB1, +38A>G, INTRON 14 0.429(A):0.571(G) 0.389(A):0.611(G) ABCB1, 2677G>A/T (A893T/S), EXON 21 0.614(G):0.386(T) 0.923(G):0.077(T) ABCB1, 3435C>T (I1145I), EXON 26 0.375(C):0.625(T) 0.848(C):0.152(T) ABCG2, 34G>A (V12M), EXON 2 0.017(A):0.983(G) 0.071(A):0.929(G) Supplementary Data S1 onlinea ABCG2, 421C>A (Q141K), EXON 5 0.045(A):0.955(C) 0.023(A):0.977(C) CES2, -363C>G, 5ʹ-UTR 0.810(C):0.190(G) 0.733(C):0.267(G) Supplementary Data S1 onlinea CES2, +1361A>G, INTRON 1 0.143(G):0.857(A) 0.438(G):0.562(A) CES2, 108C>G, 3ʹ-UTR 0.004(G):0.996(C) 0(G):1.0(C) PBREM, phenobarbital-responsive enhancer module; UTR, untranslated region.
X
ABCG2 p.Gln141Lys 18418374:193:2644
status: NEW
PMID: 16180115
[PubMed]
Ito K et al: "Apical/basolateral surface expression of drug transporters and its role in vectorial drug transport."
No.
Sentence
Comment
212
Kondo et al. (119) also examined the cellular localization of a total of seven SNP variants of BCRP (V12M, Q141K, A149P, R163K, Q166E, P269S, and S441N) in LLC-PK1.
X
ABCG2 p.Gln141Lys 16180115:212:107
status: NEW213 As a result, reduced protein expression levels of Q141K and S441N were observed compared with the wild-type BCRP.
X
ABCG2 p.Gln141Lys 16180115:213:50
status: NEW
PMID: 20799350
[PubMed]
Kelly L et al: "Functional hot spots in human ATP-binding cassette transporter nucleotide binding domains."
No.
Sentence
Comment
72
Predictions of the Functional Effects of 40 nsSNPs in ABC Transporters Comon name HUGO name Mutation NBD Prediction BSEP ABCB11 E592Q NBD1 Neutral BSEP ABCB11 N591S NBD1 Neutral BSEP ABCB11 Q558H NBD1 Neutral BSEP ABCB11 V444A NBD1 Neutral BSEP ABCB11 E1186K NBD2 Disease MDR1 ABCB1 P1051A NBD2 Neutral MDR1 ABCB1 S1141T NBD2 Neutral MDR1 ABCB1 T1256K NBD2 Disease MDR1 ABCB1 V1251I NBD2 Neutral MDR1 ABCB1 W1108R NBD2 Disease MRP2 ABCC2 I670T NBD1 Disease MRP2 ABCC2 L849R NBD1 Disease MRP2 ABCC2 C1515Y NBD2 Disease MRP3 ABCC3 D770N NBD1 Neutral MRP3 ABCC3 K718M NBD1 Neutral MRP3 ABCC3 T809M NBD1 Disease MRP3 ABCC3 V765L NBD1 Disease MRP3 ABCC3 Q1365R NBD2 Disease MRP3 ABCC3 R1297H NBD2 Disease MRP3 ABCC3 R1348C NBD2 Disease MRP3 ABCC3 R1381S NBD2 Disease MRP4 ABCC4 G487E NBD1 Disease MRP4 ABCC4 K498E NBD1 Neutral MRP4 ABCC4 R1220Q NBD2 Neutral MRP4 ABCC4 T1142M NBD2 Neutral MRP4 ABCC4 V1071I NBD2 Neutral MRP6 ABCC6 I1330L NBD1 Neutral MRP6 ABCC6 I742V NBD1 Neutral MRP6 ABCC6 P664S NBD1 Neutral MRP6 ABCC6 R724K NBD1 Neutral MRP6 ABCC6 R769K NBD1 Neutral MRP6 ABCC6 A1291T NBD2 Neutral MRP6 ABCC6 E1369K NBD2 Neutral MRP6 ABCC6 G1327E NBD2 Disease MRP6 ABCC6 L1416R NBD2 Disease MRP6 ABCC6 R1268Q NBD2 Disease MRP6 ABCC6 R1461H NBD2 Disease MXR ABCG2 I206L NBD1 Neutral MXR ABCG2 P269S NBD1 Disease MXR ABCG2 Q141K NBD1 Neutral nsSNPs.
X
ABCG2 p.Gln141Lys 20799350:72:1320
status: NEW
PMID: 17412754
[PubMed]
Wang Z et al: "Signatures of recent positive selection at the ATP-binding cassette drug transporter superfamily gene loci."
No.
Sentence
Comment
211
SNP e5/C421A, which we found to be under RPS even after multiple test corrected (Table 2), results in a non-synonymous amino acid change (Q141K) and resides in the functionally important ATP-binding region between the Walker A and B motifs.
X
ABCG2 p.Gln141Lys 17412754:211:138
status: NEW
PMID: 23058041
[PubMed]
Grandvuinet AS et al: "Intestinal transporters for endogenic and pharmaceutical organic anions: the challenges of deriving in-vitro kinetic parameters for the prediction of clinically relevant drug-drug interactions."
No.
Sentence
Comment
517
Kim HS et al. The effect of ABCG2 V12M, Q141K and Q126X, known functional variants in vitro, on the disposition of lamivudine.
X
ABCG2 p.Gln141Lys 23058041:517:40
status: NEW
PMID: 22869929
[PubMed]
Huang L et al: "Deletion of abcg2 has differential effects on excretion and pharmacokinetics of probe substrates in rats."
No.
Sentence
Comment
15
ABCG2 421CϾA SNP results in a lysine to glutamine acid change at codon 141 (Q141K), which leads to decreased protein expression level or reduced drug resistance to anticancer agents in transfected cells (Imai et al., 2002; Mizuarai et al., 2004; Morisaki et al., 2005; Tamura Article, publication date, and citation information can be found at http://jpet.aspetjournals.org.
X
ABCG2 p.Gln141Lys 22869929:15:82
status: NEW21 The Q141K variant was associated with increased risk for gefitinib-induced diarrhea (Cusatis et al., 2006).
X
ABCG2 p.Gln141Lys 22869929:21:4
status: NEW
PMID: 23065526
[PubMed]
Tiribelli M et al: "Q141K polymorphism of ABCG2 protein is associated with poor prognosis in adult acute myeloid leukemia treated with idarubicin-based chemotherapy."
No.
Sentence
Comment
0
Q141K polymorphism of ABCG2 protein is associated with poor prognosis in adult acute myeloid leukemia treated with idarubicin-based chemotherapy by Mario Tiribelli, Dora Fabbro, Alessandra Franzoni, Renato Fanin, Giuseppe Damante, and Daniela Damiani Haematologica 2012 [Epub ahead of print] Citation: Tiribelli M, Fabbro D, Franzoni A, Fanin R, Damante G, and Damiani D. Q141K polymorphism of ABCG2 protein is associated with poor prognosis in adult acute myeloid leukemia treated with idarubicin-based chemotherapy.
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ABCG2 p.Gln141Lys 23065526:0:0
status: NEWX
ABCG2 p.Gln141Lys 23065526:0:372
status: NEWX
ABCG2 p.Gln141Lys 23065526:0:420
status: NEW13 Q141K polymorphism of ABCG2 protein is associated with poor prognosis in adult acute myeloid leukemia treated with idarubicin‐based chemotherapy Running title: ABCG2 Q141K polymorphism in acute myeloid leukemia Mario Tiribelli1,2 , Dora Fabbro3 , Alessandra Franzoni3 , Renato Fanin1,2 , Giuseppe Damante3,4 and Daniela Damiani1,2 1 Division of Hematology and Bone Marrow Transplantation, Azienda Ospedaliero‐Universitaria Udine, Udine, Italy; 2 Department of Experimental and Clinical Medical Sciences, University of Udine, Udine, Italy; 3 Institute of Genetics, Azienda Ospedaliero‐Universitaria Udine, Udine, Italy, and 4 Department of Medical and Biological Sciences, University of Udine, Udine, Italy Correspondence Daniela Damiani, MD, Clinica Ematologica Azienda Ospedaliero‐Universitaria, Piazzale S. M. Misericordia, 15, 33100 Udine, Italy.
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ABCG2 p.Gln141Lys 23065526:13:0
status: NEWX
ABCG2 p.Gln141Lys 23065526:13:13
status: NEWX
ABCG2 p.Gln141Lys 23065526:13:175
status: NEW19 (4) Among them, the 421C>A (Q141K), that is also the commonest in Caucasian ethnicity (around 10% (5), has been shown to alter protein function and to modify in vitro sensitivity to many anticancer drugs (6-7), including classical anthracyclines and mitoxantrone.
X
ABCG2 p.Gln141Lys 23065526:19:28
status: NEWX
ABCG2 p.Gln141Lys 23065526:19:54
status: NEW20 A recent report on the prognostic value of six ABCG2 gene polymorphisms in 184 Chinese acute leukemia patients seems to suggest that the presence of Q141K is associated with worse outcome.
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ABCG2 p.Gln141Lys 23065526:20:29
status: NEWX
ABCG2 p.Gln141Lys 23065526:20:149
status: NEW21 (8) Aim of this study was to evaluate the frequency of the Q141K variant in a cohort of Caucasian patients with acute myeloid leukemia (AML) and to assess the impact of this polymorphism on the outcome of a treatment strategy that included idarubicin as the only anthracycline.
X
ABCG2 p.Gln141Lys 23065526:21:24
status: NEWX
ABCG2 p.Gln141Lys 23065526:21:59
status: NEW27 (1) ABCG2 genotype was analyzed with the TaqMan SNP Q141K assay (Applied Biosystems, C_15854163_70) and the test was performed in duplicate.
X
ABCG2 p.Gln141Lys 23065526:27:52
status: NEW28 Q141K polymorphism was detected in 29/163 patients (18%), and two patients were homozygous for the mutation.
X
ABCG2 p.Gln141Lys 23065526:28:0
status: NEW29 Of the 125 patients receiving chemotherapy, 26 displayed Q141K variant while 99 were ABCG2 wt.
X
ABCG2 p.Gln141Lys 23065526:29:57
status: NEW32 No impact on CR was demonstrated for ABCG2 overexpression and Q141K polymorphism.
X
ABCG2 p.Gln141Lys 23065526:32:62
status: NEW35 Again, ABCG2 Q141K polymorphism had no impact on relapse: among Q141K+ patients, relapse occurred in 7/16 (44%), while 20 of the 57 patients (%) with wt ABCG2 who attained CR relapsed; 3-years DFS was 47% [CI: 30-64] in Q141+ cases, and 61% [CI: 47-75] in wt patients (p = 0.).
X
ABCG2 p.Gln141Lys 23065526:35:13
status: NEW36 However, stratifying patients in three groups according to ABCG2 expression (low or high) and presence of Q141K polymorphism, a negative impact of Q141K emerged.
X
ABCG2 p.Gln141Lys 23065526:36:106
status: NEWX
ABCG2 p.Gln141Lys 23065526:36:147
status: NEW41 As for DFS, Q141K polymorphism per se did not affect survival, but stratifying patients in the three groups, patients with low ABCG2 and wt gene had a longer OS compared to patients with Q141K ABCG2 or with high ABCG2 expression (55%, CI: 38-72 vs 40%, CI: 20-60 vs 27%, CI: 13-41, respectively) (χ2 = 7.5, p = 0.02) (Figure 1B).
X
ABCG2 p.Gln141Lys 23065526:41:12
status: NEWX
ABCG2 p.Gln141Lys 23065526:41:187
status: NEW43 Q141K-ABCG2 is the most frequent polymorphism in Caucasians, and we detected it in 18%, slightly higher than what is reported in the literature (5, 9).
X
ABCG2 p.Gln141Lys 23065526:43:0
status: NEW47 (6) In our AML patients receiving a therapeutic program that includes idarubicin as the only anthracycline, Q141K is associated with poor outcome, comparable to that of patients over-expressing wild type ABCG2 protein.
X
ABCG2 p.Gln141Lys 23065526:47:108
status: NEW1 A recent report on the prognostic value of six ABCG2 gene polymorphisms in 184 Chinese acute leukemia patients seems to suggest that the presence of Q141K is associated with worse outcome.8 The aim of this study was to evaluate the frequency of the Q141K variant in a cohort of Caucasian patients with acute myeloid leukemia (AML) and to assess the impact of this polymorphism on the outcome of a treatment strategy that included idarubicin as the only anthracycline.
X
ABCG2 p.Gln141Lys 23065526:1:149
status: NEWX
ABCG2 p.Gln141Lys 23065526:1:249
status: NEW5 ABCG2 expression was studied on blast cells by flow cytometry, as previously described.1 ABCG2 genotype was analyzed with the TaqMan SNP Q141K assay (Applied Biosystems, C_15854163_70) and the test was performed in duplicate.
X
ABCG2 p.Gln141Lys 23065526:5:137
status: NEW6 Q141K polymorphism was detected in 29 of 163 patients (18%), and 2 patients were homozygous for the mutation.
X
ABCG2 p.Gln141Lys 23065526:6:0
status: NEW7 Of the 125 patients receiving chemotherapy, 26 displayed Q141K variant while 99 were ABCG2 wt.
X
ABCG2 p.Gln141Lys 23065526:7:57
status: NEW10 No impact on CR was demonstrated for ABCG2 overexpression and Q141K polymorphism.
X
ABCG2 p.Gln141Lys 23065526:10:62
status: NEW14 However, when patients were stratified in three groups according to ABCG2 expression (low or high) and presence of Q141K polymorphism, a negative impact of Q141K emerged.
X
ABCG2 p.Gln141Lys 23065526:14:115
status: NEWX
ABCG2 p.Gln141Lys 23065526:14:156
status: NEW17 Clinical characteristics of the 125 patients treated for AML, divided according to ABCG2 Q141K polymorphism.
X
ABCG2 p.Gln141Lys 23065526:17:89
status: NEW18 Q141K + (n = 26) Q141K - (n = 99) P Age: median (range) 56 (20-75) 60 (25-84) 0.36 WBC x109 /L): median (range) 10.2 (1.4-258.0) 16.0 (0.5-265.0) 0.63 FAB subtype: n. (%) 0.70 M0-M1 7/26 (27) 32/99 (32) M2 9/26 (35) 24/99 (24) M4-M5 10/26 (38) 43/99 (44) Karyotype: n. (%) 0.13 Favorable / Intermediate 19/22 (86) 55/82 (67) Unfavorable 3/22 (14) 27/83 (33) CD34+ : n. (%) 15/26 (58) 59/99 (60) 1.00 CD56+ : n. (%) 1/26 (4) 18/99 (18) 0.13 ABCG2 0.95 overexpression: n. (%) 15/26 (58) 54/99 (54%) mRNA: mean &#b1; SD 0.96&#b1;2.00 1.17&#b1;2.76 protein expression: mean &#b1; SD 0.37&#b1;0.28 0.30&#b1;0.19 Figure 1.
X
ABCG2 p.Gln141Lys 23065526:18:0
status: NEWX
ABCG2 p.Gln141Lys 23065526:18:17
status: NEW26 Regarding DFS, Q141K polymorphism per se did not affect survival, but stratifying patients in the three groups, patients with low ABCG2 and wt gene had a longer OS compared to patients with Q141K ABCG2 or with high ABCG2 expression (55%, CI: 38-72% vs. 40%, CI: 20-60% vs. 27%, CI: 13-41, respectively) (c7;2 = 7.5, P=0.02) (Figure 1B).
X
ABCG2 p.Gln141Lys 23065526:26:15
status: NEWX
ABCG2 p.Gln141Lys 23065526:26:190
status: NEW31 In a group of 184 Chinese patients with acute leukemia, C421A polymorphism was associated with worse survival.6 In our AML patients receiving a therapeutic program that includes idarubicin as the only anthracycline, Q141K is associated with poor outcome, comparable to that of patients over-expressing wild-type ABCG2 protein.
X
ABCG2 p.Gln141Lys 23065526:31:216
status: NEW
PMID: 21884024
[PubMed]
Hua WJ et al: "The role of OATP1B1 and BCRP in pharmacokinetics and DDI of novel statins."
No.
Sentence
Comment
43
Of these, the nonsynonymous 421C>A SNP that results in a glycine to lysine (Q141K) amino acid change has been studied most extensively. The Q141K SNP has been linked to decreased plasma membrane expression of BCRP, decreased drug transport, or reduced ATPase activity [20].
X
ABCG2 p.Gln141Lys 21884024:43:76
status: NEWX
ABCG2 p.Gln141Lys 21884024:43:140
status: NEW44 The study suggested that Q141K SNP has functional consequences in the resulting BCRP protein [21].
X
ABCG2 p.Gln141Lys 21884024:44:25
status: NEW46 Thus, the Q141K SNP may lead to higher drug toxicity in some patient populations [23].
X
ABCG2 p.Gln141Lys 21884024:46:10
status: NEW73 Of these, the nonsynonymous 421C>A SNP that results in a glycine to lysine (Q141K) amino acid change has been studied most extensively. The Q141K SNP has been linked to decreased plasma membrane expression of ABCG2, decreased drug transport or reduced ATPase activity [20,38].
X
ABCG2 p.Gln141Lys 21884024:73:76
status: NEWX
ABCG2 p.Gln141Lys 21884024:73:140
status: NEW
No.
Sentence
Comment
36
An analysis of the Atherosclerosis Risk in Com-muni- ties study showed that at least 10% of all gout cases in white individuals were attributable to the Gln141Lys causal variant.62 However, the frequency of the Gln141Lys risk allele has been reported to be as high as 32% in the Asian population.32,60 Although both Maoris and Pacific Islanders are known to have an increased risk of gout, the Gln141Lys variant is strongly associated with gout only in the western Polynesian population.61 This distribu-tion might be the result of chance depletion of the allele dur-ing eastward migration, as the frequency of the Gln141Lys variant in white populations has been reported to be <12%.37,61 SLC22A12 The SLC22A12 gene encodes URAT1, an essential urate transporter in proximal tubules that has a role in the apical absorption of urate66 and is a target of both urico-suric and antiuricosuric agents (Figure 2).
X
ABCG2 p.Gln141Lys 22945592:36:153
status: NEWX
ABCG2 p.Gln141Lys 22945592:36:211
status: NEWX
ABCG2 p.Gln141Lys 22945592:36:394
status: NEWX
ABCG2 p.Gln141Lys 22945592:36:615
status: NEW58 In the liver, GCKR regulates glucokinase75,85 by mediating the phosphorylation of glucose to glucose‑6-phosphate, a precursor of liver glycogen synthesis and of de novo purine synthesis.75,85 A deficiency in the activity of glucose‑6-phosphatase causes glycogen storage disease type 1 (also known as von Gierke disease), which is characterized by hypertriglyceridaemia and hyperuricaemia.75,85 The GCKR SNP rs780094 might affect both serum uric acid and triglyceride levels (which are associated with insulin resistance) via a common mediator.75 Interestingly, GCKR is associated with insulin resistance,32 glucose level, triglyceride level, and C‑reactive protein,86 which are components of metabolic syndrome.75 Table 2 | SLC2A9, ABCG2 and SLC22A12 variants associated with serum uric acid levels, FeUA and gout Variant Location Phenotype Populations SLC2A9 (chromosome 4) rs1014290 Intron 3 SUA, FeUA, gout European ancestry34 rs6449213 Intron 4 SUA, FeUA, gout White,34-37,43 African American51,72 rs16890979 Exon 6 SUA, gout White,37,42,44 African American,72 Amish55 rs734553 Intron 6 SUA, gout White,32,39,44 Icelandic,13 African American72 rs7442295 Intron 6 SUA, gout White 35,38,39,44 rs737267 Intron 7 SUA, FeUA, gout European ancestry34,44 rs6855911 Intron 7 SUA, gout White,35,38,39,44 African American72 rs13129697 Intron 7 SUA, gout White,33,44 African American72 rs2241480 Intron 8 SUA, gout European ancestry72 rs7663032 Intron 9 SUA, gout African American,72 Croatian44 rs3775948 Intron 9 SUA Croatian,44 African American51 rs16890979 Intergenic SUA, gout White,37 Amish,55 Croatian,44 Pacific Islander,42 New Zealander42 rs717615 Intergenic SUA Croatian44 rs6856396 Intergenic SUA African American51 rs10489070 Intergenic Gout Amish55 ABCG2 (chromosome 4) rs2231137 Exon 2 SUA Japanese63 rs72552713 (Q126X) Exon 4 SUA, gout Japanese63 rs2231142 (Q141K) Exon 5 FeUA, SUA, gout White,32,37,39,44,62 African,37,72 Chinese,60 Icelandic,13 Japanese,59,63 Pacific Islander,61 New Zealander31,61 rs2199936 Intergenic SUA White 32,33,44 SLC22A12 (chromosome 11) rs11231825 Exon 1 FeUA, SUA Chinese,70 White,32,68 African American72 rs3825016 Exon 2 FeUA German68 rs12800450 Exon 2 SUA African American72 rs161109885 Intron 3 SUA Chinese73 rs893006 Intron 4 SUA Japanese,67 Chinese71 rs1529909 Intron 4 FeUA, SUA Korean74 rs475688 Intron 4 Gout Chinese,70 Solomon Islander70 rs17300741 Intron 4 SUA European32,75 rs7932775 Exon 8 SUA, FeUA, gout German,68 Chinese,70,73 Solomon Islander70 rs505802 Intergenic SUA European,32,44 African American72 rs11602903 Intergenic FeUA, SUA German,68 Chinese73 Abbreviations: FeUA, fractional excretion of urate; SUA, serum uric acid.
X
ABCG2 p.Gln141Lys 22945592:58:1886
status: NEW
PMID: 22937733
[PubMed]
Chen P et al: "The contribution of the ABCG2 C421A polymorphism to cancer susceptibility: a meta-analysis of the current literature."
No.
Sentence
Comment
31
Researches had shown that there were two frequently polymorphic SNPs in the BCRP gene: one in exon2 (G34A, resulting in a V12M change) and the other in exon5 (C421A, resulting in a Q141K substitution) respectively [15].
X
ABCG2 p.Gln141Lys 22937733:31:181
status: NEW24 Researches had shown that there were two frequently polymorphic SNPs in the BCRP gene: one in exon2 (G34A, resulting in a V12M change) and the other in exon5 (C421A, resulting in a Q141K substitution) respectively [15].
X
ABCG2 p.Gln141Lys 22937733:24:181
status: NEW207 Imai Y, Nakane M, Kage K, Tsukahara S, Ishikawa E, Tsuruo T, Miki Y, Sugimoto Y: C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 22937733:207:188
status: NEW
PMID: 22767648
[PubMed]
Zander SA et al: "Lack of ABCG2 shortens latency of BRCA1-deficient mammary tumors and this is not affected by genistein or resveratrol."
No.
Sentence
Comment
132
The common SNP rs2231142 (421C>A), which encodes a Q141K loss of function mutation, causes at least 10% of all gout cases in the Caucasian American population of the United States (34).
X
ABCG2 p.Gln141Lys 22767648:132:51
status: NEW130 The common SNP rs2231142 (421C>A), which encodes a Q141K loss of function mutation, causes at least 10% of all gout cases in the Caucasian American population of the United States (34).
X
ABCG2 p.Gln141Lys 22767648:130:51
status: NEW
PMID: 22894673
[PubMed]
Galvani E et al: "EGF receptor-targeted therapy in non-small-cell lung cancer: role of germline polymorphisms in outcome and toxicity."
No.
Sentence
Comment
35
Polymorphism Location Proposed functional effect EGFR CA repeat Chrom. 7, intron 1 EGFR gene transcription declines with increasing number of CA repeats EGFR R497KA/G Chrom. 7, exon 13 Substitution of arginine by lysine is associated with decreased EGFR activity EGFR -216G/T Chrom. 7, promoter T allele is associated with higher EGFR promoter activity EGFR -191C/A Chrom. 7, exon 1 A allele is associated with increased EGFR protein production AKT1-SNP4 Chrom. 14, exon 11 A allele is associated with reduced AKT1 mRNA ABCG2 421C/A (Q141K) Chrom. 4, exon 5 A allele associated with reduced transport of TKIs ABCG2 -15622C/T Chrom. 4, promoter T allele is associated with lower ABCG2 expression ABCG2 1143C/T Chrom. 4, exon 4 T allele is associated with lower ABCG2 expression CYP3A5*3 Chrom. 7, exon 7 CYP3A5*3 variant is associated with significant reduction in CYP3A5 protein expression and activity CYP3A4*1B Chrom. 7, exon 7 CYP3A4*1B variant is associated with twofold higher promoter activity Chrom.: Chromosome; TKI: Tyrosine kinase inhibitor.
X
ABCG2 p.Gln141Lys 22894673:35:534
status: NEW57 Study Patients (n) Studied polymorphisms Effects Ref. Cusatis et al. (2006) 124 ABCG2: 421C>A (Q141K) Heterozygosis is associated with diarrhea [67] Brugger et al. (2011) 889 EGFR: Intr1, mut, copy-num, expression; KRAS: mut EGFR mut are associated with longer PFS KRAS mut are associated with reduced PFS [70] Hamada et al. (2012) 50 ABCB1: 1236TT, 2677TT, 3435TT 1236TT, 2677TT and 3435TT are associated with higher plasma concentration and risk of developing toxicity [73] copy-num: Gene copy-number; DCR: Disease control rate; Intr1: Intron 1; mut: Mutations; OS: Overall survival; PFS: Progression-free survival; PR: Partial response; RR: Response rate; SD: Stable disease; SNP: Single nucleotide polymorphism; TTP: Time to progression.
X
ABCG2 p.Gln141Lys 22894673:57:95
status: NEW68 In agreement with the previous study, EGFR activating muta‑ tions were associated with sensitivity to gefit‑ inib and OS, and short CA-repeat status was also correlated with better response and longer EGFR EGFEGF EGF ATP ATP P P Cell growth, proliferation, invasion, angiogenesis, metastasis and inhibition of apoptosis ABCG2/ABCB1 RAS RAF MEK ERK PI3K Akt mTor AKT AKT1-SNP4: A allele associated with reduced AKT1 mRNA Cytoplasmic membrane Cytoplasm Drug target CA repeat: EGFR gene transcription declines with increasing number of CA repeats R497KA/G: the substitution of arginine by lysine is associated with decreased EGFR activity 216G/T: T allele associated with higher EGFR promoter activity 191C/A: A allele associated with increased EGFR protein production Drug transporters ABCG2 421C/A (Q141K): A allele is related to reduced TKI transport ABCG2 15622C/T and 1143C/T: T allele is related to lower ABCG2 expression ABCB1 2677G>T/A: associated with reduced TKI clearance ABCB1 1236TT, 2677TT and 3435TT: genotype related to higher plasma concentration and risk of developing higher toxicity CYP450 CYP3A5*3: variant associated with significant reduction in protein activity CYP3A4*1B: variant associated with twofold higher promoter activity CYP2D6*1, *2xn: variants associated with extensive drug metabolizers CYP2D6*3, *4, *5, *6, *9, *14 and *29: variants associated with poor drug metabolizers CYP1A1*2A: variant correlated with EGFR activating mutations and EGFR TKI response CYPs Erlotinib Gefitinib Nucleus Figure 1.
X
ABCG2 p.Gln141Lys 22894673:68:812
status: NEW116 In particular, the ABCG2 421C/A polymorphism, resulting in a glutamine-to-lysine amino acid change at position 141 (Q141K), has been correlated with the downregulation of ABCG2 and with increase in accumulation of both gefitinib and erlotinib [53].
X
ABCG2 p.Gln141Lys 22894673:116:116
status: NEW
PMID: 22472121
[PubMed]
Basseville A et al: "Histone deacetylase inhibitors influence chemotherapy transport by modulating expression and trafficking of a common polymorphic variant of the ABCG2 efflux transporter."
No.
Sentence
Comment
3
As one of the most frequent variants in human ABCG2, the polymorphism Q141K impairs expression, localization, and function, thereby reducing drug clearance and increasing chemotherapy toxicity.
X
ABCG2 p.Gln141Lys 22472121:3:51
status: NEWX
ABCG2 p.Gln141Lys 22472121:3:70
status: NEW4 Mechanistic investigations revealed that the ABCG2 Q141K variant was fully processed but retained in the aggresome, a perinuclear structure, where misfolded proteins aggregate.
X
ABCG2 p.Gln141Lys 22472121:4:51
status: NEW8 Together, these results showed how HDIs are able to restore wild-type functions of the common Q141K polymorphic isoform of ABCG2.
X
ABCG2 p.Gln141Lys 22472121:8:94
status: NEW17 The most studied ABCG2 polymorphism is the nonsynonymous single-nucleotide polymorphism (SNP) C421A, which results in a glutamic acid to lysine substitution at amino acid 141 (Q141K), localized in the ATP-binding domain.
X
ABCG2 p.Gln141Lys 22472121:17:176
status: NEW19 ABCG2 harboring Q141K has impaired protein expression, incomplete trafficking to the plasma membrane, and decreased function.
X
ABCG2 p.Gln141Lys 22472121:19:16
status: NEW20 Clinically, the Q141K polymorphism has been linked to reduced clearance of some ABCG2 substrate drugs including diflomotecan, irinotecan, topotecan, gefitinib, rosuvastatin, atorvastatin, fluvastatin, simvastatin, and sulfasalazine (6).
X
ABCG2 p.Gln141Lys 22472121:20:16
status: NEWX
ABCG2 p.Gln141Lys 22472121:20:51
status: NEW21 In addition to its impact on pharmacokinetics, the Q141K SNP has recently been linked to at least 10% of all gout cases, as the decreased ABCG2 function reduces urate elimination (7).
X
ABCG2 p.Gln141Lys 22472121:21:44
status: NEWX
ABCG2 p.Gln141Lys 22472121:21:51
status: NEWX
ABCG2 p.Gln141Lys 22472121:21:248
status: NEW22 Because of the clinical significance of the Q141K polymorphism in anticancer drug pharmacokinetics and potential involvement in carcinogenesis, we studied processing and trafficking of the intracellular trapped variant protein and ways of rescuing Q141K ABCG2 to restore it to its wild-type (WT) phenotype.
X
ABCG2 p.Gln141Lys 22472121:22:44
status: NEWX
ABCG2 p.Gln141Lys 22472121:22:248
status: NEW35 WT and Q141K ABCG2 sublines were created by transfection of the pcDNA5/FRT/V5-His-TOPO vector (Invitrogen) expressing WT or Q141K ABCG2 into Flp-In-293 cells, an HEK293 subline bearing a single integrated Flp Recombination Target site (Invitrogen), according to the manufacturer's instructions.
X
ABCG2 p.Gln141Lys 22472121:35:7
status: NEWX
ABCG2 p.Gln141Lys 22472121:35:124
status: NEW59 Results Determination of Q141K ABCG2 trafficking Flp-In-293 cells were selected for this study, as one copy of the vector is known to insert at a unique specific site, resulting in comparable RNA levels.
X
ABCG2 p.Gln141Lys 22472121:59:25
status: NEWX
ABCG2 p.Gln141Lys 22472121:59:44
status: NEWX
ABCG2 p.Gln141Lys 22472121:59:209
status: NEW60 To evaluate ABCG2 WT and Q141K variant localization in cells, immunofluorescent experiments were carried out.
X
ABCG2 p.Gln141Lys 22472121:60:25
status: NEWX
ABCG2 p.Gln141Lys 22472121:60:77
status: NEW61 As previously reported (15-17), we saw that Q141K ABCG2 proteins had incomplete trafficking and cytoplasmic retention, whereas WT proteins were mainly localized HDI Impact on the Expression and Trafficking of Q141K ABCG2 www.aacrjournals.org Cancer Res; 72(14) July 15, 2012 3643 American Association for Cancer ResearchCopyright (c) 2012 on October 25, 2012cancerres.aacrjournals.orgDownloaded from Published OnlineFirst April , in the cell membrane (Fig. 1A).
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ABCG2 p.Gln141Lys 22472121:61:9
status: NEWX
ABCG2 p.Gln141Lys 22472121:61:44
status: NEWX
ABCG2 p.Gln141Lys 22472121:61:209
status: NEW62 Also noted was staining of large aggregates of proteins, suggesting that the Q141K ABCG2 variant was accumulated in a localized cellular area.
X
ABCG2 p.Gln141Lys 22472121:62:17
status: NEWX
ABCG2 p.Gln141Lys 22472121:62:77
status: NEW63 Although Q141K and WT ABCG2 mRNA levels were equal, variant protein levels were 4-fold lower, suggesting that a posttranslational mechanism regulates expression (Fig. 1B).
X
ABCG2 p.Gln141Lys 22472121:63:9
status: NEWX
ABCG2 p.Gln141Lys 22472121:63:21
status: NEW64 Accordingly, the Q141K variant showed 5-fold decreased surface expression compared with WT.
X
ABCG2 p.Gln141Lys 22472121:64:17
status: NEW65 We hypothesized that Q141K variant underexpression was due to protein degradation.
X
ABCG2 p.Gln141Lys 22472121:65:21
status: NEWX
ABCG2 p.Gln141Lys 22472121:65:102
status: NEW66 To explore whether Q141K ABCG2 was degraded by the ubiquitin-proteasome, the endosome-lysosome, or the autophagic pathways, we treated thecells with the proteasome inhibitor MG132; bafilomycin A1, which inhibits lysosomal degradation; and 3-methyladenine, which inhibits autophagosome formation.
X
ABCG2 p.Gln141Lys 22472121:66:19
status: NEWX
ABCG2 p.Gln141Lys 22472121:66:72
status: NEW67 Bafilomycin and MG132 treatment increased total protein expression (between 150% and 180%) for WT and Q141K protein (Fig. 1C).
X
ABCG2 p.Gln141Lys 22472121:67:85
status: NEWX
ABCG2 p.Gln141Lys 22472121:67:102
status: NEW68 These data suggest that in normal processing, a small portion of WT and Q141K ABCG2 are degraded via the proteasomal pathway, whereas the fully processed proteins thatreach thesurface aredegraded by the lysosome, as observed for other transmembrane proteins (18).
X
ABCG2 p.Gln141Lys 22472121:68:72
status: NEWX
ABCG2 p.Gln141Lys 22472121:68:92
status: NEW69 Interestingly, the inhibition of the autophagic pathway induced a 3-fold increase in Q141K ABCG2 levels but barely affected WT protein expression.
X
ABCG2 p.Gln141Lys 22472121:69:85
status: NEW70 This indicates that autophagy is the main posttranslational mechanism, leading to a loss of Q141K variant expression.
X
ABCG2 p.Gln141Lys 22472121:70:17
status: NEWX
ABCG2 p.Gln141Lys 22472121:70:92
status: NEW72 Determination of Q141K ABCG2 localization, processing, and degradation pathways.
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ABCG2 p.Gln141Lys 22472121:72:17
status: NEW80 We also observed that a higher proportion of Q141K variant is ubiquitinated than in the WT protein (Supplementary Fig. S2).
X
ABCG2 p.Gln141Lys 22472121:80:45
status: NEW82 To examine the processing of Q141K ABCG2, whole-cell lysates from Flp-In-293 cells were deglycosylated with PNGase F and Endo H. ABCG2 contains a polysaccharide chain on asparagine 596 (19).
X
ABCG2 p.Gln141Lys 22472121:82:29
status: NEW84 No change in molecular mass was observed after Endo H digestion (Fig. 1D), suggesting that both WT and Q141K ABCG2 were completely processed and not retained in the endoplasmic reticulum.
X
ABCG2 p.Gln141Lys 22472121:84:103
status: NEW87 Results showed that Q141K was not retained in Golgi (Fig. 1E).
X
ABCG2 p.Gln141Lys 22472121:87:20
status: NEW88 We then asked whether Q141K ABCG2 proteins were retained in aggresomes.
X
ABCG2 p.Gln141Lys 22472121:88:22
status: NEW91 Thus, the major fraction of Q141K variant accumulated in the aggresomes.
X
ABCG2 p.Gln141Lys 22472121:91:28
status: NEW94 The Q141K ABCG2 variant reached its mature form but was mainly sequestered in the aggresome and degraded via autophagy.
X
ABCG2 p.Gln141Lys 22472121:94:4
status: NEW98 The effects of mitoxantrone were thus assayed in Q141K ABCG2 variant trafficking.
X
ABCG2 p.Gln141Lys 22472121:98:49
status: NEW100 Treatment with 5 mmol/L mitoxantrone for 24 hours caused a small increase in WT and Q141K total ABCG2 expression (around 125% for mRNA and 120% for protein compared with untreated cells).
X
ABCG2 p.Gln141Lys 22472121:100:84
status: NEW101 Surface expression showed a 160% induction in WT cells and a 250% induction in Q141K cells (Fig. 2A).
X
ABCG2 p.Gln141Lys 22472121:101:79
status: NEW103 Q141K variant showed a marked homogeneous staining pattern, with loss of aggresome localization, whereas Flp-In-293 WT cells showed no change (Fig. 2B).
X
ABCG2 p.Gln141Lys 22472121:103:0
status: NEW104 Finally, ABCG2 net efflux was determined by fluorescence-activated cell sorting (FACS) in Flp-In-293 WT and Q141K cells after mitoxantrone treatment (Fig. 2C).
X
ABCG2 p.Gln141Lys 22472121:104:108
status: NEW105 Pretreatment with mitoxantrone for 24 hours caused a weak increase of substrate net efflux (113% and 128% for WT and Q141K ABCG2, respectively).
X
ABCG2 p.Gln141Lys 22472121:105:117
status: NEW112 Total and surface protein expressions were similarly increased (210%-310% for WT ABCG2 and 260%-375% for Q141K ABCG2).
X
ABCG2 p.Gln141Lys 22472121:112:105
status: NEW116 Again, basal plasma membrane localization of WT far exceeded that in Flp-In-293 Q141K cells, where ABCG2 was localized in aggresomes (Fig. 3B).
X
ABCG2 p.Gln141Lys 22472121:116:80
status: NEW117 After exposure to HDIs, WT ABCG2 showed a minimal change in localization, whereas a dramatic change was seen for Q141K ABCG2.
X
ABCG2 p.Gln141Lys 22472121:117:113
status: NEW119 In Fig. 3C, we observed in detail that in romidepsin-treated Flp-In-293 Q141K cells, the aggresome-localized ABCG2 had almost disappeared in favor of a strong surface localization.
X
ABCG2 p.Gln141Lys 22472121:119:72
status: NEW120 ABCG2- specific efflux was then determined by FACS after HDI treatment in Flp-In-293 WT and Q141K cells.
X
ABCG2 p.Gln141Lys 22472121:120:91
status: NEW122 However, the change in transport ability following exposure to the HDIs in Flp-In-293 Q141K cells was notably higher: 200% for romidepsin, 163% for panobinostat, and 210% for vorinostat, compared with untreated Flp-In-293 Q141K cells (Fig. 3D).
X
ABCG2 p.Gln141Lys 22472121:122:86
status: NEWX
ABCG2 p.Gln141Lys 22472121:122:222
status: NEW123 Increased Q141K ABCG2 function was confirmed by a cell death assay using the ABCG2 substrate, pheophorbide A (Fig. 3E).
X
ABCG2 p.Gln141Lys 22472121:123:10
status: NEW124 Indeed, Flp-In-293 Q141K cells pretreated for 24 hours with HDI Impact on the Expression and Trafficking of Q141K ABCG2 www.aacrjournals.org Cancer Res; 72(14) July 15, 2012 3645 American Association for Cancer ResearchCopyright (c) 2012 on October 25, 2012cancerres.aacrjournals.orgDownloaded from Published OnlineFirst April 3, romidepsin showed a decrease in celldeath after pheophorbide A treatment compared with cells not pretreated.
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ABCG2 p.Gln141Lys 22472121:124:19
status: NEWX
ABCG2 p.Gln141Lys 22472121:124:108
status: NEW126 Altogether, these results indicate that romidepsin, vorinostat, and panobinostat induced an increase in WT and Q141K ABCG2 expression that was associated with an improved trafficking to the cell surface in the Q141K variant.
X
ABCG2 p.Gln141Lys 22472121:126:111
status: NEWX
ABCG2 p.Gln141Lys 22472121:126:210
status: NEW127 The increase also came with a gain of Q141K ABCG2 function, indicating that the surface variant was functional.
X
ABCG2 p.Gln141Lys 22472121:127:38
status: NEW128 Transcriptional effects of HDIs on Q141K ABCG2 rescue Our goal was to determine the mechanism by which HDI treatment leads to improvement of ABCG2 mutant trafficking.
X
ABCG2 p.Gln141Lys 22472121:128:35
status: NEW132 We then observed, in both Flp-In-293 WT and Q141K cells, that the mitoxantrone- and HDI-induced increases in surface expression were abolished by inhibition of protein synthesis (Fig. 4A), and the same results were obtained with the transcription inhibitor actinomycin D (Supplementary Fig. S5).
X
ABCG2 p.Gln141Lys 22472121:132:44
status: NEW135 This suggests that mitoxantrone only modified the trafficking of the neosynthesized ABCG2 and would not act on Q141K ABCG2 already trapped in the aggresome.
X
ABCG2 p.Gln141Lys 22472121:135:111
status: NEW139 We compared the data from mitoxantrone and HDI effect on Q141K ABCG2 localization and function.
X
ABCG2 p.Gln141Lys 22472121:139:57
status: NEW141 HDIs A Surface B C ProteinANRm WT Q141K %Comparedwithuntreatedcells %Comparedwithuntreatedcells WT Q141K Flp-ln-293 WT Flp-ln-293 Q141K WT Q141K WT Q141K * 0 50 100 150 200 250 300 350 0 50 100 150 200 250 300 350 0 50 100 150 200 250 300 350 Compared with WT Compared with WT Compared with WT Ctl MX Ctl MX ABCG2 relative efflux ABCG2 expression * * 0 50 100 150 200 250 300 350 Ctl MX Figure 2.
X
ABCG2 p.Gln141Lys 22472121:141:34
status: NEWX
ABCG2 p.Gln141Lys 22472121:141:38
status: NEWX
ABCG2 p.Gln141Lys 22472121:141:99
status: NEWX
ABCG2 p.Gln141Lys 22472121:141:111
status: NEWX
ABCG2 p.Gln141Lys 22472121:141:130
status: NEWX
ABCG2 p.Gln141Lys 22472121:141:139
status: NEWX
ABCG2 p.Gln141Lys 22472121:141:142
status: NEW144 Q141K mRNA, total protein, and surface protein expression was 93%, 28%, and 21%, respectively, of WT ABCG2.
X
ABCG2 p.Gln141Lys 22472121:144:0
status: NEW145 B, ABCG2 was shown by confocal microscopy in Flp-In-293 WT and Q141K cells after 24-hour treatment with mitoxantrone.
X
ABCG2 p.Gln141Lys 22472121:145:63
status: NEW147 Q141K relative efflux was 39.5% of WT ABCG2.
X
ABCG2 p.Gln141Lys 22472121:147:0
status: NEW148 Ctl, control. Basseville et al. Cancer Res; 72(14) July 15, 2012 Cancer Research3646 induced mainly Q141K ABCG2 trafficking to the membrane, accompanied by a greater increase in protein function.
X
ABCG2 p.Gln141Lys 22472121:148:101
status: NEW152 Nontranscriptional mechanisms of HDIs inducing Q141K ABCG2 rescue Considering ABCG2 acetylation as a possible mechanism of rescue, we immunoprecipitated ABCG2 and immunoblotted for acetylated lysine but saw no effect of HDIs on the transporter acetylation state (data not shown).
X
ABCG2 p.Gln141Lys 22472121:152:47
status: NEW153 We observed that Q141K ABCG2 was retained in aggresomes.
X
ABCG2 p.Gln141Lys 22472121:153:17
status: NEWX
ABCG2 p.Gln141Lys 22472121:153:47
status: NEW160 Impact of HDIs on WT and Q141K ABCG2 protein expression, localization, and function.
X
ABCG2 p.Gln141Lys 22472121:160:25
status: NEW161 A, ABCG2 mRNA, total and surface protein were, respectively, quantified by qPCR, immunoblotting, and FACS analysis in Flp-In-293 WT and Q141K cells following 24-hour exposure to 46 nmol/L romidepsin (RD), 100 nmol/L panobinostat (PN), 10 mmol/L vorinostat (VR), or 1 mmol/L valproic acid (VA).
X
ABCG2 p.Gln141Lys 22472121:161:25
status: NEWX
ABCG2 p.Gln141Lys 22472121:161:136
status: NEW163 C, ABCG2 and g-tubulin were observed in Q141K cells after 24-hour RD treatment (magnified example).
X
ABCG2 p.Gln141Lys 22472121:163:40
status: NEW166 E, cells were pretreated or not with RD dilutions for 24 hours, then treated for 24 hours with pheophorbide A (pheo A; 1 mmol/L for WT and 0.5 mmol/L for Q141K cells), and cell death was measured by flow cytometry.
X
ABCG2 p.Gln141Lys 22472121:166:154
status: NEW168 Ctl RD PN VR VA Flp-In-293 WT Flp-In-293 Q141K ABCG2/γ-tub/nucleus in RD-treated Q141K cells %Comparedwithuntreatedcells %Comparedwithuntreatedcells Protein SurfaceAN A Rm C B WT Q141K Ctl RD PN VR VA D ABCG2 relative efflux 0 50 100 150 200 250 300 350 400 450 500 0 50 100 150 200 250 300 350 400 450 500 0 50 100 150 200 250 300 350 400 450 500 WT Q141K WT Q141K WT Q141K E Pheo A-induced cell death %Celldeathcomparedwith pheophorbideAuntreatedcells ** compared with WT compared with WT compared with WT * ** * ** * ** * ** * ** * ** * ** * ** * ** * 0 100 200 300 400 500 600 700 WT Q141K Ctl RD PN VR VA not pretreat. 24-h RD pretreat.: 9 nmol/L 18 nmol/L 46 nmol/L 0 50 100 150 200 250 300 350 400 450 HDI Impact on the Expression and Trafficking of Q141K ABCG2 www.aacrjournals.org Cancer Res; 72(14) July 15, 2012 3647 American Association for Cancer ResearchCopyright (c) 2012 on October 25, 2012cancerres.aacrjournals.orgDownloaded from Published OnlineFirst April 3, We next examined the role of microtubules, known to be involved in retrograde transport, in ABCG2 localization.
X
ABCG2 p.Gln141Lys 22472121:168:41
status: NEWX
ABCG2 p.Gln141Lys 22472121:168:87
status: NEWX
ABCG2 p.Gln141Lys 22472121:168:185
status: NEWX
ABCG2 p.Gln141Lys 22472121:168:357
status: NEWX
ABCG2 p.Gln141Lys 22472121:168:366
status: NEWX
ABCG2 p.Gln141Lys 22472121:168:375
status: NEWX
ABCG2 p.Gln141Lys 22472121:168:594
status: NEWX
ABCG2 p.Gln141Lys 22472121:168:763
status: NEW175 To evaluate HDAC6 involvement in Q141K ABCG2 rescue, we treated Flp-In-293 Q141K cells with the HDAC6 inhibitor tubastatin (28).
X
ABCG2 p.Gln141Lys 22472121:175:33
status: NEWX
ABCG2 p.Gln141Lys 22472121:175:75
status: NEW184 To confirm these data, we conducted an siRNA assay to inhibit the expression of dynamitin, and we assessed the effect of HDIs on ABCG2 Q141K rescue after dynamitin knockdown.
X
ABCG2 p.Gln141Lys 22472121:184:135
status: NEW185 As shown in Fig. 5F, dynamitin knockdown blunted the effect of HDIs on Q141K ABCG2 rescue with a significant effect for romidepsin.
X
ABCG2 p.Gln141Lys 22472121:185:71
status: NEWX
ABCG2 p.Gln141Lys 22472121:185:135
status: NEW186 Discussion We saw that the Q141K variant was retained in aggresomes and then degraded by the autophagic pathway.
X
ABCG2 p.Gln141Lys 22472121:186:27
status: NEWX
ABCG2 p.Gln141Lys 22472121:186:71
status: NEW189 Aggresome formation facilitates the capture of aggregated proteins by the autophagic pathway (30-33), which we observed to be the case for Q141K ABCG2.
X
ABCG2 p.Gln141Lys 22472121:189:139
status: NEW190 A previous study had shown in the same Flp-In-293 cell model that Q141K ABCG2 was subjected to ubiquitin-mediated proteasomal and lysosomal degradation, with a 2-fold increase in expression after treatment with both inhibitors (17).
X
ABCG2 p.Gln141Lys 22472121:190:66
status: NEWX
ABCG2 p.Gln141Lys 22472121:190:139
status: NEW193 It is interesting to note that the expressed WT and Q141K ABCG2 variants are found in a fully mature form, contrary to what has been observed with other ABC transporters.
X
ABCG2 p.Gln141Lys 22472121:193:52
status: NEW196 We sought to rescue Q141K ABCG2 trafficking using HDIs.
X
ABCG2 p.Gln141Lys 22472121:196:20
status: NEW198 Transcriptional effects of HDIs on ABCG2 Q141K rescue.
X
ABCG2 p.Gln141Lys 22472121:198:41
status: NEW199 A, quantification of ABCG2 surface expression by FACS in Flp-In-293 WT and Q141K cells after 24-hour exposure to mitoxantrone (MX) and HDIs in presence or absence of cycloheximide (CHX).
X
ABCG2 p.Gln141Lys 22472121:199:41
status: NEWX
ABCG2 p.Gln141Lys 22472121:199:75
status: NEW202 Basseville et al. Cancer Res; 72(14) July 15, 2012 Cancer Research3648 expression with a conserved ratio for WT as for Q141K variant.
X
ABCG2 p.Gln141Lys 22472121:202:120
status: NEW203 More importantly, HDIs caused a strong relocalization of the Q141K variant from aggresome to cell surface and increased Q141K-mediated efflux.
X
ABCG2 p.Gln141Lys 22472121:203:61
status: NEWX
ABCG2 p.Gln141Lys 22472121:203:120
status: NEW204 We sought to understand why these HDI-induced Q141K proteins, instead of accumulating in the aggresomes, were able to traffic to the cell surface.
X
ABCG2 p.Gln141Lys 22472121:204:46
status: NEWX
ABCG2 p.Gln141Lys 22472121:204:174
status: NEW215 We observed that colchicine was also able to rescue Q141K ABCG2 trafficking.
X
ABCG2 p.Gln141Lys 22472121:215:52
status: NEW217 We deduced that HDIs similarly inhibit Q141K retrograde transport toward the aggresome, likely via dynamitin overexpression.
X
ABCG2 p.Gln141Lys 22472121:217:39
status: NEWX
ABCG2 p.Gln141Lys 22472121:217:52
status: NEW220 Nontranscriptional effects of HDIs on ABCG2 Q141K rescue.
X
ABCG2 p.Gln141Lys 22472121:220:44
status: NEW221 A, vimentin and g-tubulin localization were observed by confocal microscopy in Flp-in-293 Q141K cells after a 24-hour treatment with 46 nmol/L romidepsin (RD).
X
ABCG2 p.Gln141Lys 22472121:221:90
status: NEW222 B, the effect of colchicine (colch; 1 mmol/L, 24 hours) on ABCG2 localization was determined by immunofluorescence in Flp-In-293 Q141K ABCG2 cells.
X
ABCG2 p.Gln141Lys 22472121:222:44
status: NEWX
ABCG2 p.Gln141Lys 22472121:222:129
status: NEW223 C, ABCG2 total expression was quantified by immunoblot in Flp-In-293 WT and Q141K cells after 24-hour exposure to 1 mmol/L colchicine.
X
ABCG2 p.Gln141Lys 22472121:223:76
status: NEWX
ABCG2 p.Gln141Lys 22472121:223:90
status: NEW224 D, quantification of ABCG2 surface expression by FACS in Flp-In-293 Q141K cells after 24-hour exposure to HDIs in presence or absence of 2.5 mmol/L tubastatin (tuba).
X
ABCG2 p.Gln141Lys 22472121:224:68
status: NEWX
ABCG2 p.Gln141Lys 22472121:224:129
status: NEW226 F, the knockdown of dynamitin was observed after 48-hour transfection in Q141K cells by immunoblotting (left).
X
ABCG2 p.Gln141Lys 22472121:226:68
status: NEW227 The effect of dynamitin knockdown was then assessed on ABCG2 Q141K protein expression (surface and total) after a subsequent 24-hour HDI treatment.
X
ABCG2 p.Gln141Lys 22472121:227:61
status: NEW229 HDI Impact on the Expression and Trafficking of Q141K ABCG2 www.aacrjournals.org Cancer Res; 72(14) July 15, 2012 3649 American Association for Cancer ResearchCopyright (c) 2012 on October 25, 2012cancerres.aacrjournals.orgDownloaded from Published OnlineFirst April 3, an inflammatory stimulus, HDAC1 competed with the adaptor proteins for binding to motor proteins that travel along the microtubules, impairing axonal transport in neurons.
X
ABCG2 p.Gln141Lys 22472121:229:48
status: NEWX
ABCG2 p.Gln141Lys 22472121:229:61
status: NEW231 Nawrocki and colleagues (40) also showed that inhibition of HDAC6 led to disruption of the aggresomes, but our experiments suggested that this deacetylase was not involved in the Q141K ABCG2 rescue.
X
ABCG2 p.Gln141Lys 22472121:231:48
status: NEWX
ABCG2 p.Gln141Lys 22472121:231:179
status: NEW232 On the basis of our results, we propose a multipathway mechanism for HDI-induced Q141K ABCG2 rescue to surface (Fig. 6).
X
ABCG2 p.Gln141Lys 22472121:232:81
status: NEW233 HDIs induced Q141K ABCG2 surface localization by an increase in ABCG2 transcription coupled to dynamitin overexpression, which reduced aggresome targeting by inhibition of dynein/microtubule retrograde transport.
X
ABCG2 p.Gln141Lys 22472121:233:13
status: NEWX
ABCG2 p.Gln141Lys 22472121:233:179
status: NEW253 Proposed mechanism of multiple target HDI-mediated Q141K ABCG2 rescue.
X
ABCG2 p.Gln141Lys 22472121:253:51
status: NEW254 HDIs act on Q141K ABCG2 trafficking by inducing ABCG2 overexpression (1) and likely a trafficking/folding partner overexpression (3), as well as by inhibition of retrograde transport from cytoplasm to aggresome (2).
X
ABCG2 p.Gln141Lys 22472121:254:12
status: NEW294 Major SNP (Q141K) variant of human ABC transporter ABCG2 undergoes lysosomal and proteasomal degradations.
X
ABCG2 p.Gln141Lys 22472121:294:11
status: NEW349 HDI Impact on the Expression and Trafficking of Q141K ABCG2 www.aacrjournals.org Cancer Res; 72(14) July 15, 2012 3651 American Association for Cancer ResearchCopyright (c) 2012 on October 25, 2012cancerres.aacrjournals.orgDownloaded from Published OnlineFirst April 3,
X
ABCG2 p.Gln141Lys 22472121:349:48
status: NEW2 As one of the most frequent variants in human ABCG2, the polymorphism Q141K impairs expression, localization, and function, thereby reducing drug clearance and increasing chemotherapy toxicity.
X
ABCG2 p.Gln141Lys 22472121:2:70
status: NEW7 Together, these results showed how HDIs are able to restore wild-type functions of the common Q141K polymorphic isoform of ABCG2.
X
ABCG2 p.Gln141Lys 22472121:7:94
status: NEW16 The most studied ABCG2 polymorphism is the nonsynonymous single-nucleotide polymorphism (SNP) C421A, which results in a glutamic acid to lysine substitution at amino acid 141 (Q141K), localized in the ATP-binding domain.
X
ABCG2 p.Gln141Lys 22472121:16:176
status: NEW18 ABCG2 harboring Q141K has impaired protein expression, incomplete trafficking to the plasma membrane, and decreased function.
X
ABCG2 p.Gln141Lys 22472121:18:16
status: NEW34 WT and Q141K ABCG2 sublines were created by transfection of the pcDNA5/FRT/V5-His-TOPO vector (Invitrogen) expressing WT or Q141K ABCG2 into Flp-In-293 cells, an HEK293 subline bearing a single integrated Flp Recombination Target site (Invitrogen), according to the manufacturer's instructions.
X
ABCG2 p.Gln141Lys 22472121:34:7
status: NEWX
ABCG2 p.Gln141Lys 22472121:34:124
status: NEW57 Results Determination of Q141K ABCG2 trafficking Flp-In-293 cells were selected for this study, as one copy of the vector is known to insert at a unique specific site, resulting in comparable RNA levels.
X
ABCG2 p.Gln141Lys 22472121:57:25
status: NEW58 To evaluate ABCG2 WT and Q141K variant localization in cells, immunofluorescent experiments were carried out.
X
ABCG2 p.Gln141Lys 22472121:58:25
status: NEW79 We also observed that a higher proportion of Q141K variant is ubiquitinated than in the WT protein (Supplementary Fig. S2).
X
ABCG2 p.Gln141Lys 22472121:79:45
status: NEW81 To examine the processing of Q141K ABCG2, whole-cell lysates from Flp-In-293 cells were deglycosylated with PNGase F and Endo H.
X
ABCG2 p.Gln141Lys 22472121:81:29
status: NEW149 (c) 2012 American Association for Cancer Research. cancerres.aacrjournals.org Downloaded from Published OnlineFirst April 3, induced mainly Q141K ABCG2 trafficking to the membrane, accompanied by a greater increase in protein function.
X
ABCG2 p.Gln141Lys 22472121:149:141
status: NEW154 We observed that Q141K ABCG2 was retained in aggresomes.
X
ABCG2 p.Gln141Lys 22472121:154:17
status: NEW162 A, ABCG2 mRNA, total and surface protein were, respectively, quantified by qPCR, immunoblotting, and FACS analysis in Flp-In-293 WT and Q141K cells following 24-hour exposure to 46 nmol/L romidepsin (RD), 100 nmol/L panobinostat (PN), 10 mmol/L vorinostat (VR), or 1 mmol/L valproic acid (VA).
X
ABCG2 p.Gln141Lys 22472121:162:136
status: NEW164 C, ABCG2 and g-tubulin were observed in Q141K cells after 24-hour RD treatment (magnified example).
X
ABCG2 p.Gln141Lys 22472121:164:40
status: NEW167 E, cells were pretreated or not with RD dilutions for 24 hours, then treated for 24 hours with pheophorbide A (pheo A; 1 mmol/L for WT and 0.5 mmol/L for Q141K cells), and cell death was measured by flow cytometry.
X
ABCG2 p.Gln141Lys 22472121:167:154
status: NEW169 Ctl RD PN VR VA Flp-In-293 WT Flp-In-293 Q141K ABCG2/b3;-tub/nucleus in RD-treated Q141K cells % Compared with untreated cells % Compared with untreated cells Protein Surface A N A R m C B WT Q141K Ctl RD PN VR VA D ABCG2 relative efflux 0 50 100 150 200 250 300 350 400 450 500 0 50 100 150 200 250 300 350 400 450 500 0 50 100 150 200 250 300 350 400 450 500 WT Q141K WT Q141K WT Q141K E Pheo A-induced cell death % Cell death compared with pheophorbide A untreated cells * * compared with WT compared with WT compared with WT * ** * ** * ** * ** * ** * ** * ** * ** * ** * 0 100 200 300 400 500 600 700 WT Q141K Ctl RD PN VR VA not pretreat. 24-h RD pretreat.: 9 nmol/L 18 nmol/L 46 nmol/L 0 50 100 150 200 250 300 350 400 450 HDI Impact on the Expression and Trafficking of Q141K ABCG2 www.aacrjournals.org Cancer Res; 72(14) July 15, 2012 3647 We next examined the role of microtubules, known to be involved in retrograde transport, in ABCG2 localization.
X
ABCG2 p.Gln141Lys 22472121:169:41
status: NEWX
ABCG2 p.Gln141Lys 22472121:169:86
status: NEWX
ABCG2 p.Gln141Lys 22472121:169:195
status: NEWX
ABCG2 p.Gln141Lys 22472121:169:367
status: NEWX
ABCG2 p.Gln141Lys 22472121:169:376
status: NEWX
ABCG2 p.Gln141Lys 22472121:169:385
status: NEWX
ABCG2 p.Gln141Lys 22472121:169:612
status: NEWX
ABCG2 p.Gln141Lys 22472121:169:781
status: NEW176 To evaluate HDAC6 involvement in Q141K ABCG2 rescue, we treated Flp-In-293 Q141K cells with the HDAC6 inhibitor tubastatin (28).
X
ABCG2 p.Gln141Lys 22472121:176:33
status: NEWX
ABCG2 p.Gln141Lys 22472121:176:75
status: NEW187 Discussion We saw that the Q141K variant was retained in aggresomes and then degraded by the autophagic pathway.
X
ABCG2 p.Gln141Lys 22472121:187:27
status: NEW191 A previous study had shown in the same Flp-In-293 cell model that Q141K ABCG2 was subjected to ubiquitin-mediated proteasomal and lysosomal degradation, with a 2-fold increase in expression after treatment with both inhibitors (17).
X
ABCG2 p.Gln141Lys 22472121:191:66
status: NEW194 It is interesting to note that the expressed WT and Q141K ABCG2 variants are found in a fully mature form, contrary to what has been observed with other ABC transporters.
X
ABCG2 p.Gln141Lys 22472121:194:52
status: NEW197 We sought to rescue Q141K ABCG2 trafficking using HDIs.
X
ABCG2 p.Gln141Lys 22472121:197:20
status: NEW200 A, quantification of ABCG2 surface expression by FACS in Flp-In-293 WT and Q141K cells after 24-hour exposure to mitoxantrone (MX) and HDIs in presence or absence of cycloheximide (CHX).
X
ABCG2 p.Gln141Lys 22472121:200:75
status: NEW205 More importantly, HDIs caused a strong relocalization of the Q141K variant from aggresome to cell surface and increased Q141K-mediated efflux.
X
ABCG2 p.Gln141Lys 22472121:205:61
status: NEWX
ABCG2 p.Gln141Lys 22472121:205:120
status: NEW206 We sought to understand why these HDI-induced Q141K proteins, instead of accumulating in the aggresomes, were able to traffic to the cell surface.
X
ABCG2 p.Gln141Lys 22472121:206:46
status: NEW219 We deduced that HDIs similarly inhibit Q141K retrograde transport toward the aggresome, likely via dynamitin overexpression.
X
ABCG2 p.Gln141Lys 22472121:219:39
status: NEW225 C, ABCG2 total expression was quantified by immunoblot in Flp-In-293 WT and Q141K cells after 24-hour exposure to 1 mmol/L colchicine.
X
ABCG2 p.Gln141Lys 22472121:225:76
status: NEW228 F, the knockdown of dynamitin was observed after 48-hour transfection in Q141K cells by immunoblotting (left).
X
ABCG2 p.Gln141Lys 22472121:228:73
status: NEW234 On the basis of our results, we propose a multipathway mechanism for HDI-induced Q141K ABCG2 rescue to surface (Fig. 6).
X
ABCG2 p.Gln141Lys 22472121:234:81
status: NEW235 HDIs induced Q141K ABCG2 surface localization by an increase in ABCG2 transcription coupled to dynamitin overexpression, which reduced aggresome targeting by inhibition of dynein/microtubule retrograde transport.
X
ABCG2 p.Gln141Lys 22472121:235:13
status: NEW307 Furukawa T, Wakabayashi K, Tamura A, Nakagawa H, Morishima Y, Osawa Y, et al. Major SNP (Q141K) variant of human ABC transporter ABCG2 undergoes lysosomal and proteasomal degradations.
X
ABCG2 p.Gln141Lys 22472121:307:89
status: NEW384 HDI Impact on the Expression and Trafficking of Q141K ABCG2 www.aacrjournals.org Cancer Res; 72(14) July 15, 2012 3651 2012;72:3642-3651.
X
ABCG2 p.Gln141Lys 22472121:384:48
status: NEW
PMID: 22565184
[PubMed]
Hamajima N et al: "Significant interaction between LRP2 rs2544390 in intron 1 and alcohol drinking for serum uric acid levels among a Japanese population."
No.
Sentence
Comment
31
This study aimed to confirm the association of SUA with LRP2 rs2544390 at intron 1 and rs3755166 at the promoter region in a Japanese population, after eliminating the effects of SLC22A12 W258X SLC2A9 rs11722228 at intron 8, ABCG2 Q126X, and ABCG2 Q141K on SUA (Hamajima et al., 2011a, 2011b; Matsuo et al., 2009; Tabara et al., 2010).
X
ABCG2 p.Gln141Lys 22565184:31:248
status: NEW110 The difference in the mean SUA between CC and TT was 0.08 mg/dL among males with creatinineb2 mg/dL (G1 in Table 3), which was smaller than those among SLC22A12 W258X, SLC2A9 rs11722228, ABCG2 Q126X, and Q141K.
X
ABCG2 p.Gln141Lys 22565184:110:204
status: NEW
PMID: 22300367
[PubMed]
Kusuhara H et al: "Pharmacokinetic interaction study of sulphasalazine in healthy subjects and the impact of curcumin as an in vivo inhibitor of BCRP."
No.
Sentence
Comment
20
Pharmacogenetic studies, which focused on the non-synonymous single nucleotide polymorphism (SNP) of BCRP (421C>A, Q141K) associated with lower protein expression of BCRP (Kondo et al., 2004; Kobayashi et al., 2005), have disclosed the importance of BCRP in limiting oral bioavailability of drugs in human small intestine.
X
ABCG2 p.Gln141Lys 22300367:20:115
status: NEW
PMID: 22248732
[PubMed]
Natarajan K et al: "Role of breast cancer resistance protein (BCRP/ABCG2) in cancer drug resistance."
No.
Sentence
Comment
3424
Notably, in genome-wide screening of genetic determinants of gout, the Q141K BCRP single nucleotide polymorphism (SNP) was found to be associated with high uric acid levels, suggesting that uric acid is a substrate of BCRP [57,58].
X
ABCG2 p.Gln141Lys 22248732:3424:71
status: NEW3476 The most frequently observed non-synonymous SNPs in the BCRP coding region occur in exon 2 (G34A, resulting in a V to M mutation in amino acid 12), and in exon 5 (C421A, resulting in a Q141K mutation).
X
ABCG2 p.Gln141Lys 22248732:3476:185
status: NEW3640 With regard to BCRP SNPs, among 145 Korean patients with DLBCL treated with the R-CHOP regimen, there was no influence of BCRP SNPs on clinical characteristics or treatment outcomes, but patients with the Q141K polymorphism (QK or KK), but not the V12M polymorphism discussed above for AML and CML, had more chemotherapy-related diarrhea [201].
X
ABCG2 p.Gln141Lys 22248732:3640:205
status: NEW3748 The study included SNPs of 7 ABC transporters: MDR1/ABCB1, MRP1-5, and the BCRP exon 5 (C421A/Q141K) SNP.
X
ABCG2 p.Gln141Lys 22248732:3748:94
status: NEW
PMID: 22473008
[PubMed]
Ichida K et al: "Decreased extra-renal urate excretion is a common cause of hyperuricemia."
No.
Sentence
Comment
19
Woodward et al. and our group independently found that ABCG2 transports urate and shows the reduced urate transport by a half-functional variant, Q141K (rs2231142)20,21.
X
ABCG2 p.Gln141Lys 22473008:19:146
status: NEW21 We also showed that common dysfunctional genotype combinations of ABCG2 gene (Q126X (rs72552713) and Q141K) are a major cause of gout21.
X
ABCG2 p.Gln141Lys 22473008:21:101
status: NEW28 The risk allele frequency of Q126X (risk allele, X) and Q141K (risk allele, K), among 644 male outpatients with hyperuricemia including 575 gout cases, was 4.1 and 45.9%, respectively.
X
ABCG2 p.Gln141Lys 22473008:28:56
status: NEW29 Those who had Q126X and Q141K variants were 8.1 and 71.9%, respectively, of all patients (Supplementary Table S2).
X
ABCG2 p.Gln141Lys 22473008:29:24
status: NEW30 Subsequent haplotype frequency analysis revealed that the minor alleles of Q126X and Q141K were in different haplotypes (Supplementary Table S3), which indicated that these variants were independent risks, as reported previously21.
X
ABCG2 p.Gln141Lys 22473008:30:85
status: NEW31 Therefore, we could estimate urate export function of ABCG2 by the combination of two common variants, non-functional Q126X and half-functional Q141K (Supplementary Fig. S1).
X
ABCG2 p.Gln141Lys 22473008:31:144
status: NEW82 Estimated transport activity Genotype N Frequency of OP hyperuricemia RR 95% CI P Adjusted RR† Adjusted 95% CI† Adjusted P† Q126X (rs72552713) Q141K (rs2231142) OP hyperuricemia* Non-OP hyperuricemia* ≤1/4 Function X/X Q/Q 26 3 0.897 2.35 1.86-2.97 3.32×10 - 7 2.30 1.31-3.90 2.65×10 - 3 Q/X Q/K 1/2 Function Q/X Q/Q 96 55 0.636 1.66 1.32-2.10 8.58×10 - 6 1.79 1.25-2.59 1.55×10 - 3 Q/Q K/K 3/4 Function Q/Q Q/K 160 147 0.521 1.36 1.09-1.71 4.55×10 - 3 1.42 1.03-2.00 0.035 Full function Q/Q Q/Q 60 97 0.382 1.00 Abbreviations: CI, confidence interval; OP, overproduction; RR, risk ratio.
X
ABCG2 p.Gln141Lys 22473008:82:161
status: NEW143 The export function of ABCG2 was then estimated from the combinations of ABCG2 variants, rs72552713 (Q126X) and rs2231142 (Q141K), and divided into four functional groups21; that is, full function, 3/4 function (mild dysfunction), 1/2 function (moderate dysfunction) and ≤1/4 function (severe dysfunction).
X
ABCG2 p.Gln141Lys 22473008:143:123
status: NEW146 The wild-type human ABCG2 cDNA (GenBank accession number NM_004827) or mutated (Q126X and Q141K) ABCG2 cDNA was inserted into the Nhe I and Apa I sites of pcDNA3.1( + ) vector plasmid, with a myc-tag sequence attached at the 5'-end21.
X
ABCG2 p.Gln141Lys 22473008:146:90
status: NEW
PMID: 21645015
[PubMed]
Mealey KL et al: "ABCG2 transporter: therapeutic and physiologic implications in veterinary species."
No.
Sentence
Comment
134
c.421 C>A results in an amino acid change (Q141K) that substantially decreases transport efficacy of human ABCG2 (Morisaki et al., 2005).
X
ABCG2 p.Gln141Lys 21645015:134:43
status: NEW135 Interestingly, Q141K occurs within the ATP-binding domain as does one of the feline amino acid changes (E159M).
X
ABCG2 p.Gln141Lys 21645015:135:15
status: NEW
PMID: 22229870
[PubMed]
Karns R et al: "Genome-wide association of serum uric acid concentration: replication of sequence variants in an island population of the Adriatic coast of Croatia."
No.
Sentence
Comment
67
ABCG2 is a confirmed uric-acid-associated gene (Dehghan et al., 2008; Kolz et al., 2009; Yang et al., 2010) and the variant, showing the highest signal (P = 5.14×10-6 ) is a nonsynonymous SNP (rs2231142, NP_004818.2, Gln141Lys) and the mutant allele associated with an average increase of 27.40 μmol/L (Supplementary Fig. S3).
X
ABCG2 p.Gln141Lys 22229870:67:222
status: NEW
PMID: 22038265
[PubMed]
Anzai N et al: "Recent advances in renal urate transport: characterization of candidate transporters indicated by genome-wide association studies."
No.
Sentence
Comment
54
Moreover, ABCG2 SNPs have been indicated to be an important factor for adverse drug reactions in patients, e.g., Q141K, the most extensively studied ABCG2 Apical Basolateral MCs UA URAT1 UA GLUT9 (URATv1) MCs UA URAT1 UA A B UA UA Apical Basolateral Proximal tubular cells Proximal tubular cells GLUT9 (URATv1) Fig. 2 Novel concept for idiopathic renal hypouricemia.
X
ABCG2 p.Gln141Lys 22038265:54:113
status: NEW60 Above-mentioned hypoactive Q141K protein is associated with hyperuricemia.
X
ABCG2 p.Gln141Lys 22038265:60:27
status: NEW
PMID: 22081364
[PubMed]
Plante I et al: "Rosuvastatin blocks hERG current and prolongs cardiac repolarization."
No.
Sentence
Comment
24
Transfection Procedure In order to evaluate the effects of different transporters on the block of hERG by rosuvastatin, the hERG-stably transfected HEK 293 cells were transiently transfected with 10 :g of a recombinant pIRES2 vector expressing the green fluorescent protein (GFP) and one or the other of the following transporters: efflux transporter BCRP (strong affinity for rosuvastatin), loss of function variants of BCRP (BCRP-F208S, BCRP-S441N, and BCRP-Q141K), the influx transporters OATP2B1 (strong affinity for rosuvastatin), and multidrug resistance gene (MDR1) (an efflux transporter showing weak affinity for rosuvastatin).
X
ABCG2 p.Gln141Lys 22081364:24:460
status: NEW28 Site-Directed Mutagenesis The three loss-of-function variants of BCRP (BCRP-F208S, BCRP-S441N, and BCRP-Q141K) were Figure 1.
X
ABCG2 p.Gln141Lys 22081364:28:104
status: NEW88 Then, we performed site-directed mutagenesis on BCRP and produced three variants associated with a loss of function of the protein: C421A (Q141K), T623C (F208S), and G1322A (S441N).34-36 The coexpression of hERG with one or the other of these variants blunted the effects observed with the native efflux transporter BCRP, that is, the block was in the order of 40%.
X
ABCG2 p.Gln141Lys 22081364:88:139
status: NEW89 Indeed, inhibition of hERG was 40 ± 4 (n = 5), 41 ± 7 (n = 7), and 41 ± 4 (n = 7) for Q141K, F208S, and S441N, respectively (all not different from control, but different from HEK 293-hERG cells with functional transporters; p < 0.05).
X
ABCG2 p.Gln141Lys 22081364:89:101
status: NEW111 Inhibition of current activity was also determined in cells expressing transporters with a loss of function in BCRP activity due to mutations (BCRP-F208S, BCRP-S441N, and BCRP-Q141K).
X
ABCG2 p.Gln141Lys 22081364:111:176
status: NEW138 We also tested the effects of rosuvastatin on hERG in the presence of three loss-of-function polymorphisms of BCRP (Q141K, F208S, and S441N) and observed a block comparable to the one found in the control cells (≈42%).
X
ABCG2 p.Gln141Lys 22081364:138:116
status: NEW139 These polymorphisms are found in humans with relatively high frequencies (0.3%-25%), especially for Q141K (25% of Caucasians).47 Patients sharing a loss of function in BCRP (ABCG2 421AA; 1.2%) and OATP1B1 (SLCO1B1 521CC; 2%), the major efflux transporters involved in the disposition of rosuvastatin, or a gain of function polymorphism in OATP2B1 (SLCO2B1 935GG; 10%) should use rosuvastatin with caution due to increased plasma and cardiac levels.
X
ABCG2 p.Gln141Lys 22081364:139:100
status: NEW
PMID: 22246505
[PubMed]
Saison C et al: "Null alleles of ABCG2 encoding the breast cancer resistance protein define the new blood group system Junior."
No.
Sentence
Comment
73
To pursue this goal, we first evaluated the plasma levels of urate in Jr(a-) individuals, as genome-wide association studies (GWAS) of large cohorts have recently identified the minor allele at rs2231142 in ABCG2 (encoding the defective Q141K variant18,21) as a risk factor for hyperuricemia and gout22,23 and revealed the capacity of ABCG2 to transport urate24.
X
ABCG2 p.Gln141Lys 22246505:73:237
status: NEW174 Imai, Y. et al. C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 22246505:174:123
status: NEW
PMID: 22123129
[PubMed]
Kurose K et al: "Population differences in major functional polymorphisms of pharmacokinetics/pharmacodynamics-related genes in Eastern Asians and Europeans: implications in the clinical trials for novel drug development."
No.
Sentence
Comment
170
Frequencies of ABCG2 421ChA in different ethnic populations Country ¤Population¥ Allele frequencya Number of subjectsb Reference421ChA, Q141K Transporter activity Decreased Asia Eastern 0.301 1,602 Japan 0.313 411 0.350 10 322¥ 0.355 100 323¥ 0.266 124 324¥ 0.319 177 325¥ Korea 0.284 670 0.278 250 326¥ 0.280 275 327¥ 0.300 145 328¥ China 0.315 521 0.291 191 327¥ ¤Han¥ 0.342 95 329¥ ¤Han¥ 0.323 235 330¥ South-Eastern 0.295 237 Vietnam 0.311 140 327¥ Singapore ¤Chinese¥c 0.277 94 191¥ ¤Malay¥ 0.273 97 191¥ ¤Indian¥c 0.154 94 191¥ Europe 0.103 1,611 Northern Sweden 0.100 60 331¥ Western 0.107 1,314 Netherlandsd 0.120 100 332¥ Germany 0.100 349 333¥ 0.108 865 334¥ Southern Italy ¤Tuscany¥ 0.062 88 HapMape Eastern Hungary 0.094 149 335¥ Caucasians 0.105 479 Continued on next page: Continued: Country ¤Population¥ Allele frequencya Number of subjectsb Reference421ChA, Q141K Transporter activity Decreased European-Caucasians 0.107 84 329¥ Caucasians 0.087 150 336¥ 0.142 88 322¥ European-Americans 0.080 69 337¥ Caucasian-Americans 0.119 88 329¥ Africans 0.027 1,094 Africans ¤sub-Saharan¥ 0.009 938 329¥ African-Americans 0.053 94 329¥ 0.000 24 322¥ 0.039 38 337¥ The base A in the initiation codon ATG is denoted ¦1. a The total allele frequency in each population/region is calculated by dividing the sum of the each allele number by the total allele number in the population/region. b The subtotal number in each population/region is simply the sum of the subject numbers. c Excluded from total data in the South-Eastern Asia region. d The population included 1 African, 1 Asian and 5 mixed ethnic subjects ¤i.e., Caucasians were 93%¥.
X
ABCG2 p.Gln141Lys 22123129:170:146
status: NEWX
ABCG2 p.Gln141Lys 22123129:170:1050
status: NEW
PMID: 22123128
[PubMed]
Ieiri I et al: "Functional significance of genetic polymorphisms in P-glycoprotein (MDR1, ABCB1) and breast cancer resistance protein (BCRP, ABCG2)."
No.
Sentence
Comment
71
Impact of ABCG2 (BCRP) polymorphisms on PK/PD/disorders Gene marker ¤SNPs/haplotype¥ Functional effect of the study Drug Population Disease Ref.Pharmacokinetics Therapeutic efficacy Side effects SNPs assay Others ¤e.g., frequency and susceptibility¥ %15622CgT or ¤1143ChT, %15622ChT¥ haplotype * gefitinib patient NSCLC 68 421ChA * * A771726 HV 223 421ChA ¤141QhK, rs2231142¥ * patient gout 224 421ChA * imatinib patient CML 225 421ChA * patient uric acid 226 421ChA ¤141QhK, rs2231142¥ * patient gout 227 421ChA, 914ChA * methotrexate patient RA 228 421ChA * * sunitinib patient RCC 70 421ChA * rosuvastatin patient myocardial infarction 229 346GhA, 421ChA, 1143ChT, 15994GhA * danusertib patient 230 421ChA * rosuvastatin patient hypercholesterolemia 231 421ChA * patient gout 232 376ChT, 421ChA * gefitinib patient NSCLC 67 421ChA * telatinib patient 233 421ChA * 3 statines HV 234 rs2622604 * irinitecan patient myelosuppression 235 ¤%15622C/T, 1143C/T¥ haplotype * sunitinib patient 127 12VhM, 141QhK * mitoxantrone patient multiple sclerosis 236 421ChA * imatinib patient CML 237 421ChA * sulfasalazine HV 238 421ChA * erlotinib patient SCC 69 421ChA * patient gout 239 421ChA * atorvastatin, rosuvastatin HV 240 12VhM, 141QhK * R-CHOP patient DLBCL 241 12VhM * patient ischemic stroke 242 421ChA * imatinib patient solid malignancies 243 421ChA * patient gout 73 rs2622621, rs1481012 * patient colorectal cancer 244 421ChA * nitrofurantoin HV 245 421ChA * sulfasalazine HV 246 421ChA * doxorubicin patient breast cancer 168 421ChA * sulfasalazine HV 60 Q141K, V12M, Q126X * lamivudine HV 247 34ChA, 421ChA * patient DLBCL 248 421ChA * pitavastatin HV 64 Continued on next page: 141QhK¥ which has been associated with lower BCRP protein expression.52,55¥ Recently, 421ChA was found to greatly affect the stability of BCRP in the endoplasmic reticulum, leading to increased protein degradation via ubiquitination and proteasomal proteolysis.56,57¥ Therefore, 421ChA may lead to increased bioavailability after the oral administration of substrate drugs.
X
ABCG2 p.Gln141Lys 22123128:71:1620
status: NEW
PMID: 22509477
[PubMed]
Mo W et al: "Human ABCG2: structure, function, and its role in multidrug resistance."
No.
Sentence
Comment
889
The effect of ABCG2 V12M, Q141K and Q126X, known functional variants in vitro, on the disposition of lamivudine.
X
ABCG2 p.Gln141Lys 22509477:889:26
status: NEW895 The effect of ABCG2 V12M, Q141K and Q126X, known functional variants in vitro, on the disposition of lamivudine.
X
ABCG2 p.Gln141Lys 22509477:895:26
status: NEW
PMID: 21625222
[PubMed]
Singh RR et al: "ABCG2 is a direct transcriptional target of hedgehog signaling and involved in stroma-induced drug tolerance in diffuse large B-cell lymphoma."
No.
Sentence
Comment
25
One study identified two polymorphisms in ABCG2 gene, G34A (Val12Met) and C421A (Gln141Lys), and associated these polymorphisms with increased risk and poor overall survival of DLBCL (Hu et al., 2007).
X
ABCG2 p.Gln141Lys 21625222:25:81
status: NEW
No.
Sentence
Comment
11
Two relatively frequent dysfunctional variants, Q126X and Q141K, were Received 29 May 2011; accepted 17 October 2011.
X
ABCG2 p.Gln141Lys 22132966:11:58
status: NEW18 Quantitative trait locus analysis of 739 Japanese individuals showed that Q141K increased SUA as the number of minor alleles of Q141K increased (p = 6.60 × 10-5 ).
X
ABCG2 p.Gln141Lys 22132966:18:74
status: NEWX
ABCG2 p.Gln141Lys 22132966:18:128
status: NEW19 Haplotype frequency analysis revealed that there is no simultaneous presence of Q126X and Q141K in one haplotype.
X
ABCG2 p.Gln141Lys 22132966:19:90
status: NEW20 Becuase Q126X and Q141K are assigned to nonfunctional and half-functional haplotypes, respectively, their genotype combinations are divided into four functional groups.
X
ABCG2 p.Gln141Lys 22132966:20:18
status: NEW38 1119 ABCG2 : ATP binding casse e G2 SNP : single nucleo de polymorphism QTL : quan ta ve trait locus OR : odds ra o ABCG2 as a urate secre on transporter in humans Gene c analysis Func onal analysis ABCG2 muta on analysis of 90 hyperuricemic cases (all coding regions) ABCG2 muta ons (with amino acid altera ons) 6 muta ons c d Func onal analysis of urate transport via wild type ABCG2 (vesicle studies) a Iden fica on of urate transport ac vi es via ABCG2 b Func onal analysis of urate transport via mutated ABCG2 6 mutants e No effect (V12M) g Dysfunc onal genotype combina ons of ABCG2 as major causes of gout q Dysfunc onal SNP with high frequency (>30%) (Q141K) QTL analysis in 739 Japanese individuals h i j n Gout / hyperuricemia with ABCG2 homozygous, n = 2 heterozygous, n = 24 Loss of func on (Q126X, G268R, S441N, F506Sfs) Reduced func on (~50%) (Q141K) f p Genotype combina on analysis 10.1% of gout with ≤1/4 ABCG2 func on OR = 25.8, p = 3.39×10-21 o Haplotype analysis 13.5% of gout with disease haplotype OR = 5.97, p = 4.10×10-12 Associa on analysis of hyperuricemia (Q126X) OR = 3.61, p = 2.91× 10-7 l m Associa on analysis of gout (Q126X) OR = 4.25, p =3.04 × 10-8 Genotyping of nonfunc onal SNP (Q126X) hyperuricemia, n=228 k FIGURE 1 Flowchart for molecular-function-based clinicogenetic (FBCG) analysis of gout patients with ABCG2 polymorphic variants.
X
ABCG2 p.Gln141Lys 22132966:38:662
status: NEWX
ABCG2 p.Gln141Lys 22132966:38:860
status: NEW45 Quantitative trait locus (QTL) analysis of SUA concentrations was performed with genotyping of Q141K in 739 Japanese individuals.
X
ABCG2 p.Gln141Lys 22132966:45:95
status: NEW53 Using the site-directed mutagenesis technique, we constructed ABCG2 mutants (V12M, Q126X, Q141K, G268R, S441N, and F506SfsX4), which were used for urate transport analysis, on the expression vector for ABCG2.
X
ABCG2 p.Gln141Lys 22132966:53:90
status: NEW65 The following six nonsynonymous mutations, including three SNPs, were found: V12M, Q126X, Q141K, G268R, S441N, and F506SfsX4 (Figure 2A).
X
ABCG2 p.Gln141Lys 22132966:65:90
status: NEW70 Results are expressed as means ± S.D. (C) Quantitative trait locus (QTL) analysis of ABCG2 Q141K and serum uric acid levels.
X
ABCG2 p.Gln141Lys 22132966:70:96
status: NEW71 "C/C," "C/A," and "A/A" indicate wild-type subjects, heterozygous mutation carriers, and homozygous mutation carriers of Q141K, respectively.
X
ABCG2 p.Gln141Lys 22132966:71:121
status: NEW76 Maekawa et al.[17] reported that V12M, Q126X, and Q141K are quite common in the Japanese population, and allele frequencies for these SNPs were 31.9% for Q141K, 19.2% for V12M, and 2.8% for Q126X, respectively.
X
ABCG2 p.Gln141Lys 22132966:76:50
status: NEWX
ABCG2 p.Gln141Lys 22132966:76:154
status: NEW77 Using Hardy-Weinberg equilibrium and these data on a Japanese population reported by Maekawa et al.,[17] we estimated that the frequencies of Japanese individuals with these minor alleles were 53.6% for Q141K, 34.7% for V12M, and 5.5% for Q126X.
X
ABCG2 p.Gln141Lys 22132966:77:203
status: NEW79 Among six mutants, ATP-dependent urate transport was reduced by approximately half (46.7%) in one mutant, Q141K, and was nearly eliminated in four mutants, Q126X, G268R, S441N, and F506SfsX4 (Figure 2B).
X
ABCG2 p.Gln141Lys 22132966:79:106
status: NEW81 ABCG2 Dysfunction Increases SUA In a random sample of 739 Japanese individuals, QTL analysis of SUA with the high-frequency dysfunctional variant Q141K revealed that SUA significantly increased as the number of minor alleles of Q141K increased (p = 6.60 × 10-5 ), and the corrected p value adjusted for sex is 2.02 × 10-6 (Figure 2C).
X
ABCG2 p.Gln141Lys 22132966:81:146
status: NEWX
ABCG2 p.Gln141Lys 22132966:81:228
status: NEW83 Different from SUA, Q141K had no significant association with other clinical characteristics such as age, body mass index, or sex.
X
ABCG2 p.Gln141Lys 22132966:83:20
status: NEW90 The half-functional SNP Q141K also increased gout risk (OR, 2.23; 95% CI, 1.75-2.87; p = 5.54 × 10-11 ).
X
ABCG2 p.Gln141Lys 22132966:90:24
status: NEW91 Haplotype frequency analysis revealed no simultaneous presence of the minor alleles of Q126X and Q141K in one haplotype.
X
ABCG2 p.Gln141Lys 22132966:91:97
status: NEW93 Q141K is assigned to another independent risk haplotype.
X
ABCG2 p.Gln141Lys 22132966:93:0
status: NEW98 Because Q126X and Q141K are assigned to different risk haplotypes, nonfunctional and half-functional, respectively, their genotype combinations are divided into four functional groups on the basis of the estimated ABCG2 transport functions, i.e., full function, 3/4 function, 1/2 function, and ≤1/4 function.
X
ABCG2 p.Gln141Lys 22132966:98:18
status: NEW110 Together with P-glycoprotein 21.4% 45.3% 23.3% 10.1% 50.8% 35.6% 12.7% 0.9% other gout risks gout no function Q126X T/T Q141K C/C Full function C/C C/C 3/4 function 1/2 function C/C C/C T/C A/C A/A C/C Gout patients Normal control SUA ≤ 7.0 mg/dl 1/4 function T/C A/C 25.8-fold gout risk ≥3.02-fold gout risk (n = 865) (n = 161) FIGURE 3 ABCG2 transport dysfunction as a major gout risk.
X
ABCG2 p.Gln141Lys 22132966:110:123
status: NEW111 Genotype combinations of Q126X and Q141K are divided into several groups based on estimated ABCG2 transport functions.
X
ABCG2 p.Gln141Lys 22132966:111:35
status: NEW134 They also found that Q141K was associated with self-reported gout in Caucasians (OR, 1.74; 95% CI, 1.51-1.99), which is consistent with our finding from clinically diagnosed Japanese gout patients.
X
ABCG2 p.Gln141Lys 22132966:134:21
status: NEW135 A meta-analysis of GWAS of European descent also showed that the nine loci, including GLUT9 and ABCG2, influence SUA,[11] which confirms the findings of Dehghan et al.[10] In this study, we identified several nonfunctional ABCG2 mutations, including Q126X, which shows stronger effects on gout development than Q141K did in a previous study (OR < 2.0).
X
ABCG2 p.Gln141Lys 22132966:135:311
status: NEW138 Woodward et al.[19] and we[2] independently found a urate transport ability via ABCG2 to transport urate and characterized the effects of a half-functional variant Q141K using different methods.
X
ABCG2 p.Gln141Lys 22132966:138:164
status: NEW
PMID: 22132963
[PubMed]
Matsuo H et al: "Identification of ABCG2 dysfunction as a major factor contributing to gout."
No.
Sentence
Comment
16
Among the variants, ATP-dependent urate transport was reduced or eliminated in five variants, and two out of the five variants (Q126X and Q141K) were frequently detected in patients.
X
ABCG2 p.Gln141Lys 22132963:16:138
status: NEW17 Haplotype frequency analysis revealed that there is no simultaneous presence of Q126X and Q141K in one haplotype.
X
ABCG2 p.Gln141Lys 22132963:17:90
status: NEW18 As Q126X and Q141K are a nonfunctional and half-functional haplotype, respectively, their genotype combinations are divided into four estimated functional groups.
X
ABCG2 p.Gln141Lys 22132963:18:13
status: NEW36 Using the site-directed mutagenesis technique, we constructed mutants of ABCG2 (V12M, Q126X, Q141K, G268R, S441N, and F506SfsX4), which were used for urate transport analysis, on the expression vector for ABCG2.
X
ABCG2 p.Gln141Lys 22132963:36:93
status: NEW45 The following six non-synonymous mutations, V12M, Q126X, Q141K, G268R, S441N, and F506SfsX4, were found (Figure 1A), and the first three mutations were SNPs.
X
ABCG2 p.Gln141Lys 22132963:45:57
status: NEW46 Maekawa et al.[5] reported that allele frequencies for these SNPs, which are quite common in the Japanese population, were 31.9% for Q141K, 19.2% for FIGURE 1 Non-synonymous ABCG2 mutations in hyperuricemia patients.
X
ABCG2 p.Gln141Lys 22132963:46:133
status: NEW50 With the Hardy-Weinberg equilibrium and the data reported by Maekawa et al. of the Japanese population,[5] we calculated estimates of the minor allele frequencies of Japanese individuals to be 53.6% for Q141K, 34.7% for V12M, and 5.5% for Q126X.
X
ABCG2 p.Gln141Lys 22132963:50:203
status: NEW52 The ATP-dependent transport of urate was reduced by approximately half (46.7%) in Q141K and was nearly eliminated in Q126X, G268R, S441N, and F506SfsX4 mutants (Figure 1B).
X
ABCG2 p.Gln141Lys 22132963:52:82
status: NEW56 A total of 871 TABLE 1 Association analysis of ABCG2 genotype combination in gout patients Genotype Number Estimated transport Q126X Q141K Gout Control p value OR* 95% CI* ≤1/4 function T/T C/C 16 8 3.39 × 10-21 25.8 10.3-64.6 T/C A/C - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 1/2 function T/C C/C 37 110 2.23 × 10-9 4.34 2.61-7.24 C/C A/A - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3/4 function C/C A/C 72 308 2.29 × 10-7 3.02 1.96-4.65 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Full function C/C C/C 34 439 1.00 *OR = odds ratio; 95% CI = 95% confidence interval.
X
ABCG2 p.Gln141Lys 22132963:56:135
status: NEW57 OR is obtained by comparing the non-risk genotype combination C/C (Q126X) and C/C (Q141K).
X
ABCG2 p.Gln141Lys 22132963:57:83
status: NEW58 Risk alleles for Q126X and Q141K are underlined.
X
ABCG2 p.Gln141Lys 22132963:58:27
status: NEW62 The half-functional SNP Q141K also increased gout (OR, 2.23; 95% CI, 1.75-2.87; p = 5.54 × 10-11 ).
X
ABCG2 p.Gln141Lys 22132963:62:24
status: NEW63 The haplotype frequency analysis revealed no simultaneous presence of the minor alleles of Q126X and Q141K in one haplotype.
X
ABCG2 p.Gln141Lys 22132963:63:101
status: NEW70 Because the nonfunctional variant Q126X and half-functional variant Q141K are assigned to different risk haplotypes, their genotype combinations are divided into four functional groups on the basis of the estimated ABCG2 transport functions, i.e., full function, 3/4 function, 1/2 function, and ≤1/4 function (Table 1).
X
ABCG2 p.Gln141Lys 22132963:70:68
status: NEW91 They also found that Q141K was associated with self-reported gout in Caucasians (OR, 1.74; 95% CI, 1.51-1.99), which is consistent with our findings from clinically diagnosed Japanese gout patients.
X
ABCG2 p.Gln141Lys 22132963:91:21
status: NEW92 A meta-analysis of GWAS in European descent also revealed that the nine loci, including GLUT9 and ABCG2, influence SUA, which confirms the findings of Dehghan et al.[3] The authors[6] and Woodward et al.[7] independently found a urate transport ability via ABCG2 to transport urate and characterized the effects of dysfunctional variant Q141K using different methods.
X
ABCG2 p.Gln141Lys 22132963:92:337
status: NEW93 In our study, we also identified several nonfunctional ABCG2 mutations including Q126X which shows stronger effects on gout development than Q141K did in a previous study (OR < 2.0).
X
ABCG2 p.Gln141Lys 22132963:93:141
status: NEW
PMID: 22132962
[PubMed]
Nakayama A et al: "ABCG2 is a high-capacity urate transporter and its genetic impairment increases serum uric acid levels in humans."
No.
Sentence
Comment
28
For quantitative trait locus (QTL) analysis of SUA concentrations, genotyping of Q141K in 739 Japanese individuals was performed.
X
ABCG2 p.Gln141Lys 22132962:28:81
status: NEW34 With the site-directed mutagenesis technique, we constructed mutants of ABCG2 (V12M, Q126X, and Q141K), which were used for urate transport analysis, on the expression vector for ABCG2.
X
ABCG2 p.Gln141Lys 22132962:34:96
status: NEW47 We found the following six nonsynonymous mutations: V12M, Q126X, Q141K, G268R, S441N, and F506SfsX4, and the first three mutations are SNPs.
X
ABCG2 p.Gln141Lys 22132962:47:65
status: NEW48 Maekawa et al.[7] reported that these SNPs are quite common in the Japanese population, and allele frequencies for them are 31.9% for Q141K, 19.2% for V12M, and 2.8% for Q126X, respectively.
X
ABCG2 p.Gln141Lys 22132962:48:134
status: NEW49 Using Hardy-Weinberg equilibrium and these data on a Japanese population reported by Maekawa et al.,[7] the frequencies of Japanese individuals with these minor alleles were estimated to be 53.6% for Q141K, 34.7% for V12M, and 5.5% for Q126X, respectively.
X
ABCG2 p.Gln141Lys 22132962:49:200
status: NEW50 [8] To clarify how ABCG2 SNPs affect function, the urate transport capacity of these variants was examined in comparison with that of wild-type ABCG2. ATP-dependent transport of urate was reduced by approximately half (46.7%) in Q141K and was nearly eliminated in Q126X (Figure 2A).
X
ABCG2 p.Gln141Lys 22132962:50:229
status: NEW51 Common Variant of ABCG2 Increases SUA Levels in Humans With the high-frequency dysfunctional variant Q141K, QTL analysis of SUA was performed in a random sample of 739 Japanese individuals.
X
ABCG2 p.Gln141Lys 22132962:51:101
status: NEW52 The analysis revealed a significant increase in SUA as the number of minor alleles of Q141K increased (p = 6.60 × 10-5 ), and the corrected p value is 2.02 × 10-6 when adjusted for sex (Figure 2B).
X
ABCG2 p.Gln141Lys 22132962:52:86
status: NEW54 Unlike SUA, Q141K had no significant association with other clinical characteristics such as age, body mass index, or sex.
X
ABCG2 p.Gln141Lys 22132962:54:12
status: NEW58 Results are expressed as means ± S.D. (B) QTL analysis of ABCG2 Q141K and serum uric acid levels.
X
ABCG2 p.Gln141Lys 22132962:58:69
status: NEW59 "C/C," "C/A," and "A/A" indicate wild-type subjects, heterozygous mutation carriers, and homozygous mutation carriers of Q141K, respectively.
X
ABCG2 p.Gln141Lys 22132962:59:121
status: NEW62 We also demonstrated that Q141K, a dysfunctional variant of ABCG2, significantly affects human SUA levels.
X
ABCG2 p.Gln141Lys 22132962:62:26
status: NEW
PMID: 21816982
[PubMed]
Shimizu T et al: "PDZK1 regulates breast cancer resistance protein in small intestine."
No.
Sentence
Comment
214
The genotype combination of two dysfunctional variants Q126X and Q141K results in increased serum uric acid concentration and increased risk of gout (Matsuo et al., 2009).
X
ABCG2 p.Gln141Lys 21816982:214:65
status: NEW
PMID: 21594610
[PubMed]
Kaneko H et al: "Hyperuricemia cosegregating with osteogenesis imperfecta is associated with a mutation in GPATCH8."
No.
Sentence
Comment
182
Amino acid AF dbSNP II-2 II-3 VIII-2 1 AGL 100,336,361 C [ T Syn. 0.7 rs2230306 T/T -/T -/T 4 ABCG2b 89,034,551 G [ A Syn. 0.02 rs35622453 -/- -/- -/A 89,052,323 C [ A Q141K 0.31 rs2231142 -/A A/A -/- 89,061,114 G [ A V12M 0.19 rs2231137 -/A -/- -/A 4 SLC2A9b 9,909,923 C [ T P350L 0.33 rs2280205 -/T -/T -/- 9,922,130 G [ A R294H 0.72 rs3733591 -/A -/- -/A 9,998,440 G [ A Syn. 0.54 rs10939650 -/A A/A -/A 10,022,981 G [ A G25R 0.43 rs2276961 -/A -/A -/- 10,027,542 G [ A A17T 0.06 rs6820230 -/- -/A -/A 11 SLC22A12b 64,359,286 C [ T Syn. 0.21 rs3825016 -/T T/T -/T 64,360,274 C [ T Syn. 0.81 rs11231825 -/T -/- -/T 12 PFKM n.d. 16 UMODb n.d. 17 G6PC n.d. X HPRT1a n.d. X PRPS1a n.d. X MAOA 43,591,036 G [ T Syn. 0.3 rs6323 -/- T/T T/T a The gene is associated with purine metabolism b The gene is associated with renal excretion of urate - symbol represents in the patients` genotypes mean being identical to the reference nucleotides Syn synonymous nucleotide change, AF allelic frequency of the changed nucleotide, n.d. no SNPs are detected Discussion Phenotypic variabilities of OI mutations We identified a heteroallelic c.3235G[A mutation in COL1A1 exon 45 in a Japanese family with mild OI type I.
X
ABCG2 p.Gln141Lys 21594610:182:168
status: NEW
PMID: 21531129
[PubMed]
Wang F et al: "Prognostic value of the multidrug resistance transporter ABCG2 gene polymorphisms in Chinese patients with de novo acute leukaemia."
No.
Sentence
Comment
17
In particular, two SNPs of ABCG2, G34A (V12M) in exon 2 and C421A (Q141K) in exon 5, were found to be the most prevalent in Asian population.
X
ABCG2 p.Gln141Lys 21531129:17:67
status: NEW80 Of the six polymorphisms, the allele frequencies of two published non-synonymous SNPs, G34A (Val12Met; exon 2) and C421A (Gln141Lys; exon 5), were 0.505 and 0.152 in our study.
X
ABCG2 p.Gln141Lys 21531129:80:122
status: NEW104 Position Location Change % Genotype frequency(n) Allele % Allele frequency NT-016354.18 dbSNP (NCBI) Nucleotide Amino acid Wildtype Heterozygote Homozygote 13608835 rs2231137 Exon 2 TCCCAG/ATGTCA Val12Met 35.9 (66) 27.2 (50) 36.9 (68) A 50.5 13600044 rs2231142 Exon 5 ACTTAC/AAGTTC Gln 141Lys 69.6 (128) 30.4 (56) 0 A 15.2 13561218a N.D. Exon 16 GGCATC/TGATCT Ile619Ile 98.9 (182) 1.1 (2) 0 T 0.5 13576005 rs2231149 Intron10 TCAAGC/TTTATT N/A 78.8 (145) 21.2 (39) 0 T 10.6 13564503 rs2231162 Intron13 TGACTC/TTTAGT N/A 60.3 (111) 39.7 (73) 0 T 19.8 13563578 rs2231164 Intron14 TTCTTA/GAAATT N/A 71.2 (131) 28.8 (53) 0 G 14.4 NCBI, National Cancer Center for Biotechnology Information; N.D., not determined; N/A, not applicable.
X
ABCG2 p.Gln141Lys 21531129:104:282
status: NEW256 Imai Y, Nakane M, Kage K, et al. C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 21531129:256:140
status: NEW
No.
Sentence
Comment
59
R L L A A M AT T T R V S G G G F I T Q R R V K K S G E A D RR V V K K L L G E E E I IN NN D H Q Q R V V V V V L L S G F E N M TT QD D S K R V K L L G F P C Y R K S G F P P C N N A V L L S G G G I N A D R K P P S GG G R V VK K KK L L L LL L S S S GG G PPE E IIII N NN M A A A T D D Y N E A I P E S I D L L F T LS G EI MT D I I P FC L R IH A N T T T T T G L D S S K K K L L L S G G G F F F F Q P P I M M A A A A D H G G LS S S V L L L L L R R RQ Q I I Y Y YS S HE E A T V V V V L Q I S F I I II A A L G G Y K F R S S E E I I L G Y YY Y V V K H S P C M M D R T I II L L L F F YV S S P F N T I A Q Q L L L G F Y Y H S S PR W C N M I I A A A L L G F V V K H W T L I F F C C C D D D A A A QQ Q Q Q G G G G G G G G G G FF FF F F FF Y Y Y Y Y V V V V V VVV K KKK KK K K E E E E P P P P R W W TT TT T TT T T NNNN N N N N N M MM M L L L L L L L L LL LL I I I I I I AA A A A A A S S S S S S S S SS L L L L LL L L LL V V F G GCC T Q Q Q Q Y Y Y KK K K K H H EE E E E E EEE E P P P P R R RW N N N II I I I I I I A AAA A A A S SS S S S S L L LL L L L V V V V F F F F F F F G GG G C TT T T T T K K K K KKKK N NN LL D DDD DS S 395 469 565 644 414 450 495 505 584 625 Signature Walker A WalkerBQ EP MI A V V VF FG GTN N NS S S S P F HE V FG CTT K NN LLD SS AAA I V12M N-terminus C-terminus M MM MM T A A A A L F F Y V V S S S F 524476 Y Q126X G268R S441N F506fs Q141K 44 288 PP AA DD Fig. 2.
X
ABCG2 p.Gln141Lys 21554546:59:1345
status: NEW66 We therefore investigated whether urate is a physiological substrate of ABCG2, and whether the Q141K variant, encoded by rs2231142, leads to altered urate transport and as a consequence to elevated serum urate levels and increased risk of gout.
X
ABCG2 p.Gln141Lys 21554546:66:95
status: NEW81 Q141K is a functional variant in ABCG2 Several lines of evidence in the initial genome-wide association study by Dehghan et al. [21] suggested that the rs2231142 variant may be functional.
X
ABCG2 p.Gln141Lys 21554546:81:0
status: NEW83 Effect sizes of the ABCG2 rs2231142 (Q141K) variant on risk of gout and mean urate levels in study populations of different ancestry.
X
ABCG2 p.Gln141Lys 21554546:83:37
status: NEW85 the variant is located in exon 5 of ABCG2 and leads to a glutamine-to-lysine amino acid substitution (Q141K) in ABCG2.
X
ABCG2 p.Gln141Lys 21554546:85:102
status: NEW90 To test whether the rs2231142 is such a functional variant, the transport capacity of the encoded Q141K mutation was compared with that of wild-type ABCG2.
X
ABCG2 p.Gln141Lys 21554546:90:98
status: NEW91 Oocytes expressing ABCG2 Q141K showed 54% reduced urate transport rates compared with oocytes expressing wild-type ABCG2 (Fig. 3C).
X
ABCG2 p.Gln141Lys 21554546:91:25
status: NEW92 This is consistent with previous studies showing impaired transport of chemotherapeutic agents by ABCG2 Q141K [35,36] (and reviewed in [37]).
X
ABCG2 p.Gln141Lys 21554546:92:104
status: NEW93 While it is difficult to compare the results from different transport assays and substrates, the reduction of transport of the Q141K variant compared with wild-type ABCG2 appears to be of similar magnitude.
X
ABCG2 p.Gln141Lys 21554546:93:127
status: NEW94 The Q141 residue is located in the nucleotide binding domain of ABCG2 (Fig. 2), and Q141K ABCG2 expression is significantly lower than wild-type when overexpressed in mammalian cells [35,36,38,39].
X
ABCG2 p.Gln141Lys 21554546:94:84
status: NEW96 And like the Q141K ABCG2 mutation, expression of the deleted F508 CFTR mutant is significantly lower than wild-type suggesting a common pathophysiology (Woodward, unpublished observations).
X
ABCG2 p.Gln141Lys 21554546:96:13
status: NEW97 0.0 0.5 1.0 1.5 Urateaccumulation pmolperoocyte·120min-1 Urateaccumulation pmolperoocyte·120min-1 H2O ABCG2 ** A 0 20 40 60 0.4 0.6 0.8 1.0 Relativeurateremaining Time (min) ** ** ** ** ** B Lumen Blood 0.0 0.3 0.6 0.9 WT Q141K ** C Others3 Others4 SLC2A9 URAT1 SLC2A9 Others1 Others2 UU- UU- UU-UU- UU- UU- UU- UU- U-UU- D ABCG2 Fig. 3.
X
ABCG2 p.Gln141Lys 21554546:97:232
status: NEW101 (C) Urate accumulation in oocytes expressing either the wild-type ABCG2 or the mutant Q141K ABCG2.
X
ABCG2 p.Gln141Lys 21554546:101:86
status: NEW108 In addition to Q141K, Q126X was identified as a novel loss-of-function variant.
X
ABCG2 p.Gln141Lys 21554546:108:15
status: NEW109 Q126X was assigned to a different haplotype than Q141K and shown to increase gout risk (odds ratio 5.97) to an even greater extent than the Q141K variant.
X
ABCG2 p.Gln141Lys 21554546:109:49
status: NEWX
ABCG2 p.Gln141Lys 21554546:109:140
status: NEW110 In addition, 10% of the gout patients studied had genotype combinations of the Q141K and Q126X variants that resulted in more than a 75% reduction of ABCG2 function compared with patients that were homozygous for the non-risk allele at both variants (odds ratio 25.8, 95% confidence interval 10.3-64.6).
X
ABCG2 p.Gln141Lys 21554546:110:79
status: NEW
PMID: 22000648
[PubMed]
Merriman TR et al: "Population heterogeneity in the genetic control of serum urate."
No.
Sentence
Comment
17
doi:10.1016/j.semnephrol.2011.08.005 Seminars in Nephrology, Vol 31, No 5, September 2011, pp 420-425420 Study using a SNP platform with an additional approximately 50 thousand SNPs identified association of the nonsynonymous Q141K (rs2231142) variant of the ABCG2 gene with serum urate levels in Caucasians.13 Similar to SLC2A9, ABCG2 was a previously undiscovered urate transporter.15 It is highly expressed in intestinal epithelial cells and also expressed in the apical membrane of the kidney proximal tubule.
X
ABCG2 p.Gln141Lys 22000648:17:227
status: NEW18 ABCG2 is an adenosine triphosphate-dependent uric acid secretory molecule with the risk allele (141K) encoding a molecule with approximately 50% reduced ability to transport uric acid.15-17 The intronic variants of SLC2A9 and ABCG2 Q141K also were associated with serum urate levels in African American subjects within the Atherosclerosis Risk in Communities study.13 The Dehghan et al13 study also identified a weaker association of a SNP within the SLC17A1/ NPT1 (sodium-phosphate transporter 1) locus with serum urate levels in Caucasians, but not African Americans.
X
ABCG2 p.Gln141Lys 22000648:18:232
status: NEW55 Association of Variants Controlling Serum Urate Levels in Caucasians With Gout and Other Ancestral Groups, in Samples Diagnosed Using ACR Criteria for Gout Population Prevalence of Gout, % SLC2A9 Intronic Variants SLC2A9 R263H (rs3735991) ABCG2 Q141K (rs2231142) NPT1 rs1183201 rs1165196* ReferencesOR† Frequency‡ OR Frequency OR Frequency OR Frequency Caucasians 1.4 2.1 (1.5-3.0) 0.69 1.2 (0.9-1.6) 0.81 2.2 (1.7-2.9) 0.13 1.5 (1.1-1.8) 0.54 24,32,33,39,40 Han Chinese 1.1 § Ͼ0.97 1.5 (1.0-2.2) 0.32 1.7 (1.3-2.2) 0.32 NR NR 30,34,41 Japanese 1-2 § 0.99 1.5 (1.2-2.0) 0.32 2.2 (1.8-2.9) 0.32 1.6 (1.1-2.4) 0.83 16,31,38 New Zealand Pacific Islanders¶ ʈ § 0.83 1.3 (0.9-2.0) 0.43 2.8 (1.9-4.0) 0.22 1.3 (0.9-2.0) 0.31 24,32,33,39 New Zealand Maori 6.4 5.1 (2.2-11.5) 0.70 1.0 (0.7-1.3) 0.71 1.1 (0.7-1.8) 0.10 1.7 (1.3-2.3) 0.38 24,32,33,39,42 Abbreviation: NR, not reported.
X
ABCG2 p.Gln141Lys 22000648:55:245
status: NEW63 ABCG2 With the notable exception of New Zealand Maori, there is consistent and strong association of the Q141K (rs2231142) variant of ABCG2 with gout in Caucasian, Asian, and Pacific Island people (Table 1),16,33-35 with ORs ranging from 1.7 in Han Chinese to 2.8 in Pacific Island people living in New Zealand.
X
ABCG2 p.Gln141Lys 22000648:63:113
status: NEW64 In contrast to the SLC2A9 variants discussed earlier, there is strong evidence that Q141K is the causative variant in Caucasians; rs2231142 is the most associated genetic variant in the region, and the 141K risk allele reduces the ability of ABCG2 to transport urate in the kidney and gut.15,16 In New Zealand Maori, however, despite an appreciable risk allele frequency (0.10, compared with 0.12 in Caucasian), there is no evidence for a genetic effect on the risk of gout (OR, 1.1).33 The heterogeneity between the New Zealand Maori and Pacific Island populations at ABCG2 is most notable.
X
ABCG2 p.Gln141Lys 22000648:64:84
status: NEW68 The difference between Eastern and Western Polynesia at ABCG2 is more likely to be owing to neutral processes such as migration and genetic drift than to adaptation.36 Why there is no apparent effect of ABCG2 Q141K on the risk of gout in New Zealand Maori is unclear, it is possible that ABCG2 does play a role in gout in New Zealand Maori, but other as yet unidentified variants within ABCG2 are important.
X
ABCG2 p.Gln141Lys 22000648:68:209
status: NEW69 Alternatively, expression of genetic association at Q141K may be dependent on a second risk factor (genetic or environmental) that is absent in New Zealand Maori.
X
ABCG2 p.Gln141Lys 22000648:69:52
status: NEW
No.
Sentence
Comment
122
Breast Cancer Resistance Protein BCRP (ABCG2) Breast cancer resistance protein BCRP is an adenosine triphosphate-binding cassette (ABC) transporter (ABCG2) originally isolated from doxorubicin-resistant breast cancer cells and mediates the transport of various chemicals, natural compounds, and drugs including several anticancer drugs such as methotrexate, mitoxantrone, topotecan, imatinib, and gefitinib.52,53 Although overexpression of BCRP is related to anticancer drug resistance in cancer cells, its endogenous messenger RNA expression was highest in the placenta and was high in the liver and intestine. Although the human kidney is known to express many drug efflux pumps at the apical side of proximal tubules such as P-glycoprotein/MDR1 (ABCB1), MRP2 (ABCC2), and MRP4 (ABCC4),54 evidence for BCRP expression in the kidney is somewhat confusing: according to one report, a moderate level of BCRP protein expression was detected despite no messenger RNA expression in the human kidney.52 Because BCRP also has a high affinity to porphyrins, it is responsible for cellular homeostasis of porphyrins, photosensitivity, and photodynamic therapy.53 Moreover, ABCG2 SNPs have been indicated to be an important factor for patients` adverse drug responses: for example, the most extensively studied ABCG2 SNP Q141K, associated with lower protein expression level and impaired transport activity in vitro, is related to increased plasma levels of gefitinib, increased bioavailability of oral topotecan, and Figure 2.
X
ABCG2 p.Gln141Lys 22000646:122:1312
status: NEW130 The earlier- mentioned hypoactive Q141K protein is associated with hyperuricemia.
X
ABCG2 p.Gln141Lys 22000646:130:34
status: NEW131 BCRP recently was reported by Woodward et al18 to transport urate and they suggested that BCRP (ABCG2) is involved in urate excretion in the luminal membrane of renal proximal tubules. However, given its expression pattern (ie, high in the liver and intestine) and pathophysiological role of Q141K polymorphism in pharmacokinetics, it is likely that the hypoactive variant of ABCG2 leads to decreased urate excretion into the intestine rather than decreased urate excretion from the kidney.
X
ABCG2 p.Gln141Lys 22000646:131:292
status: NEW
PMID: 21632461
[PubMed]
Deenen MJ et al: "Part 2: pharmacogenetic variability in drug transport and phase I anticancer drug metabolism."
No.
Sentence
Comment
56
Particularly relevant SNPs in ABCG2 appear to be 421CϾA (Gln141Lys) and the nonsense SNP 376CϾT (Gln126stop).
X
ABCG2 p.Gln141Lys 21632461:56:63
status: NEW57 Particularly relevant SNPs in ABCG2 appear to be 421Cb0e;A (Gln141Lys) and the nonsense SNP 376Cb0e;T (Gln126stop).
X
ABCG2 p.Gln141Lys 21632461:57:63
status: NEW
No.
Sentence
Comment
34
For example, the common ABCG2 421C>A (p.Gln141Lys; rs2231142) SNP causes reduced ABCG2 expression levels and altered substrate specificity, and has been associated with greater serum accumulation of orally administered ABCG2 substrates such as topotecan, diflomotecan and gefitinib [16-19].
X
ABCG2 p.Gln141Lys 20873966:34:40
status: NEW75 SulfasalazineTheABCG2c.421C>ASNPisassociatedwithincreased AUC(C/C,C/Avs.A/A:3.5-fold)andCmaxofa2000mg singledosesulfasalazine Pharmacogeneticassociationstudy:37healthyvolunteers[72] Rituximabplushyper-CVAD regimen(cyclophosphamide, vincristine,adriamycin, dexamethasone) ExpressionofABCG2inbonemarrowsamplesappeared associatedwithaworsePFSandlevelsofthisgene paralleledthestatusofminimalresidualdisease 20patientswithMCLenrolled intoaPhaseIIstudy [12] GefitinibTumorexpressionofABCG2wasassociatedwithacquired resistancetogefitinib,independentofEGFRmutations Casereport:1patientwithadvancedlungcancerand acquiredresistancetogefitinib [11] Gefitinib7(44%)of16patientsheterozygousforABCG2 c.421C>A(Q141K)developeddiarrheavsonly13(12%) of108patientshomozygousforthewild-typesequence (p=0.0046) Pharmacogeneticassociationstudy:129caucasianpatients withNSCLC [84] TopotecanElacridar (interaction) Completeapparentoralbioavailabilityoftopotecanwas observedwithco-administrationofelacridarbeforeor simultaneouslywith2mgoraltopotecan PhaseI,randomized,open-label,parallel-cohort, dose-findingstudyofelacridarandoral topotecan:20cancerpatients [15] RosuvastatinTheABCG2c.421C>Apolymorphismmayplayan importantroleinthepharmacokineticsofrosuvastatin (CCvsCA/AAgenotype:increasedAUCandCmax) Pharmacogeneticassociationstudy:14healthyChinese malevolunteerswhoareSLCO1B1521TTand CYP2C9*1/*1wild-typehomozygotes [85] FluvastatinSimvastatinAUC0--¥offluvastatinwas97or72%largerin participantswiththeABCG2c.421AAgenotypethanin thosewiththeCAorCCgenotype.TheAUC0--¥of simvastatinlactonewas111%largerinparticipantswith theAAgenotypethaninparticipantswiththeCC genotype.TheABCG2genotypehadnosignificanteffect onsimvastatinacidpharmacokinetics Pharmacogeneticassociationstudy:Inacrossoverdesign, 5healthyvolunteerswiththeABCG2c.421AAgenotype, 4withthe421CAgenotypeand23withthec.421CC genotypeingestedasingle40mgdoseoffluvastatin, pravastatinandsimvastatin,withawashoutperiodof 1week [67] TopotecanHeterozygousABCG2c.421CAalleleobservedin 2patientswasassociatedwitha1.34-foldincreasedoral bioavailabilityoftopotecancomparedtothebioavailability in10patientswiththewild-typeallele Pharmacogeneticassociationstudy:12patientswith ovarianorsmall-celllungcancer [16] ALL:Acutelymphoblasticleukemia;AML:Acutemyelogenousleukemia;MCL:Mantlecelllymphoma;NSCLC:Nonsmallcelllungcancer;PFS:Progression-freesurvival;P-gp:P-glycoprotein;SNP:Singlenucleotide polymorphism. Poguntke, Hazai, Fromm & Zolk Expert Opin. Drug Metab. Toxicol.
X
ABCG2 p.Gln141Lys 20873966:75:695
status: NEW78 AMLinductionanthracycline ormitoxantroneincombination withcytarabine(insomecases additionalcytostaticdrugs) NodifferenceinABCG2mRNAexpressionbetween patientsrespondingtoinductiontreatmentand non-responders.Inthegroupofresponders,the 14patientswiththehighestexpressionhadsignificantly shorteroverallsurvival(mean38months)thanthe 14patientswiththelowestexpression Pharmacogeneticassociationstudy:40patientswithnewly diagnosedAML [86] TopotecanElacridar (interaction) Co-administrationoftheABCG2andP-gpinhibitor elacridarresultsinasignificantincreaseofthesystemic exposureoforaltopotecan:theapparentoral bioavailabilityincreasesfrom40to97.1%withoutand withelacridar,respectively Randomizedcontrolledtrial:CohortA:8patients randomizedtoreceiveoraltopotecanwithorwithout co-administrationofonesingleoraldoseof1000mg elacridar.CohortB:8otherpatientsrandomizedto receiveintravenoustopotecanwithorwithout1000mg oralelacridar [26] ClinicalevidenceagainstsignificantimpactofABCG2ondrugdispositionandeffect IrinotecanNosignificantchangesinirinotecanpharmacokinetics wereobservedinrelationtotheABCG2c.421C>A genotype Pharmacogeneticassociationstudy:88American Caucasians,94AfricanAmericans,938Africans,95Han Chinese,84Europeancaucasianpatientstreatedwith irinotecan [87] SulfasalazineNosignificantchangesinsulfasalazinepharmacokinetics wereobservedinrelationtotheABCG2c.421C>A genotype;pantoprazoleandfamotidinedidnotaffect sulfasalazinepharmacokineticsinanygenotypiccohort Pharmacogeneticassociationstudy,drug--druginteraction study:36malehealthyChinesesubjects [73] Taxaneandplatinum anticancerdrugs NoreproduciblesignificantassociationsbetweenABCG2 Q141Kgenotypeandoutcomeortoxicity Retrospectivepharmacogeneticanalysis:914ovarian cancerpatientsfromtheScottishRandomisedTrialin OvarianCancerPhaseIIItrial [88] PravastatinABCG2genotypeswerenotassociatedwithdifferencesin pravastatinpharmacokinetics Pharmacogeneticassociationstudy:107participants (69EuropeanAmericansand38AfricanAmericans) [63] IrinotecanCisplatinABCG2(c.34G>A,c.421C>A)SNPsdidnotcorrelate withirinotecan-PK,toxicity,tumorresponseandsurvival Pharmacogeneticassociationstudy:107patientswith advancedNSCLCtreatedwithirinotecanandcisplatin chemotherapies [89] LamivudineDispositionoflamivudinewasnotsignificantlyinfluenced byknowninvitrofunctionalvariantsofABCG2,Q141K, V12MandQ126X Pharmacogeneticassociationstudy:22healthymale Koreansubjects [90] ALL:Acutelymphoblasticleukemia;AML:Acutemyelogenousleukemia;MCL:Mantlecelllymphoma;NSCLC:Nonsmallcelllungcancer;PFS:Progression-freesurvival;P-gp:P-glycoprotein;SNP:Singlenucleotide polymorphism. Drug transport by breast cancer resistance protein 1368 Expert Opin. Drug Metab. Toxicol.
X
ABCG2 p.Gln141Lys 20873966:78:2317
status: NEW529 The effect of ABCG2 V12M, Q141K and Poguntke, Hazai, Fromm & Zolk Expert Opin. Drug Metab. Toxicol.
X
ABCG2 p.Gln141Lys 20873966:529:26
status: NEW
PMID: 20368174
[PubMed]
Matsuo H et al: "Common defects of ABCG2, a high-capacity urate exporter, cause gout: a function-based genetic analysis in a Japanese population."
No.
Sentence
Comment
3
This study identified Q141K as aABCG2gout in individuals carrying variants in a multifunctional transporter gene, based study supported an association between urate levels and-remained largely unclear.
X
ABCG2 p.Gln141Lys 20368174:3:22
status: NEW13 Quantitative trait locus analysis of 739 individuals showed that a common dysfunctional variant of ABCG2, Q141K, increases serum uric acid.
X
ABCG2 p.Gln141Lys 20368174:13:106
status: NEW14 Q126X is assigned to the different disease haplotype from Q141K and increases gout risk, conferring an odds ratio of 5.97.
X
ABCG2 p.Gln141Lys 20368174:14:58
status: NEW46 The following six nonsynonymous mutations were found: V12M, Q126X, Q141K, G268R, S441N, and F506SfsX4 (Table 1).
X
ABCG2 p.Gln141Lys 20368174:46:67
status: NEW48 Maekawa et al. reported that allele frequencies for these SNPs, which are quite common in the Japanese population, were 31.9% for Q141K, 19.2% for V12M, and 2.8% for Q126X, respectively (Table 1) (34).
X
ABCG2 p.Gln141Lys 20368174:48:130
status: NEW49 Using Hardy-Weinberg equilibrium and these data of a Japanese population reported by Maekawa et al. (34), we calculated estimates of the frequencies of Japanese individuals with these minor alleles to be 53.6% for Q141K, 34.7% for V12M, and 5.5% for Q126X.
X
ABCG2 p.Gln141Lys 20368174:49:214
status: NEW52 ATP-dependent transport of urate was reduced by approximately half (46.7%) in Q141K and was nearly eliminated in Q126X, G268R, S441N, and F506SfsX4 mutants (Fig. 2B).
X
ABCG2 p.Gln141Lys 20368174:52:78
status: NEW53 Western blot analysis showed that ABCG2 protein expression levels in the Q141K variant decreased by half (47.2%), whereas Q126X resulted in no protein on membrane vesicles (fig. S4).
X
ABCG2 p.Gln141Lys 20368174:53:73
status: NEW54 The decreased activity of Q141K is probably a result of decreased amounts of ABCG2 protein, consistent with our previous study on ES transport (29).
X
ABCG2 p.Gln141Lys 20368174:54:26
status: NEW57 Common variant of ABCG2 increases SUA concentrations Quantitative trait locus (QTL) analysis of SUA was performed with the high-frequency dysfunctional variant Q141K in ABCG2 in a random sample of 739 Japanese individuals.
X
ABCG2 p.Gln141Lys 20368174:57:160
status: NEW67 All results are expressed as means ± SD. SUA significantly increased as the number of minor alleles of Q141K increased (P = 6.60 × 10-5 ), and when adjusted for sex, the corrected P value is 2.02 × 10-6 (Fig. 2C).
X
ABCG2 p.Gln141Lys 20368174:67:109
status: NEW69 Different from SUA, Q141K had no significant association with other clinical parameters such as age, body mass index, or sex (table S2).
X
ABCG2 p.Gln141Lys 20368174:69:20
status: NEW76 The partially functional SNP Q141K also increased gout risk (OR, 2.23; 95% CI, 1.75-2.87; P = 5.54 × 10-11 ).
X
ABCG2 p.Gln141Lys 20368174:76:29
status: NEW77 The call rate, or the ability of the SNP to be reliably decoded, for V12M, Q126X, and LS N N SV FLC S P T AN FK G LM ETS S E V F I P Q G N T N G FV P A A AS LD V S N I C Y R V K K RKPVEKEILSNINGIKPGLNAILGPG GGKSSL LDVLA ARKDP S G T L S G D V L I G A P PR A N F K N S G Y Q D D V V M G T L T V R NE LV VC H Q F S A A A RL L T T TNEKNER HINRVIQELGLDKVADSKVGTQFIRGVG GERR KTSIGME L I T D P S I L F L D E P T T G L D S S T A N A V LL L L K R M S K Q G R I I F S T S I H Q P R Y M S I F K LFDSLTLLASGRLMFHGPAQEALGYFESAGYHCEAN YN T V A L N R E E D F K A T E II E P S K Q D K L I E L A EK I Y V N S S F Y K ETKAELHQLSGGEKKKKITVFKEISYTTSFCHQRWVK SRS AFFLDII N G D S A PD P L F K N LL G N P Q A S A I V G I I T L V A FI I Q V V L G Y AVEFLKNDST G I Q N R A G V L F F L T T Q C F S L V S S N G L S L M L I T P M S F I FV D L R P I C Y W L W Y I Y T Q S R F L NQ S L F P G A H E F Y S Y S E F R G Y I K V K S V Y I H L E V A S S V L M A A M F V A F M S Y M T M F K A T I M L H F I A V K G W I L V C A N L W V A T L M T C F VI F M M I F S G L L VNLTTIASAIAAGQS L S V V LKGL L F N Q L F P S L D Y G Q K V L C Y EEGTCTAYNCPNNGTAN G P G L K L L L K K SYF L Y D L G L M A P K Extracellular Intracellular 50 150 200 300 100 350 395 415 469 450 470 500 525 550 565 585 600 625 608 650 250 655 603 475 644 F506SfsX4 (F506fs) V12M Q126X Q141K S441N G268R V Q F S G Q # C signature Walker B motif Walker A motif C D E 4.0 4.5 5.0 5.5 6.0 C/C C/A A/A Male + female P= 2.02 x 10 -6 5.0 5.5 6.0 6.5 7.0 C/C C/A A/A Male P= 0.0144 Serumuric acid(mg/dl) 4.0 4.5 5.0 5.5 6.0 C/C C/A A/A Female P= 0.0137 (pmol/mgprotein) 0 20 40 60 80 100 120 140 160 180 200 + AMP + ATP B Serumuric acid(mg/dl) Serumuric acid(mg/dl) A [C]Uratetransport 14 G F M C-terminal N-terminal Fig. 2.
X
ABCG2 p.Gln141Lys 20368174:77:1317
status: NEW84 Results are expressed as means ± SD. (C to E) QTL analysis of Q141K and SUA concentrations was performed in 739 Japanese individuals (C), including 245 male subjects (D) and 494 female subjects (E).
X
ABCG2 p.Gln141Lys 20368174:84:67
status: NEW85 "C/C," "C/A," and "A/A" indicate wild-type subjects, heterozygous mutation carriers, and homozygous mutation carriers of Q141K, respectively.
X
ABCG2 p.Gln141Lys 20368174:85:121
status: NEW89 Amino acid change SNP ID dbSNP (NCBI) Exon Type of mutation Number of hyperuricemia patients Allele frequency (%) (in hyperuricemia) Allele frequency* (%) (in Japanese population) Wild-type Heterozygote Homozygote Q141K rs2231142 5 Missense 29 47 14 41.67 31.9 V12M rs2231137 2 Missense 64 23 3 16.11 19.2 Q126X 4 Nonsense 80 10 0 5.56 2.8 G268R 7 Missense 89 1 0 0.56 N.D. S441N 11 Missense 89 1 0 0.56 0.3 F506SfsX4 13 Frameshift 89 1 0 0.56 0.3 * Data from Maekawa et al. (34).
X
ABCG2 p.Gln141Lys 20368174:89:214
status: NEW90 Q141K was 98.8%, 100%, and 99.2%, respectively. P values for Hardy-Weinberg equilibrium of V12M, Q126X, and Q141K were 0.08, 0.72, and 0.01, respectively. P values that suggested mistyping were not obtained.
X
ABCG2 p.Gln141Lys 20368174:90:0
status: NEWX
ABCG2 p.Gln141Lys 20368174:90:108
status: NEW91 Haplotype frequency analysis revealed that there is no simultaneous presence of the minor alleles of Q126X and Q141K in one haplotype (Table 3).
X
ABCG2 p.Gln141Lys 20368174:91:111
status: NEW93 Q141K is assigned to another independent risk haplotype.
X
ABCG2 p.Gln141Lys 20368174:93:0
status: NEW99 Because Q126X and Q141K are assigned to different risk haplotypes, nonfunctional and half-functional haplotype, respectively, their genotype combinations are divided into four groups on the basis of the estimated ABCG2 transport functions, that is, full function, ¾ function, ½ function, and ≤¼ function (Table 4).
X
ABCG2 p.Gln141Lys 20368174:99:18
status: NEW115 Phenotype SNP Genotype* Allele frequency mode Case Control P value P value OR 95% CI 1/1 1/2 2/2 MAF 1/1 1/2 2/2 MAF Q126X 1 21 139 0.071 0 31 840 0.018 1.74 × 10-7 3.04 × 10-8 4.25 2.44-7.38 Gout Q141K 31 87 41 0.469 87 316 462 0.281 5.80 × 10-10 5.54 × 10-11 2.23 1.75-2.87 V12M 3 43 112 0.155 30 306 526 0.212 0.055 0.020 0.68 0.49-0.94 Q126X 2 24 202 0.061 0 31 840 0.018 1.91 × 10-6 2.91 × 10-7 3.61 2.14-6.08 Hyperuricemia Q141K 45 113 68 0.449 87 316 462 0.281 5.32 × 10-10 1.53 × 10-11 2.06 1.67-2.55 V12M 7 55 163 0.153 30 306 526 0.212 0.006 0.005 0.67 0.51-0.89 * Minor allele was referred to as allele 1 and major allele as 2.
X
ABCG2 p.Gln141Lys 20368174:115:207
status: NEWX
ABCG2 p.Gln141Lys 20368174:115:459
status: NEW117 Allele 1 is A and allele 2 is C in Q141K.
X
ABCG2 p.Gln141Lys 20368174:117:35
status: NEW120 Haplotype frequency analysis of V12M, Q126X, and Q141K.
X
ABCG2 p.Gln141Lys 20368174:120:49
status: NEW122 Risk alleles for Q126X and Q141K are underlined.
X
ABCG2 p.Gln141Lys 20368174:122:27
status: NEW123 Allele Frequency P value OR 95% CI V12M Q126X Q141K Gout Control G C A 0.465 0.284 2.26 × 10-13 2.50 1.94-3.20 G T C 0.071 0.018 4.10 × 10-12 5.97 3.39-10.51 G C C 0.306 0.486 - - - A C C 0.155 0.212 - - - of ABCG2, such as rosuvastatin (42) and gefitinib (43), have been reported.
X
ABCG2 p.Gln141Lys 20368174:123:46
status: NEW144 OR is obtained by comparing with nonrisk genotype combination C/C(Q126X) and C/C(Q141K).
X
ABCG2 p.Gln141Lys 20368174:144:81
status: NEW145 Risk alleles for Q126X and Q141K are underlined.
X
ABCG2 p.Gln141Lys 20368174:145:27
status: NEW146 Estimated transport Genotype Number P value OR 95% CI Q126X Q141K Gout Control ≤¼ function T/T C/C 16 8 3.39 × 10-21 25.8 10.3-64.6 T/C A/C ½ function T/C C/C 37 110 2.23 × 10-9 4.34 2.61-7.24 C/C A/A ¾ function C/C A/C 72 308 2.29 × 10-7 3.02 1.96-4.65 Full function C/C C/C 34 439 Normal control UA ABCG2 transport Gout <UA 7.0 mg/dl 23.3% 10.1% 35.6% 12.7% 0.9% patients Gout no function Q126X T/T Q141K C/C 25% function 50% function =< T/C A/C 45.3% 50.8% 100% function 75% function 50% function C/C C/C T/C A/C A/A C/C 21.4%s 100% function C/C C/C Other gout risk G G G G G N G Fig. 3.
X
ABCG2 p.Gln141Lys 20368174:146:60
status: NEWX
ABCG2 p.Gln141Lys 20368174:146:438
status: NEW148 The genotype combinations of Q126X and Q141K are divided into several groups based on estimated ABCG2 transport functions.
X
ABCG2 p.Gln141Lys 20368174:148:39
status: NEW154 They also found that a missense SNP (Q141K) was associated with self-reported gout in Caucasians (OR, 1.74; 95% CI, 1.51-1.99) (22), which is consistent with our finding from clinically diagnosed gout patients from a Japanese population.
X
ABCG2 p.Gln141Lys 20368174:154:37
status: NEW156 In this study, we identified several nonfunctional ABCG2 mutations, including Q126X, in Japanese gout patients, which shows stronger effects on gout development than Q141K did in a previous study (OR < 2.0) (22).
X
ABCG2 p.Gln141Lys 20368174:156:166
status: NEW160 We and Woodward et al. (55) independently found an ability of ABCG2 to transport urate and characterized the effects of a partially functional variant Q141K using different methods.
X
ABCG2 p.Gln141Lys 20368174:160:151
status: NEW172 For QTL analysis of SUA concentrations, genotyping of Q141K in 739 Japanese individualswas performed.
X
ABCG2 p.Gln141Lys 20368174:172:54
status: NEW181 Using the site-directed mutagenesis technique, we constructed mutants of ABCG2 (V12M, Q126X, Q141K, G268R, S441N, and F506SfsX4), which were used for urate transport analysis, on the expression vector for ABCG2.
X
ABCG2 p.Gln141Lys 20368174:181:93
status: NEW201 Association of Q141K in ABCG2 with clinical parameters.
X
ABCG2 p.Gln141Lys 20368174:201:15
status: NEW
PMID: 19414346
[PubMed]
Katayama K et al: "Pharmacological interplay between breast cancer resistance protein and gefitinib in epidermal growth factor receptor signaling."
No.
Sentence
Comment
149
The expression levels of BCRP gene products harboring a C421A (Q141K) SNP are 5-fold lower than those of the wild-type gene, and the resistance of cells with a C421A BCRP SNP to SN-38 is also 5-fold lower than those with wild-type BCRP (25, 27).
X
ABCG2 p.Gln141Lys 19414346:149:63
status: NEW147 The expression levels of BCRP gene products harboring a C421A (Q141K) SNP are 5-fold lower than those of the wild-type gene, and the resistance of cells with a C421A BCRP SNP to SN-38 is also 5-fold lower than those with wild-type BCRP (25, 27).
X
ABCG2 p.Gln141Lys 19414346:147:63
status: NEW
PMID: 16815813
[PubMed]
Choudhuri S et al: "Structure, function, expression, genomic organization, and single nucleotide polymorphisms of human ABCB1 (MDR1), ABCC (MRP), and ABCG2 (BCRP) efflux transporters."
No.
Sentence
Comment
573
Recently, Kondo et al. (2004) reported the effect of single nucleotide polymorphisms (SNPs) in ABCG2 gene on its localization, expression level, and transport activity of the BCRP protein. The cellular localization was identified using the wild-type and seven different SNP variants of BCRP protein (Val12Met, Gln141Lys, Ala149Pro, Arg163Lys, Gln166Glu, Pro269Ser, and Ser441Asn), following their expression in LLC-PK1 cells.
X
ABCG2 p.Gln141Lys 16815813:573:310
status: NEW575 The authors concluded that Gln141Lys variant of the BCRP protein may be associated with a lower expression level, and Ser441Asn variant may lower both the expression level and cellular localization.
X
ABCG2 p.Gln141Lys 16815813:575:27
status: NEW577 The effect of Gln141Lys variant of the BCRP protein function was also studied by other investigators, but the results are not consistent.
X
ABCG2 p.Gln141Lys 16815813:577:14
status: NEW579 The purpose of the study was to evaluate the ethnic distribution and potential functional consequence of the C421A SNP on ABCG2 gene function (that results in the Gln141Lys amino acid change in BCRP protein).
X
ABCG2 p.Gln141Lys 16815813:579:163
status: NEW581 No significant changes in irinotecan pharmacokinetics were observed in relation to the ABCG2 C421A genotype, i.e., the Gln141Lys variant of the BCRP protein. The authors concluded that the contribution of this genetic variant may have been obscured by a functional role of other polymorphic proteins.
X
ABCG2 p.Gln141Lys 16815813:581:119
status: NEW583 SNP analyses of the ABCG2 gene by Morisaki et al. (2005) revealed three nonsynonymous SNPs that resulted in amino acid substitution of the BCRP protein; these were Val12Met, Gln141Lys, and Asp620Asn.
X
ABCG2 p.Gln141Lys 16815813:583:174
status: NEW584 When human embryonic kidney cells (HEK-293) were stably transfected with wild-type or variants of ABCG2/BCRP, it was found that cells transfected with wild-type Arg482 ABCG2 showed IC(50) values up to 1.2-fold to 5-fold higher than cells expressing comparable levels of Gln141Lys variant of ABCG2, suggesting that the Gln141Lys SNP affects drug transport, such as that of mitoxantrone, topotecan, SN-38, or diflomotecan.
X
ABCG2 p.Gln141Lys 16815813:584:270
status: NEWX
ABCG2 p.Gln141Lys 16815813:584:318
status: NEW585 This suggests that the Gln141Lys SNP affects the transport efficiency of ABCG2 that may result in altered pharmacokinetics or drug-resistance profiles in clinical oncology.
X
ABCG2 p.Gln141Lys 16815813:585:23
status: NEW586 The prevalence of C421A SNP in ABCG2 gene (resulting in Gln141Lys variant of the BCRP protein) has been recently confirmed by Kobayashi et al. (2005).
X
ABCG2 p.Gln141Lys 16815813:586:56
status: NEW
PMID: 22693078
[PubMed]
Gyimesi G et al: "ABCMdb: A database for the comparative analysis of protein mutations in ABC transporters, and a potential framework for a general application."
No.
Sentence
Comment
134
The ABCG2 p.Gln141Lys mutation is shown.
X
ABCG2 p.Gln141Lys 22693078:134:12
status: NEW
PMID: 22063461
[PubMed]
Diaz-Padilla I et al: "Genetic polymorphisms as predictive and prognostic biomarkers in gynecological cancers: a systematic review."
No.
Sentence
Comment
1009
c Other polymorphisms evaluated in Marsh et al.: ABCC1 S1334S, ABCC1 IVS19-30C>G, ABCC2 24C>T, ABCC2 IVS12+148A>G, ABCC2 V417I, ABCG2 Q141K, CYP2C8 M264I, CYP2C8 R139K, CYP2C8 K399R, CYP3A4*1B, CYP3A4*3, CYP3A5*3C, ERCC1 17677G>T, MAPT P587P, MPO-463G>A, CDKN1A 10971C>T, CYP1B1*3. d The HR is outside of the 95% CI, authors were not able to resolve these contradictory numbers.
X
ABCG2 p.Gln141Lys 22063461:1009:134
status: NEW
No.
Sentence
Comment
71
Table 2: Allele frequencies of Phase II genes in Ghanaian population Gene Allele No Variant Reference Phase II enzymes COMT 1947A 195 0.06 40 TPMT *3C *3C *8 719G 217 116 863 0.148 0.025 0.034 0.065 41 42 16 UGT1A1 -3156A 853 0.34 16 NAT2 *6 *14 850 800 0.27 0.10 16 16 GSTP1 I105V 837 0.50 16 Transporters ABCB1 3435T 3435T 3435T 3435T 194 206 172 861 0.11 0.17 0.17 0.12 36 43 44 16 ABCG2 Q141K 919 0.01 16 SDR5A2 129 0.19 38 Others TYMS 1494del 799 0.44 16 TNFα -238A 850 0.02 16 SGK1 I6C E8T 112 0.317 0.045 45 Two other phase 1 enzymes, CYP2A6 and CYP2B6, have been associated with efavirenz plasma concentration in HIV-infected patients.
X
ABCG2 p.Gln141Lys 21857725:71:391
status: NEW
PMID: 19546880
[PubMed]
Yen-Revollo JL et al: "Influence of ethnicity on pharmacogenetic variation in the Ghanaian population."
No.
Sentence
Comment
27
Many existing US studies were performed using primarily Caucasian subjects (ABCG2 Q141K, CYP3A5*3C, DPYD*2A GSTP1 I105V, NAT2*6, TPMT 719A4G, TYMS 1494del).17-20 Some studies included allele frequencies from different ethnicities such as European-Americans, African-Americans, Asian- Americans, and Hispanic-Americans (ABCB1 3435C4T, CYP2C19*2, CYP2C9*2 and *3, CYP3A4*1B, and UGT1A1 - 3156G4A).18,21 Results All of the genotypes were found to be in Hardy-Weinberg equilibrium.
X
ABCG2 p.Gln141Lys 19546880:27:82
status: NEW42 Table2GenotypesandallelefrequenciesofpharmacogeneticallyrelevantpolymorphismsobservedintheGhanaianpopulation(%inparenthesis) ABCB1 3435C4T ABCG2 Q141K CYP2C19 *2 CYP2C9 *2 CYP2C9 *3 CYP3A4 *1B CYP3A5 *3C DPYD *2A GSTP1 I105V NAT2 *14 NAT2 *6 TNFa À238G4A TPMT 719A4G TYMS 1494del UGT1A1 À3156G4A Total# genotyped 861919828845835787864893837800850850863799853 #majorallele homozygous 671(78)905(98.5)578(70)843(99.8)834(99.9)34(4)644(75)893(100)224(27)643(80)467(55)820(96.5)751(87)287(36)382(45) #heterozygous176(20)13(1.4)224(27)2(0.2)1(0.1)271(34)201(23)0(0)392(47)150(19)314(37)27(3.2)106(12)325(41)360(42) #minorallele homozygous 14(2)1(0.1)26(3)0(0)0(0)482(61)19(2)0(0)221(26)7(1)69(8)3(0.3)6(1)187(23)111(13) Majorallele frequency 0.880.990.831.001.000.220.861.000.500.900.730.980.930.560.66 Minorallele frequency 0.120.010.170.000.000.780.140.000.500.100.270.020.070.440.34 Table3ComparisonofliteraturereportedallelefrequenciesofpharmacogeneticallyrelevantpolymorphismsinAfricannationscomparedwiththeGhanaian population MinoralleleABCB1 3435C4T ABCG2 Q141K CYP2C19 *2 CYP2C9 *2 CYP2C9 *3 CYP3A4 *1B CYP3A5 *3C DPYD *2A GSTP1 I105V NAT2 *14 NAT2 *6 TNFa -238G4A TPMT 719A4G TYMS 1494del UGT1A1 -3156G4A TAATCGGAGAAAGinsTTAAAGA Ghana(total)0.120.010.170.000.000.780.140.000.500.100.270.020.070.440.34 Yoruba (HapMap)28 0.110.167000.7460.1500.3750.0920.175N/A0.05 WestAfrica Ghana0.1718 0.8118 018 Benin0.1318 0a18 BurkinaFaso0.0222 Cameroon0.4618 Gabon0.10*23 Guinea-Bissau0.8118 Nigeria0.8718 0.0618 Senegal0.7818 0.3118 0.124 0.1724 TheGambia0.21*18 0.5318 0.06*30 EastAfrica Egypt0.4*18 0.06*18 0.18*a18 018 0.27*18 0.02*18 Ethiopia0.07*18 0.06*a18 Kenya0.1718 0.1518 0.0518 Sudan0.27*18 0.03*25 0.2925 0.08*31 Tanzania0.1818 0.16*18 0.1226 0.2126 SouthAfrica Namibia0.0718 SouthAfrica0.118 0.8418 0.1918 0.14*18 0.0432 Zimbabwe0.1318 0.78*18 0.24*18 0.1426 0.2126 NorthAfrica Algeria0.84*18 Tunisia018 0.34*18 0.2927 CentralAfrica CentralAfrican Republic 0.1118 Democratic Republicof theCongo 0.0718 UnitedStates0.54*18 0.14*17 0.1318 0.2*a18 0.04*18 0.91*18 018 0.28*18 0.2719 0.06*33 0.0418 0.32*20 0.3021 a CYP2C9*2/*3combinedfrequency.
X
ABCG2 p.Gln141Lys 19546880:42:145
status: NEWX
ABCG2 p.Gln141Lys 19546880:42:1069
status: NEW53 The results from this study strongly suggest that Ghanaian, Table 4 Self-reported ethnicity of 934 Ghanaian samples Tribe N Median Age (Min-Max) Male:Female Akwapim 90 25 (16-51) 51:39 Ashanti 103 23 (17-50) 54:49 Ewe 183 24 (17-51) 97:86 Fanti 160 24 (17-58) 85:75 Ga 183 25 (17-54) 113:70 Other 215 24 (17-57) 135:80 Total 934 24 (16-58) 535:399 Table5AllelefrequenciesofpharmacogeneticallyrelevantpolymorphismsinfiveGhanaiantribes MinoralleleABCB1 3435C4T ABCG2 Q141K CYP2C19 *2 CYP2C9 *2 CYP2C9 *3 CYP3A4 *1B CYP3A5 *3C DPYD *2A GSTP1 I105V NAT2 *14 NAT2 *6 TNFa -238G4A TPMT 719A4G TYMS 1494del UGT1A1 -3156G4A TAATCGGAGAAAGinsTTAAAGA Ghana(total)0.120.010.170.000.000.780.140.000.500.100.270.020.070.440.34 Akwapim0.150.010.160.000.000.730.140.000.490.080.210.020.060.400.33 Ashanti0.090.000.150.000.000.790.110.000.490.100.280.000.070.410.30 Ewe0.130.010.180.000.000.850.130.000.530.110.250.020.070.420.35 Fanti0.130.000.140.000.000.810.120.000.490.100.280.020.080.440.34 Ga0.090.000.180.000.000.750.150.000.490.120.270.030.060.480.35 and other West African populations, may have very different responses, particularly with regard to efficacy and toxicity, to drug treatment regimens that were optimized in US cohorts.
X
ABCG2 p.Gln141Lys 19546880:53:465
status: NEW
PMID: 18243305
[PubMed]
Semsei AF et al: "Association of some rare haplotypes and genotype combinations in the MDR1 gene with childhood acute lymphoblastic leukaemia."
No.
Sentence
Comment
29
The two most frequently identified SNPs in the BCRP gene are in exon 2 (G34A, resulting in a V12M change) and exon 5 (C421A, resulting in a Q141K substitution).
X
ABCG2 p.Gln141Lys 18243305:29:140
status: NEW
PMID: 18054347
[PubMed]
Hira A et al: "Role of P-glycoprotein in accumulation and cytotoxicity of amrubicin and amrubicinol in MDR1 gene-transfected LLC-PK1 cells and human A549 lung adenocarcinoma cells."
No.
Sentence
Comment
239
[29] Imai Y, Nakane M, Kage K, Tsukahara S, Ishikawa E, Tsuruo T, et al. C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 18054347:239:180
status: NEW
PMID: 17259654
[PubMed]
Gemignani F et al: "Development of lung cancer before the age of 50: the role of xenobiotic metabolizing genes."
No.
Sentence
Comment
154
Associations between lung cancer risk and SNPs belonging to genes involved in the phase II of xenobiotic metabolism SNP name rs no. Homozygotes common allele Heterozygotes Homozygotes rarer allele Ptrend Ca Co Ca Co ORa 95% CI Ca Co ORa 95% CI ABCG2: Q141K rs2231142 225 242 44 47 0.99 (0.61-1.63) 1 1 2.77 (0.15-52.00) 0.87 ABCG2: V12M rs2231137 171 190 15 10 1.91 (0.77-4.75) 0 1 - - 0.45 ALDH2: 348T.C-MspI rs440 187 202 94 96 0.94 (0.64-1.37) 9 7 1.18 (0.41-3.42) 0.91 ALDH2: 355G.A rs886205 184 204 99 93 1.04 (0.71-1.52) 10 9 0.99 (0.37-2.68) 0.88 ALDH2: 483T.C-HaeIII rs441 187 209 89 94 0.91 (0.62-1.34) 9 7 1.20 (0.41-3.46) 0.85 ALDH2: 69G.A rs4646777 191 213 89 89 0.98 (0.67-1.44) 10 8 1.07 (0.39-2.95) 0.99 COMT: IVS2-98A.G rs6269 123 125 136 134 1.17 (0.80-1.70) 36 57 0.74 (0.43-1.25) 0.52 COMT: 186C.G-L136L rs4818 123 124 138 135 1.17 (0.80-1.70) 34 50 0.76 (0.44-1.31) 0.64 COMT: H62H rs4633 60 77 151 149 1.14 (0.73-1.77) 80 78 1.04 (0.63-1.71) 0.92 COMT: V158M-472G.A rs4680 83 81 144 146 1.07 (0.70-1.62) 59 75 0.98 (0.60-1.62) 0.97 GSTA2: S112T rs1051739 70 90 74 84 1.19 (0.74-1.92) 63 49 1.88 (1.11-3.17) 0.02 GSTA4: 668C.T rs405729 86 87 129 148 1.04 (0.69-1.57) 74 72 1.12 (0.70-1.81) 0.64 GSTA4: Q117Q rs1802061 251 227 24 40 0.56 (0.31-1.01) 5 1 3.94 (0.43-36.38) 0.36 GSTM1: A/B and null rs1065411 82 97 18 15 1.63 (0.73-3.67) 50 42 1.39 (0.80-2.42) 0.24 GSTM3: 3 bp del-Mnl I rs1799735 113 132 41 39 1.29 (0.74-2.26) 2 5 0.30 (0.04-2.13) 0.88 GSTM3: IVS8À30 rs1537234 76 83 120 112 1.19 (0.76-1.85) 48 63 0.88 (0.52-1.50) 0.74 GSTM3: V224I rs7483 149 132 120 142 0.75 (0.52-1.09) 26 40 0.57 (0.32-1.04) 0.04 GSTP1: 313A.G-I105V rs947894 127 133 118 130 0.98 (0.67-1.43) 27 22 1.29 (0.67-2.49) 0.63 GSTP1: 341C.T-A114V rs1799811 244 265 47 47 1.08 (0.67-1.76) 6 1 8.47 (0.87-82.09) 0.20 GSTT2: 153 bp 3# of STP rs2719 60 72 107 132 1.14 (0.71-1.82) 57 54 1.55 (0.89-2.68) 0.13 GSTT2: M139I rs1622002 275 296 19 16 1.05 (0.50-2.21) 0 0 - - 0.89 MDR1: 2677G.T-S892A rs2032582 97 112 134 117 1.16 (0.78-1.73) 53 67 0.97 (0.60-1.58) 0.97 MDR1: 3435T.C rs1045642 62 86 164 141 1.56 (1.02-2.40) 65 81 1.18 (0.72-1.94) 0.50 MDR1: G411G rs1128503 96 106 134 125 1.03 (0.69-1.54) 46 64 0.82 (0.49-1.35) 0.50 MnSOD2: 1183C.T-V16A rs1799725 80 84 118 117 1.15 (0.75-1.77) 57 63 1.00 (0.60-1.66) 0.94 NAT1: 1088T.A rs1057126 190 180 77 101 0.67 (0.45-0.99) 7 12 0.87 (0.31-2.45) 0.08 NAT1: 1095A.C rs15561 155 140 74 104 0.63 (0.42-0.95) 18 22 0.83 (0.40-1.70) 0.10 NAT1: À344C.T rs4986988 219 219 14 17 0.85 (0.38-1.90) 2 1 1.23 (0.09-16.00) 0.80 NAT1: À40A.T rs4986989 248 256 17 23 0.81 (0.40-1.65) 2 1 1.64 (0.13-21.32) 0.75 NAT1: 445G.A-V149I rs4987076 243 259 18 26 0.75 (0.37-1.49) 3 1 1.85 (0.16-22.03) 0.64 NAT1: 459G.A-T153T rs4986990 245 264 17 25 0.78 (0.39-1.56) 2 1 1.62 (0.12-21.42) 0.65 NAT1: 559C.T-R187Stop rs5030839 227 238 1 2 0.90 (0.08-10.51) 0 0 - - 0.93 NAT1: 560G.A-R187Q rs4986782 270 300 5 3 2.17 (0.46-10.26) 0 0 - - 0.33 NAT2: 282C.T-Y94 rs1041983 135 144 114 120 1.13 (0.77-1.65) 34 33 1.28 (0.72-2.26) 0.36 NAT2: 341T.C-I114T rs1801280 69 73 101 96 1.16 (0.72-1.86) 51 47 1.02 (0.58-1.81) 0.86 NAT2: 481C.T-L161L rs1799929 113 105 127 161 0.73 (0.49-1.06) 43 36 1.07 (0.61-1.89) 0.65 NAT2: 590G.A-R197Q rs1799930 141 156 106 106 1.30 (0.88-1.91) 18 24 0.91 (0.46-1.83) 0.56 NAT2: 803A.G-L268R rs1208 96 88 117 139 0.73 (0.48-1.11) 52 64 0.69 (0.42-1.16) 0.13 NAT2: 857G.A-G286E rs1799931 244 258 15 12 1.34 (0.58-3.13) 0 0 - - 0.49 NQO1-DIA4: P187S rs1800566 202 207 75 97 0.74 (0.50-1.10) 17 11 1.89 (0.81-4.38) 0.96 NQO1-DIA4: R139W rs4986998 274 295 23 21 1.16 (0.59-2.27) 0 0 - - 0.67 SULT1A1: M223V rs1801030 282 302 0 1 - - 0 0 - - - SULT1A1: R213H-HaeII rs4149396 91 95 100 96 0.95 (0.61-1.47) 2 11 0.23 (0.05-1.18) 0.30 SULT1A2: 357 bp 3# of STP C.T rs11401 210 212 64 67 1.11 (0.72-1.71) 11 12 1.20 (0.48-2.98) 0.56 UGT1A7: N129K-R131K N/A 113 117 125 139 0.97 (0.65-1.43) 38 42 1.05 (0.61-1.81) 0.94 UGT1A7: W208R rs1126802 118 111 130 143 0.77 (0.52-1.12) 45 59 0.66 (0.39-1.10) 0.08 Ca, cases; Co, controls. ORa odd-ratio adjusted for age, sex, country and tobacco smoking. In bold, statistically significant results (P , 0.05).
X
ABCG2 p.Gln141Lys 17259654:154:251
status: NEW
PMID: 15324696
[PubMed]
Szakacs G et al: "Predicting drug sensitivity and resistance: profiling ABC transporter genes in cancer cells."
No.
Sentence
Comment
233
C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K Received: March 12, 2004 protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 15324696:233:107
status: NEW
PMID: 20038957
[PubMed]
Deeken JF et al: "A pharmacogenetic study of docetaxel and thalidomide in patients with castration-resistant prostate cancer using the DMET genotyping platform."
No.
Sentence
Comment
125
Human microsome studies did not find a significant role for CYP2D6 and other CYP enzymes in thalidomide metabolism.54 It is also possible that certain CYP2D6 alleles may confer a multiple-chemical sensitivity phenotype that increases the likelihood of development of toxicities after drug treatment in general.55 Table 5 Concordance between DMET and direct sequencing genotyping Gene SNP Concordance CYP17 A1A1 100 CYP2C19 *2 97 CYP2C19 *3 100 CYP1B1 *3 96 CYP3A5 *3C 100 ABCB1 2677G4T 96 ABCG2 Q141K 100 PPAR-d Rs2076167 100 Abbreviations: DMET, drug-metabolizing enzymes and transporters; SNP, single-nucleotide polymorphism.
X
ABCG2 p.Gln141Lys 20038957:125:495
status: NEW
PMID: 20367109
[PubMed]
Giraud C et al: "ABC transporters in human lymphocytes: expression, activity and role, modulating factors and consequences for antiretroviral therapies."
No.
Sentence
Comment
204
Two common non-synonymous substitutions have been particularly investigated in various tissues, the 34 G > A (V12 M, 4% of Caucasians) and 421C > A (Q141K, 11% of Caucasians) polymorphisms.
X
ABCG2 p.Gln141Lys 20367109:204:149
status: NEW578 Imai Y, Nakane M, Kage K, et al. C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 20367109:578:140
status: NEW
PMID: 16509759
[PubMed]
Bosch TM et al: "Genetic polymorphisms of drug-metabolising enzymes and drug transporters in the chemotherapeutic treatment of cancer."
No.
Sentence
Comment
2327
Characteristics of drug transporter genes (with the most important polymorphisms)[167-169] Gene Location Protein Exons Amino Polymorphisms Location Effect (chromosome) acids (exon) ABCB1 7q21 P-gp/MDR1 29 1280 *6 (C3435T) 26 Silent *7 (G2677T/A) 21 A893S *8 (C1236T) 12 Silent G1199A 11 S400N ABCC2 10q24 MRP2 32 1545 C-24T 5'-UTR Unknown C1249A 10 V417I C2302T 18 R768W C2366T 18 S789F T2439+2C 18 Splice site ND 26 W1254Y,A,C,F C3972T 28 Silent A4145G 29 Q1382R G4348A 31 G1440S ABCG2 4q22 BCRP 16 655 G34A 2 V12M C8825A 5 Q141K BCRP = breast cancer resistance protein; MDR1 = multidrug resistance 1; MRP2 = multidrug resistance protein 2; ND = no data; P-gp = P-glycoprotein.
X
ABCG2 p.Gln141Lys 16509759:2327:525
status: NEW2381 [168] Overall, no clinical effects have been observed topoisomerase I inhibitor, of cells expressing V12M for the different MRP2 genotypes and pharmacoki- or Q141K was less than one-tenth compared with netics and pharmacodynamics of anti-cancer drugs.
X
ABCG2 p.Gln141Lys 16509759:2381:161
status: NEW2385 In a study by Imai et al.[213] Japanese volunteers The ABCG2 gene is a recently described member with the mutant C8825A polymorphism (allele fre- of the G subfamily of ABC transporters that was quency of 46%) expressed a low amount of the previously called BCRP, mitoxantrone resistant Q141K ABCG2 protein.
X
ABCG2 p.Gln141Lys 16509759:2385:286
status: NEW2400 polymorphisms G34A and C8825A, leading to an amino acid change of V12M and Q141K, respec- The levels of ABCG2 mRNA expression in cell tively (see table VII), on the transporter function of lines were found to be significantly correlated with the protein.
X
ABCG2 p.Gln141Lys 16509759:2400:75
status: NEW2868 Kauffmann HM, Keppler D, Kartenbeck J, et al. Induction of low expression of Q141K protein and low-level drug resis- cMRP/cMOAT gene expression by cisplatin, 2-acetylami- tance.
X
ABCG2 p.Gln141Lys 16509759:2868:77
status: NEW
PMID: 25591549
[PubMed]
Tecza K et al: "Genetic polymorphisms and gene-dosage effect in ovarian cancer risk and response to paclitaxel/cisplatin chemotherapy."
No.
Sentence
Comment
61
Genotyping of polymorphic variants in PGR (rs10895068 and p.Val660Leu), ABCB1 (p.Ile1145 = and p.Ser893Ala/ Trp), ABCG2 (p.Gln141Lys), ATM (p.Asp1853Asn), TP53 (p.Arg72Pro), GSTP1 (p.Ile105Val) genes, as well as detection of GSTT1/M1 gene deletions, were performed as described previously [9-17].
X
ABCG2 p.Gln141Lys 25591549:61:123
status: NEW101 The polymorphisms, which in univariate analysis were modulating ovarian cancer risk, were included in the Table 2 Case-control analyses of ovarian and breast and ovarian cancer risk Ovarian cancer all patients Ovarian cancer BRCA1- Ovarian cancer BRCA1+ Breast and ovarian cancer Gene polymorphism Genotype Controls n(%) n(%) OR (&#b1;95% CI) p n(%) OR (&#b1;95% CI) p n(%) OR (&#b1;95% CI) p n(%) OR (&#b1;95% CI) p PGR p.Val660Leu rs1042838 GG 239 (69.3) 143 (63.9) 1(ref) 131 (66.5) 1(ref) 12 (44.4) 1(ref) 46 (75.4) 1 (ref) GT 95 (27.5) 74 (33.0) 1.03 (0.90-1.88) 0.160 60 (30.5) 1.15 (0.78-1.70) 0.473 14 (51.9) 2.94 (1.31-6.58) 0.009 14 (23.0) 0.77 (0.40-1.46) 0.416 TT 11 (3.2) 7 (3.1) 1.06 (0.40-2.81) 0.901 6 (3.0) 1.00 (0.36-2.75) 0.993 1 (3.70) 1.81 (0.22-15.20) 0.584 1 (1.6) 0.47 (0.06-3.75) 0.478 GT + TT 106 (30.7) 81 (36.1) 1.20 (0.88-1.63) 0.249 66 (33.5) 1.14 (0.78-1.65) 0.504 15 (55.6) 2.82 (1.28-6.23) 0.010 15 (24.6) 0.74 (0.39-1.38) 0.336 ABCB1 p.Ser893Ala p.Ser893Thr rs2032582 GG 117 (33.7) 65 (29.0) 1(ref) 56 (28.4) 1(ref) 9 (33.4) 1(ref) 16 (26.2) 1 (ref) GT 156 (45.0) 115 (51.4) 1.33 (0.90-1.95) 0.152 104 (52.8) 1.39 (0.93-2.09) 0.108 11 (40.7) 0.92 (0.37-2.28) 0.852 33 (54.1) 1.55 (0.71-2.94) 0.184 TT 60 (17.3) 37 (16.5) 1.11 (0.67-1.85) 0.688 32 (16.3) 1.11 (0.65-1.90) 0.691 5 (18.5) 1.08 (0.35-3.38) 0.890 9 (14.8) 1.10 (0.46-2.63) 0.836 GA 9 (2.6) 2 (0.9) 0.40 (0.08-1.91) 0.250 2 (1.0) 0.46 (0.10-2.24) 0.337 - - - 2 (3.3) 1.63 (0.32-8.31) 0.557 TA 5 (1.4) 5 (2.2) 1.80 (0.50-6.45) 0.367 3 (1.5) 1.25 (0.29-5.49) 0.763 2 (7.4) 5.20 (0.87-31.18) 0.069 1 (1.6) 1.46 (0.16-13.6) 0.736 AA - - - - - - - - - - - - - GG + GT + GA 282 (81.3) 182 (81.3) 1 (ref) 162 (82.2) 1 (ref) 20 (74.1) 1 (ref) 51 (83.6) 1 (ref) TT + TA 65 (18.7) 42 (18.7) 1.00 (0.92-1.09) 1.000 35 (17.8) 0.94 (0.60-1.48) 0.780 7 (25.9) 1.52 (0.61-3.76) 0.364 10 (16.4) 0.85 (0.41-1.77) 0.664 ABCB1 p.Ile1145= rs1045642 CC 83 (24.0) 44 (19.6) 1(ref) 35 (17.8) 1(ref) 9 (33.3) 1(ref) 16 (26.2) 1 (ref) CT 162 (47.0) 122 (54.5) 1.42 (0.92-2.19) 0.113 112 (56.8) 1.64 (1.03-2.60) 0.036 10 (37.1) 0.57 (0.22-1.46) 0.239 26 (42.6) 0.83 (0.42-1.64) 0.596 TT 100 (29.0) 58 (25.9) 1.09 (0.67-1.78) 0.718 50 (25.4) 1.18 (0.70-2.00) 0.522 8 (29.6) 0.74 (0.27-2.00) 0.549 19 (31.2) 0.98 (0.48-2.04) 0.969 CT + TT 262 (76.0) 180 (80.4) 1.02 (0.81-1.30) 0.827 162 (82.2) 1.47 (0.94-2.28) 0.089 18 (66.7) 0.63 (0.27-1.46) 0.285 45 (73.8) 0.89 (0.48-1.66) 0.716 ABCG2 p. Gln141Lys rs2231142 CC 276 (80.2) 191 (86.4) 1 (ref) 167 (85.6) 1 (ref) 24 (92.3) 1 (ref) 56 (87.5) 1 (ref) CA 68 (19.8) 30 (13.6) 0.64 (0.40-1.02) 0.059 28 (14.4) 0.68 (0.42-1.10) 0.116 2 (7.7) 0.34 (0.08-0.47) 0.147 8 (12.5) 0.58 (0.26-1.28) 0.175 ATM p. Asp1853Asn rs1801516 GG 254 (75.8) 153 (68.6) 1 (ref) 134 (68.4) 1 (ref) 19 (70.4) 1 (ref) 45 (70.3) 1 (ref) GA 76 (22.7) 64 (28.7) 1.40 (0.95-2.06) 0.091 57 (29.1) 1.42 (0.95-2.13) 0.083 7 (25.9) 1.23 (0.50-3.05) 0.651 15 (23.4) 1.11 (0.59-2.11) 0.740 AA 5 (1.5) 6 (2.7) 1.99 (0.60-6.66) 0.262 5 (2.5) 1.90 (0.54-6.69) 0.319 1 (3.7) 2.67 (0.39-24.29) 0.380 4 (6.3) 4.52 (1.16-17.56) 0.029 GA + AA 81 (24.2) 70 (31.4) 1.43 (0.98-2.09) 0.061 62 (31.6) 1.45 (0.98-2.15) 0.062 8 (29.6) 1.32 (0.73-2.40) 0.352 19 (29.7) 1.32 (0.56-3.14) 0.528 TP53 p.Arg72Pro rs1042522 GG 167 (49.0) 130 (57.8) 1 (ref) 115 (58.1) 1 (ref) 15 (55.6) 1 (ref) 29 (48.3) 1 (ref) GC 150 (44.0) 79 (35.1) 0.68 (0.47-0.97) 0.031 70 (35.3) 0.68 (0.47-0.98) 0.039 9 (33.3) 0.67 (0.28-1.57) 0.355 29 (48.3) 1.11 (0.64-1.95) 0.707 CC 24 (7.0) 16 (7.1) 0.86 (0.44-1.68) 0.652 13 (6.6) 0.79 (0.39-1.61) 0.511 3 (11.1) 1.39 (0.38-5.16) 0.621 2 (3.3) 0.48 (0.11-2.14) 0.336 GC + CC 174 (51.0) 95 (42.2) 0.80 (0.61-1.05) 0.104 83 (41.9) 0.69 (0.49-0.99) 0.042 12 (44.4) 0.77 (0.35-1.69) 0.511 31 (51.67) 1.03 (0.59-1.78) 0.927 ATP7B p.Ser406Ala rs1801243 TT 103 (30.8) 41 (19.0) 1 (ref) 35 (18.5) 1 (ref) 6 (22.2) 1 (ref) 13 (20.3) 1 (ref) TG 157 (47.0) 113 (52.3) 1.81 (1.17-2.80) 0.008 100 (52.9) 1.87 (1.18-2.97) 0.007 13 (48.2) 1.42 (0.52-3.88) 0.490 32 (50.0) 1.61 (0.81-3.23) 0.174 GG 74 (22.2) 62 (28.7) 2.10 (1.28-3.46) 0.003 54 (28.6) 2.15 (1.27-3.62) 0.004 8 (29.6) 1.86 (0.61-5.61) 0.270 19 (29.7) 2.03 (0.94-4.40) 0.069 TG + GG 231 (69.2) 175 (81.0) 1.90 (1.26-2.88) 0.002 154 (81.5) 1.96 (1.27-3.03) 0.002 21 (77.8) 1.56 (0.61-3.99) 0.352 51 (79.7) 1.75 (0.91-3.36) 0.093 Table 2 Case-control analyses of ovarian and breast and ovarian cancer risk (Continued) ATP7B p.Arg952Lys rs732774 AA 103 (30.7) 86 (38.9) 1 (ref) 76 (39.2) 1 (ref) 10 (37.0) 1 (ref) 25 (39.7) 1 (ref) AG 159 (47.5) 96 (43.4) 0.72 (0.49-1.06) 0.096 82 (42.3) 0.70 (0.47-1.04) 0.078 14 (51.9) 0.91 (0.39-2.11) 0.821 31 (49.2) 0.80 (0.45-1.44) 0.471 GG 73 (21.8) 39 (17.7) 0.64 (0.39-1.04) 0.070 36 (18.5) 0.67 (0.41-1.10) 0.112 3 (11.1) 0.42 (0.11-1.61) 0.203 7 (11.1) 0.40 (0.16-0.97) 0.041 AG + GG 232 (69.3) 135 (61.1) 0.70 (0.49-1.00) 0.047 118 (60.8) 0.69 (0.48-1.00) 0.049 17 (63.0) 0.75 (0.33-1.71) 0.499 38 (60.3) 0.67 (0.39-1.18) 0.165 GST T1/M1 Gene deletions wt/wt 118 (34.6) 82 (36.8) 1(ref) 72 (36.7) 1(ref) 10 (37.0) 1(ref) 20 (31.3) 1(ref) wt/null 49 (14.4) 18 (8.1) 0.53 (0.29-0.98) 0.040 17 (8.7) 0.57 (0.30-1.07) 0.076 1 (3.7) 0.24 (0.03-1.96) 0.180 6 (9.4) 0.72 (0.27-1.92) 0.512 null/wt 138 (40.5) 95 (42.6) 0.99 (0.64-1.54) 0.967 82 (41.8) 0.97 (0.65-0.47) 0.90 13 (48.2) 1.11 (0.47-2.64) 0.810 31 (48.4) 1.32 (0.72-2.45) 0.368 null/null 36 (10.5) 28 (12.5) 1.12 (0.63-1.98) 0.698 25 (12.8) 1.14 (0.63-2.06) 0.667 3 (11.1) 0.98 (0.24-4.04) 0.982 7 (10.9) 1.14 (0.45-2.95) 0.774 GSTP1 p.Ile105Val rs1695 AA 151 (45.2) 104 (46.4) 1 (ref) 93 (47.2) 1 (ref) 11 (40.7) 1 (ref) 32 (52.4) 1 (ref) AG 162 (48.5) 95 (42.4) 0.85 (0.60-1.22) 0.376 84 (42.6) 0.84 (0.58-1.22) 0.361 11 (40.7) 0.93 (0.39-2.22) 0.873 36 (36.1) 0.64 (0.36-1.15) 0.137 GG 21 (6.3) 25 (11.2) 1.73 (0.92-3.26) 0.090 20 (10.2) 1.54 (0.79-3.01) 0.199 5 (18.6) 3.27 (1.03-10.42) 0.044 7 (11.5) 1.57 (0.61-4.03) 0.342 AG + GG 183 (54.8) 120 (53.6) 0.95 (0.68-1.34) 0.776 104 (52.8) 0.92 (0.65-1.32) 0.656 16 (49.3) 1.20 (0.54-2.67) 0.653 43 (47.6) 0.75 (0.43-1.29) 0.296 Statistically significant analyses are in bold. groups of risk reductors (favorable genotypes) or risk enhancers (unfavorable genotypes).
X
ABCG2 p.Gln141Lys 25591549:101:2461
status: NEW77 Polymorphism p.Gln141Lys in the ABCG2 gene, borderline significant (OR 0.64; 95% CI 0.40-1.02; p = 0.059), decreased the risk of ovarian cancer for heterozygotes.
X
ABCG2 p.Gln141Lys 25591549:77:15
status: NEW138 Also, in heterozygotes for ABCG2 polymorphism p.Gln141Lys we found a trend towards decreased risk of ovarian cancer.
X
ABCG2 p.Gln141Lys 25591549:138:48
status: NEW
PMID: 19148526
[PubMed]
Shi Z et al: "The epidermal growth factor tyrosine kinase inhibitor AG1478 and erlotinib reverse ABCG2-mediated drug resistance."
No.
Sentence
Comment
149
One common single-nucleotide polymorphism of ABCG2 that has been shown to affect the function of ABCG2, Q141K (421Cėd;A), was reported to be associated with gefitinib-induced diarrhea, resulting in a high risk of diarrhea in patients treated with oral gefitinib (36), and was also found to be associated with greater accumulation at steady-state and toxicity of gefitinib (37).
X
ABCG2 p.Gln141Lys 19148526:149:104
status: NEW
PMID: 21241071
[PubMed]
Liukas A et al: "Pharmacokinetics of intravenous paracetamol in elderly patients."
No.
Sentence
Comment
55
The subjects were genotyped for the ABCG2c.421C>A singlenucleotide polymorphism (p.Gln141Lys; rs2231142) by allelic discrimination with a TaqMan Drug Metabolism Genotyping Assay (assay ID: C__15854163_70; Applied Biosystems, Foster City, CA, USA).
X
ABCG2 p.Gln141Lys 21241071:55:83
status: NEW
PMID: 21821808
[PubMed]
Real R et al: "Analysis of the effect of the bovine adenosine triphosphate-binding cassette transporter G2 single nucleotide polymorphism Y581S on transcellular transport of veterinary drugs using new cell culture models."
No.
Sentence
Comment
217
As an example, the Q141K variant in humans has been related to altered pharmacokinetics of several substrates (Cusatis and Sparreboom, 2008; Keskitalo et al., 2009), and more recently, it has been reported as a loss-of-function mutation that causes hyperuricemia and gout in humans (Woodward et al., 2009).
X
ABCG2 p.Gln141Lys 21821808:217:19
status: NEW
No.
Sentence
Comment
1150
Recent studies have demonstrated that individuals with reduced BCRP expression levels (Q141K variant) are at increased risk for gefitinib-induced diarrhea and altered pharmacokinetics of 9-aminocamptothecin, diflomotecan, irinotecan, rosuvastatin, sulfasalazine and topotecan [1].
X
ABCG2 p.Gln141Lys 23041352:1150:87
status: NEW
PMID: 23117072
[PubMed]
Seong SJ et al: "Influence of enzyme and transporter polymorphisms on trough imatinib concentration and clinical response in chronic myeloid leukemia patients."
No.
Sentence
Comment
66
discussion ABCG2 421C>A in exon 5 is a non-synonymous SNP, where a glutamine is substituted with a lysine residue at codon 141 (Q141K).
X
ABCG2 p.Gln141Lys 23117072:66:128
status: NEW70 It has been reported that human embryonic kidney 293 cells transfected with ABCG2 Q141K showed a higher imatinib accumulation compared with wild-type ABCG2 in vitro [14].
X
ABCG2 p.Gln141Lys 23117072:70:82
status: NEW
PMID: 23166586
[PubMed]
Kasza I et al: "Expression levels of the ABCG2 multidrug transporter in human erythrocytes correspond to pharmacologically relevant genetic variations."
No.
Sentence
Comment
1
Our method reveals significant differences between the expression levels of the wild-type ABCG2 protein and the heterozygous Q141K polymorphic variant.
X
ABCG2 p.Gln141Lys 23166586:1:125
status: NEW27 Recently, a significant disease-association for a polymorphic ABCG2 variant (resulting in ABCG2-Q141K) has been observed in gout [24,25,26,27,28].
X
ABCG2 p.Gln141Lys 23166586:27:96
status: NEW29 A common variant of ABCG2 (c.421C.A; Q141K), with a variable allele frequency between 5-30% in various ethnic groups (see ref. [29]), was shown to decrease membrane protein expression in model PLOS ONE | www.plosone.org 1 November 2012 | Volume 7 | Issue 11 | e48423 Hungarian Academy of Sciences ( ) cells, despite unchanged mRNA levels [30,31,32,33,34].
X
ABCG2 p.Gln141Lys 23166586:29:37
status: NEW30 Still, a lower expression level of the ABCG2-Q141K variant has not been confirmed at physiologically relevant sites, given the difficulties in obtaining and processing human tissues.
X
ABCG2 p.Gln141Lys 23166586:30:45
status: NEW34 In this report we show that individuals heterozygous for the potentially miss-processed ABCG2 variant (Q141K) have significantly lower ABCG2 protein expression in their red cells than individuals carrying the wild-type ABCG2 gene.
X
ABCG2 p.Gln141Lys 23166586:34:103
status: NEW67 The most common SNPs in ABCG2 [V12M (c.34G.A, p.12Val.Met in exon 2, SNP database ID: rs2231137) and Q141K (c.421C.A, p.141Gln.Lys in exon 5, SNP database ID: rs2231142] were genotyped using the LightCycler480 (Roche Diagnostics, Basle, Switzerland) allelic discrimination system as described previously in detail [45].
X
ABCG2 p.Gln141Lys 23166586:67:101
status: NEW89 For this purpose we quantified the expression of the erythrocyte ABCG2 in 47 unrelated, healthy individuals that were also screened for the presence of two most prevalent ABCG2 polymorphic variants found in the Caucasian population (V12M and Q141K) [29].
X
ABCG2 p.Gln141Lys 23166586:89:242
status: NEW101 However, when the samples were grouped according to their genotypes, we found that the red blood cells of individuals carrying the heterozygous Q141K variant exhibited significantly lower expression of ABCG2 (5.2761.19), as compared to homozygous wild-type individuals (6.1360.61, p = 0.011) (Fig. 3).
X
ABCG2 p.Gln141Lys 23166586:101:144
status: NEW103 As a summary of the ABCG2 polymorphism analysis data, among the 47 donors we found 11 individuals with the heterozygous presence of the DNA sequence coding for the Q141K variant (carrier frequency: 23.4%, allele frequency: 11.766.6%), and 3 individuals with the heterozygous presence of the V12M variant (carrier frequency: 6.4%; allele frequency: 3.263.6%).
X
ABCG2 p.Gln141Lys 23166586:103:164
status: NEW136 Labels: individuals carrying wild-type ABCG2 (WT), polymorphic (Q141K, V12M) ABCG2 alleles, or a heterozygous stop mutation (STOP).
X
ABCG2 p.Gln141Lys 23166586:136:64
status: NEW185 Imai Y, Nakane M, Kage K, Tsukahara S, Ishikawa E, et al. (2002) C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 23166586:185:172
status: NEW209 Furukawa T, Wakabayashi K, Tamura A, Nakagawa H, Morishima Y, et al. (2009) Major SNP (Q141K) variant of human ABC transporter ABCG2 undergoes lysosomal and proteasomal degradations.
X
ABCG2 p.Gln141Lys 23166586:209:87
status: NEW
PMID: 23230133
[PubMed]
Otero JA et al: "The bovine ATP-binding cassette transporter ABCG2 Tyr581Ser single-nucleotide polymorphism increases milk secretion of the fluoroquinolone danofloxacin."
No.
Sentence
Comment
16
Several single-nucleotide polymorphisms (SNPs) have been studied in human ABCG2, and of these, Gln141Lys (Q141K) is one of the most important, causing impaired urate transport which may contribute to gout (Woodward et al., 2009).
X
ABCG2 p.Gln141Lys 23230133:16:95
status: NEWX
ABCG2 p.Gln141Lys 23230133:16:106
status: NEW25 ABBREVIATIONS: ABC, ATP-binding cassette; ABCG2, adenosine triphosphate-binding cassette transporter G2; AUC, area under the curve; HPLC, high-performance liquid chromatography; Q141K, Gln141Lys; SNP, single-nucleotide polymorphism; Y581S, Tyr581Ser.
X
ABCG2 p.Gln141Lys 23230133:25:178
status: NEWX
ABCG2 p.Gln141Lys 23230133:25:185
status: NEW73 Even human Q141K SNP does not affect the plasma disposition of all ABCG2 substrates (Kim et al., 2007; Adkison et al., 2008; Keskitalo et al., 2009).
X
ABCG2 p.Gln141Lys 23230133:73:11
status: NEW
PMID: 23307580
[PubMed]
George RL et al: "Genetics of hyperuricemia and gout: implications for the present and future."
No.
Sentence
Comment
121
Overall, the ABCG2 gene (SNP rs2231142, Q141K variant) had a stronger effect in men than women.
X
ABCG2 p.Gln141Lys 23307580:121:40
status: NEW129 The investigators found that common dysfunctional genotype combinations of ABCG2 gene (variants, Q126X and Q141K) are a major cause of gout [48].
X
ABCG2 p.Gln141Lys 23307580:129:107
status: NEW135 The relationship between overproduction, hyperuricemia, and ABCG2 dysfunction led the authors to propose a new, testable model of hyperuricemia that takes into account population genotypes such as Q126X and Q141K affecting ABCG2 function.
X
ABCG2 p.Gln141Lys 23307580:135:207
status: NEW141 ABCG2 rs2231142 SNP (Q141K variant) decreased urate transport rates by approximately 50 % in vitro.
X
ABCG2 p.Gln141Lys 23307580:141:21
status: NEW
PMID: 23379683
[PubMed]
Lee Y et al: "Computational analysis and predictive modeling of polymorph descriptors."
No.
Sentence
Comment
125
BCRP G34A (Val12Met) and C421A (Gln141Lys) polymorphisms occurred at high frequency in most ethnic populations and have been associated with the expression and activity of BCRP protein [48].
X
ABCG2 p.Gln141Lys 23379683:125:32
status: NEW126 It has distinctive features including racial differences; for instance, BCRP V12M, Q141K, P269S and Q126Stop were detected in Korean at frequencies of 23, 28, 0.2 and 1.9%, respectively [49].
X
ABCG2 p.Gln141Lys 23379683:126:83
status: NEW352 Pollex EK, Anger G, Hutson J, Koren G, Piquette-Miller M: Breast cancer resistance protein (BCRP)-mediated glyburide transport: effect of the C421A/Q141K BCRP single-nucleotide polymorphism.
X
ABCG2 p.Gln141Lys 23379683:352:148
status: NEW
PMID: 23493553
[PubMed]
Woodward OM et al: "Gout-causing Q141K mutation in ABCG2 leads to instability of the nucleotide-binding domain and can be corrected with small molecules."
No.
Sentence
Comment
0
Gout-causing Q141K mutation in ABCG2 leads to instability of the nucleotide-binding domain and can be corrected with small molecules Owen M. Woodwarda,1,2 , Deepali N. Tukayea,1 , Jinming Cuia , Patrick Greenwella , Leeza M. Constantoulakisa , Benjamin S. Parkera , Anjana Raoa , Michael K&#f6;ttgenb , Peter C. Maloneya , and William B. Gugginoa,2 a Department of Physiology, The Johns Hopkins University School of Medicine, Baltimore, MD 21205; and b Renal Division, University Medical Centre Freiburg, 79106 Freiburg, Germany Edited by Maurice B. Burg, National Heart, Lung, and Blood Institute, Bethesda, MD, and approved February 19, 2013 (received for review August 22, 2012) The multidrug ATP-binding cassette, subfamily G, 2 (ABCG2) transporter was recently identified as an important human urate transporter, and a common mutation, a Gln to Lys substitution at position 141 (Q141K), was shown to cause hyperuricemia and gout.
X
ABCG2 p.Gln141Lys 23493553:0:13
status: NEWX
ABCG2 p.Gln141Lys 23493553:0:884
status: NEW1 The nature of the Q141K defect, however, remains undefined.
X
ABCG2 p.Gln141Lys 23493553:1:18
status: NEW2 Here we explore the Q141K ABCG2 mutation using a comparative approach, contrasting it with another disease-causing mutation in an ABC transporter, the deletion of Phe-508 (ƊF508) in the cystic fibrosis transmembrane conductance regulator (CFTR).
X
ABCG2 p.Gln141Lys 23493553:2:20
status: NEW3 We found, much like in ƊF508 CFTR, that the Q141K mutation leads to instability in the nucleotide-binding domain (NBD), a defect that translates to significantly decreased protein expression.
X
ABCG2 p.Gln141Lys 23493553:3:49
status: NEW4 However, unlike the CFTR mutant, the Q141K mutation does not interfere with the nucleotide-binding domain/intracellular loop interactions.
X
ABCG2 p.Gln141Lys 23493553:4:37
status: NEW6 Finally, we have demonstrated the utility of using small molecules to correct the Q141K defect in expression and function as a possible therapeutic approach for hyperuricemia and gout.
X
ABCG2 p.Gln141Lys 23493553:6:82
status: NEW14 Additionally, we characterized the single nucleotide polymorphism resulting in a Gln to Lys substitution at position 141 (Q141K), as causal for gout resulting from a loss of urate transport function in ABCG2 (10).
X
ABCG2 p.Gln141Lys 23493553:14:122
status: NEW15 The majority of work on ABCG2 [also know as the breast cancer resistance protein (BCRP)] has focused on its role as a multidrug transporter and specifically on its role as a xenotoxin and chemotherapeutic transport molecule, work that has included a description of the Q141K mutation`s effect on ABCG2 trafficking and function.
X
ABCG2 p.Gln141Lys 23493553:15:269
status: NEW16 Multiple groups reported that the Q141K mutation decreases protein expression and, coincidentally, xenotoxin transport function (11-16).
X
ABCG2 p.Gln141Lys 23493553:16:34
status: NEW17 This decrease of expression and function appears to be partially caused by the enhancement of the Q141K mutant`s susceptibility to proteasomal degradation (11-13).
X
ABCG2 p.Gln141Lys 23493553:17:98
status: NEW18 There is also recent evidence suggesting that a significant portion of the mutant Q141K protein accumulates in perinuclear aggresomes before being degraded (17).
X
ABCG2 p.Gln141Lys 23493553:18:82
status: NEW19 Conversely, the Q141K mutation has also been reported to reduce ABCG2 ATPase activity, suggesting that the mutation disrupts xenotoxin transport independently of expression or trafficking abnormalities (14, 16).
X
ABCG2 p.Gln141Lys 23493553:19:16
status: NEW20 However, how does the Q141K mutation affect urate transport?
X
ABCG2 p.Gln141Lys 23493553:20:22
status: NEW21 In our work, we found urate transport was significantly reduced by the Q141K mutation in Xenopus oocytes when transport was normalized to expression levels (10).
X
ABCG2 p.Gln141Lys 23493553:21:71
status: NEW22 In contrast, subsequent work by Matsuo et al. (18) confirmed ABCG2 as a urate transporter and that Q141K results in a loss of function.
X
ABCG2 p.Gln141Lys 23493553:22:99
status: NEW23 However, they postulated that the loss of urate transport function for the Q141K was specifically due to the reduction in protein expression (18) .
X
ABCG2 p.Gln141Lys 23493553:23:75
status: NEW24 Interestingly, the possibility that the Q141K mutation disrupts both function and trafficking/expression suggests intriguing parallels to other human disease causing ABC transporter mutations, namely the deletion of Phe-508 (ƊF508) in the cystic fibrosis transmembrane conductance regulator (CFTR).
X
ABCG2 p.Gln141Lys 23493553:24:40
status: NEW26 However, it remains unclear why the Q141K mutation causes increased ubiquitination and proteasomal degradation or accumulation in aggresomes.
X
ABCG2 p.Gln141Lys 23493553:26:36
status: NEW27 In this paper, we explore the nature of the Q141K defect and, specifically, its effect on expression in mammalian cells.
X
ABCG2 p.Gln141Lys 23493553:27:44
status: NEW30 Finally, we demonstrate that correcting the gout causing Q141K ABCG2 defect can be accomplished with small molecules in a manner similar to the successful correction of the CFTR molecule as a treatment for cystic fibrosis.
X
ABCG2 p.Gln141Lys 23493553:30:57
status: NEW41 13 | 5223-5228 Results Temperature Correction of Q141K.
X
ABCG2 p.Gln141Lys 23493553:41:50
status: NEW42 Previously, we showed that the Q141K mutation in ABCG2 was causal for gout and resulted in a 53% loss of urate transport function (10, 22).
X
ABCG2 p.Gln141Lys 23493553:42:31
status: NEW44 To investigate the opposing observations and to explore the possibility that both a loss of function and a expression defect could be caused by the Q141K mutation, we expressed our ABCG2 constructs in mammalian cell expression systems.
X
ABCG2 p.Gln141Lys 23493553:44:148
status: NEW45 We found, much like previous reports (12, 13, 15, 18), that, in multiple mammalian cell lines, transient expression of the Q141K mutation resulted in significantly less total protein (Fig. S1 A and B and Fig. 2D: 63.4 &#b1; 0.1% decrease), surface protein (Fig. 1D and Fig. S1 C and D), and function (Fig. S1E: 63.08 &#b1; 3.0% decrease) than wild-type ABCG2 [although with only slightly lower levels of unglycosylated protein (Fig. S2A): 27.3 &#b1; 0.1% reduction; see Fig. S2B for ABCG2 glycosylation states].
X
ABCG2 p.Gln141Lys 23493553:45:123
status: NEW46 In both the oocytes and mammalian cell lines, we used the same human ABCG2 constructs; thus the differences in relative expression may give a clue as to the nature of the Q141K defect.
X
ABCG2 p.Gln141Lys 23493553:46:171
status: NEW48 To test the possibility that the Q141K mutant is being stabilized by the low incubation temperatures of the oocytes, we injected oocytes with mutant and wild-type ABCG2 mRNA and incubated the cells at either 16 &#b0;C or 32 &#b0;C (Fig. 1A).
X
ABCG2 p.Gln141Lys 23493553:48:33
status: NEW51 Fig. 1 B and C shows that the lowering of the incubation temperature of mammalian cells expressing wild-type ABCG2 and the Q141K mutant increases the expression of both; however, the percentage change in expression level is significantly greater in the mutant protein (Fig. 1C), a result consistent with low-temperature enhancement of folding and stabilizing mutant protein.
X
ABCG2 p.Gln141Lys 23493553:51:123
status: NEW53 Low temperature was also able to rescue the surface expression of the Q141K mutant (Fig. 1D), but again the majority of the rescued surface protein is the unglycosylated version of the protein (Fig. 1D, black arrows).
X
ABCG2 p.Gln141Lys 23493553:53:70
status: NEW56 We found that the low-temperature incubation again preferentially increased the dimer mutant Q141K protein expression compared with wild type (Fig. 1E: dimer Q141K expression increased 242.98 &#b1; 89.8% relative to wild type; n = 3).
X
ABCG2 p.Gln141Lys 23493553:56:93
status: NEWX
ABCG2 p.Gln141Lys 23493553:56:158
status: NEW57 These results support the hypothesis that the Q141K mutant is unstable and that expression can be rescued with low-temperature incubation.
X
ABCG2 p.Gln141Lys 23493553:57:46
status: NEW58 Nature of the Q141K Defect.
X
ABCG2 p.Gln141Lys 23493553:58:14
status: NEW59 Human disease, loss of function, reduced expression of mature protein, and temperature correction are characteristics that the Q141K mutation shares with exactly one other mutant ABC protein: ƊF508 CFTR, the most common cystic fibrosis-causing mutation (25).
X
ABCG2 p.Gln141Lys 23493553:59:127
status: NEW61 However, the deletion of F508 in CFTR produces no mature glycosylated protein (25), whereas the Q141K defect in ABCG2 only reduces the amount of mature protein; thus the defects may be similar but not precisely homologous.
X
ABCG2 p.Gln141Lys 23493553:61:96
status: NEW65 These results support our model and the similar natures of the defects between Q141K ABCG2 and ƊF508 CFTR.
X
ABCG2 p.Gln141Lys 23493553:65:79
status: NEW70 To test whether or not Q141K decreases stability of the ABCG2 NBD, we introduced stabilizing mutations into the signature sequence to try to rescue protein expression.
X
ABCG2 p.Gln141Lys 23493553:70:23
status: NEW73 Temperature correction of Q141K ABCG2 expression defect.
X
ABCG2 p.Gln141Lys 23493553:73:26
status: NEW75 (B) Western blot of transient expression of wild-type (WT) and Q141K ABCG2 in CHO cells incubated for 48 h at 27 &#b0;C or 37 &#b0;C.
X
ABCG2 p.Gln141Lys 23493553:75:63
status: NEW76 (C) Summary data of temperature rescue of protein expression (WT: n = 6; Q141K: n = 8).
X
ABCG2 p.Gln141Lys 23493553:76:73
status: NEW78 (E) Dimer expression of WT and Q141K ABCG2 after 48 h of incubation at 27 &#b0;C or 37 &#b0;C (n = 4).
X
ABCG2 p.Gln141Lys 23493553:78:31
status: NEW81 In contrast, stabilizing the NBD domain of Q141K ABCG2 rescues protein expression and suggests that primarily NBD stability may underlie the Q141K defect.
X
ABCG2 p.Gln141Lys 23493553:81:43
status: NEWX
ABCG2 p.Gln141Lys 23493553:81:141
status: NEW82 Even with considerable evidence suggesting that Q141K causes NBD instability, there remains the possibility that interdomain interactions may also be disrupted, as in the ƊF142 mutant and in the CFTR F508 deletion.
X
ABCG2 p.Gln141Lys 23493553:82:48
status: NEW89 Significantly, introduction of the K473W substitution on the Q141K background did not rescue total, mature, or dimer levels (all were actually significantly less) (Fig. 4 A-C and Fig. S5E).
X
ABCG2 p.Gln141Lys 23493553:89:61
status: NEW90 The failure of the K473W mutation to rescue Q141K expression supports the hypothesis that the Q141K mutation does not interfere with interdomain interactions or dimerization of the ABCG2 protein.
X
ABCG2 p.Gln141Lys 23493553:90:44
status: NEWX
ABCG2 p.Gln141Lys 23493553:90:94
status: NEW91 Furthermore, we found that the Q141K dimer protein expression, as a fraction of wild-type expression, is greater than the total expression (Fig. 4D), not less, suggesting that the mutant dimerizes normally (or marginally more efficiently than wild type; P ࣘ 0.03; n = 7).
X
ABCG2 p.Gln141Lys 23493553:91:31
status: NEW92 Finally, modeling of ABCG2 with the Q141K substitution did not alter the F142 orientation or position in respect to the ICL residues, and K141 adopted the same orientation as Q141 (Fig. 4E).
X
ABCG2 p.Gln141Lys 23493553:92:36
status: NEW95 Taken together, our findings support the hypothesis that the Q141K mutation does not interfere with interdomain interactions or with dimerization of the ABCG2 protein.
X
ABCG2 p.Gln141Lys 23493553:95:61
status: NEW96 Small-Molecule Correction of Q141K.
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ABCG2 p.Gln141Lys 23493553:96:29
status: NEW100 Q141K mutation occurs in mutational hotspot of ABC protein NBD.
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ABCG2 p.Gln141Lys 23493553:100:0
status: NEW103 Western blots of transient total (B) and dimer expression (C) of WT, Q141K, and ƊF142 ABCG2 in HEK293 cells.
X
ABCG2 p.Gln141Lys 23493553:103:69
status: NEW108 Suppressor mutation correction of Q141K expression defect.
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ABCG2 p.Gln141Lys 23493553:108:34
status: NEW112 Western blot of transient total (B) and dimer (C) expression in CHO cells of suppressor mutations in the Q141K background.
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ABCG2 p.Gln141Lys 23493553:112:105
status: NEW113 Summary data of suppressor rescue of Q141K ABCG2 total (D; n = 10) and dimer protein expression (E; n = 4).
X
ABCG2 p.Gln141Lys 23493553:113:37
status: NEW114 (F) Surface expression of biotinylated ABCG2 and Q141K variants and Na+ /K+ ATPase, demonstrating strong rescue with the Q141K G188E mutation (n = 6).
X
ABCG2 p.Gln141Lys 23493553:114:49
status: NEWX
ABCG2 p.Gln141Lys 23493553:114:121
status: NEW116 All means are &#b1; SEM; *P < 0.05; **P < 0.01. this principle and to learn more about the mechanism of dysfunction in the Q141K ABCG2 mutation, we attempted to correct the Q141K defect with small molecules.
X
ABCG2 p.Gln141Lys 23493553:116:124
status: NEWX
ABCG2 p.Gln141Lys 23493553:116:174
status: NEW118 We found that application of 4-PBA increased significantly the expression of the Q141K protein (Fig. 5 A and B) but had no effect on the wild type, consistent with the hypothesis that the ERAD pathway targets the Q141K protein.
X
ABCG2 p.Gln141Lys 23493553:118:81
status: NEWX
ABCG2 p.Gln141Lys 23493553:118:213
status: NEW119 The Q141K monomer expression levels, even after correction, were not at levels comparable to the wild type (Fig. 5A).
X
ABCG2 p.Gln141Lys 23493553:119:4
status: NEW120 Conversely, the dimer form of the Q141K protein when treated with 4-PBA was corrected to expression levels not different from wild type (P < 0.147, n = 4), suggesting that the effect of 4-PBA is critical for the creation of the dimer form of the protein (Fig. 5C).
X
ABCG2 p.Gln141Lys 23493553:120:34
status: NEW121 Interestingly, we found that 4-PBA was also able to increase the amount of Q141K/G188E protein (Fig. 5 A-C), demonstrating that the G188E suppressor mutation is not a full rescue and that some protein is still targeted for degradation.
X
ABCG2 p.Gln141Lys 23493553:121:75
status: NEW125 We found that incubation with the VRT-325 molecule significantly increased the amount of total (Fig. 5 D and E) and surface Q141K protein expression (Fig. S6A); VRT-325 had no effect on wild-type ABCG2 expression (P < 0.193, n = 3).
X
ABCG2 p.Gln141Lys 23493553:125:124
status: NEW126 Both low temperature and VRT-325 correction of Q141K produced increased levels of mature glycosylated monomer protein (Fig. 5D); however, unlike the low-temperature correction, VRT-325 did not increase the amount of immature unglycosylated protein (Fig. 5D and Fig. S6B).
X
ABCG2 p.Gln141Lys 23493553:126:47
status: NEW127 This suggests that VRT-325 may allow more of the Q141K protein to traffic normally, become glycosylated, and reach the cell membrane.
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ABCG2 p.Gln141Lys 23493553:127:49
status: NEW128 In HEK293 cells expressing the Q141K mutant and treated with VRT-325, we also found that the accumulation of C-14-labeled uric acid was significantly less than in the untreated Q141K-expressing cells (Fig. 5F; P ࣘ 0.004; n = 11, 10), demonstrating partial rescue of function along with expression of the Q141K mutant.
X
ABCG2 p.Gln141Lys 23493553:128:31
status: NEWX
ABCG2 p.Gln141Lys 23493553:128:177
status: NEWX
ABCG2 p.Gln141Lys 23493553:128:310
status: NEW130 Surprisingly, corr-4a (Fig. 5 G and H) increased the total protein levels of the Q141K ABCG2 mutant, but not wild-type protein, although the corr-4a (20 bc;M) correction appears to be less than the VRT-325 (10 bc;M) correction (Fig. S6C).
X
ABCG2 p.Gln141Lys 23493553:130:81
status: NEW131 Taken together, our results show that the Q141K protein level can be rescued using small corrector molecules, which is consistent with the hypothesis that the Q141K mutation is a misfolding mutation that increases degradation and consistent with the principle that the gout-causing Q141K mutation can be corrected with small molecules.
X
ABCG2 p.Gln141Lys 23493553:131:42
status: NEWX
ABCG2 p.Gln141Lys 23493553:131:159
status: NEWX
ABCG2 p.Gln141Lys 23493553:131:282
status: NEW132 GAPDH monomer dimer 141K -- P E W 473: 141K -- P E W 473: * A B Normalized ABCG2 dimer protein 0.0 0.5 1.0 Q141K -- P E 473: W ** ** ** C ABCG2 Q141K Q141K protein expression as fraction of wild type 0 0.25 0.5 0.75 Dimer Total * D E Fig. 4.
X
ABCG2 p.Gln141Lys 23493553:132:107
status: NEWX
ABCG2 p.Gln141Lys 23493553:132:144
status: NEWX
ABCG2 p.Gln141Lys 23493553:132:150
status: NEW133 Q141K does not disrupt interdomain interactions or dimerization.
X
ABCG2 p.Gln141Lys 23493553:133:0
status: NEW134 Western blots of total (A) and dimer (B) expression of Q141K ABCG2 with secondary mutations at K473 demonstrating that K473W cannot rescue Q141K expression.
X
ABCG2 p.Gln141Lys 23493553:134:55
status: NEWX
ABCG2 p.Gln141Lys 23493553:134:139
status: NEW135 Summary data of K473 mutation on total (C; n = 4-6) Q141K expression.
X
ABCG2 p.Gln141Lys 23493553:135:52
status: NEW136 (D) Expression of total or dimer Q141K as a fraction of wild type (total or dimer); a greater proportion of total Q141K exists as a dimer than does wild type (n = 7).
X
ABCG2 p.Gln141Lys 23493553:136:33
status: NEWX
ABCG2 p.Gln141Lys 23493553:136:114
status: NEW137 (E) Superimposition of ABCG2 NBD model (green, with Q141 as orange sticks and F142 as red sticks) and the model with Q141K substitution (blue, with K141 and F142 as cyan sticks).
X
ABCG2 p.Gln141Lys 23493553:137:117
status: NEW140 76k ABCG2 GAPDH WT 141K 188E 193K -- -- +4-PBA WT 141K 188E 193K -- -- control A ** ** 0 100 200 300 WT 141K 188E -- % Change in expression after 4-PBA B 76k ABCG2 GAPDH 141K WT -- -- +VRT 325 +VRT 325 27&#b0;C 27&#b0;C D -50 0 100 200 % Change with VRT-325 141K WT * E WT 141K 188E 193K -- -- control +4-PBA WT 141K 188E 193K -- -- Ɗ142 Ɗ142 C 150k 76k ABCG2 GAPDH F Q141K Q141K + VRT-325 ** % Change in C-14 uric acid accumulation as compared to WT 0 20 40 WT + VRT-325 % Change with Corr-4a -50 0 50 100 150 141K WT ** H G WT -- +Corr 4a 76k ABCG2 GAPDH 141K -- +Corr 4a Fig. 5.
X
ABCG2 p.Gln141Lys 23493553:140:378
status: NEWX
ABCG2 p.Gln141Lys 23493553:140:384
status: NEW141 Small-molecule correction of gout-causing Q141K ABCG2 expression defect.
X
ABCG2 p.Gln141Lys 23493553:141:42
status: NEW143 (B) Summary data of 4-PBA rescue of Q141K expression (n = 3-6); 4-PBA has no effect on WT ABCG2 expression (P < 0.28; n = 4) compared with zero.
X
ABCG2 p.Gln141Lys 23493553:143:36
status: NEW149 (G) Western blot and summary data (H) of total Q141K ABCG2 expression rescue by 24-h treatment with 20 bc;M corr-4a (n = 4).
X
ABCG2 p.Gln141Lys 23493553:149:47
status: NEW154 Seeing ABCG2 as an important urate transporter and the Q141K mutation as a loss-of-function mutation led naturally to a comparison with other disease-causing mutations in human ABC transporters, a comparison that lead inevitably to CFTR.
X
ABCG2 p.Gln141Lys 23493553:154:55
status: NEW155 The parallels between the Q141K mutation in ABCG2 and the deletion of the Phe-508 in CFTR, a mutation that occurs in ~90% of all individuals with cystic fibrosis (25), are striking.
X
ABCG2 p.Gln141Lys 23493553:155:26
status: NEW158 Here we tested homologous NBD mutations in Q141K ABCG2 and found the G188E mutation rescued Q141K expression, suggesting the Q141K mutation results in increased ABCG2 NBD instability.
X
ABCG2 p.Gln141Lys 23493553:158:43
status: NEWX
ABCG2 p.Gln141Lys 23493553:158:92
status: NEWX
ABCG2 p.Gln141Lys 23493553:158:125
status: NEW159 Interestingly, the R193K mutation, homologous to the suppressor mutation R555K in CFTR, didn`t increase Q141K ABCG2 expression; but did appear to decrease the insoluble fraction of Q141K protein (Fig. S6D).
X
ABCG2 p.Gln141Lys 23493553:159:104
status: NEWX
ABCG2 p.Gln141Lys 23493553:159:181
status: NEW162 Our CFTR ƊF508 and Q141K ABCG2 comparison also revealed the importance of F142 in ABCG2.
X
ABCG2 p.Gln141Lys 23493553:162:24
status: NEW163 The F142 deletion causes a severe decrease in expression but, unlike the Q141K mutation, the ƊF142 cannot be rescued with temperature or with suppressor mutations.
X
ABCG2 p.Gln141Lys 23493553:163:73
status: NEW177 Interestingly, Basseville et al. (17) recently found that a different suite of HDAC inhibitors rescued Q141K ABCG2 function and expression levels but did not observe any changes in Hsp 70 or Hsp 90 levels.
X
ABCG2 p.Gln141Lys 23493553:177:103
status: NEW184 Thus, the VRT-325 molecule corrects in ƊF508 CFTR the exact defect that we describe here for Q141K ABCG2, and indeed, we found that VRT-325 significantly increased total, dimer, and surface expression of the Q141K protein.
X
ABCG2 p.Gln141Lys 23493553:184:98
status: NEWX
ABCG2 p.Gln141Lys 23493553:184:213
status: NEW186 The success of the VRT-325 and corr-4a molecules in correcting mutant Q141K protein expression clearly demonstrates that a better understanding of the way in which ABCG2 folds and dimerizes can lead to drug discovery of new therapies for gout and hyperuricemia.
X
ABCG2 p.Gln141Lys 23493553:186:70
status: NEW187 Going forward, it will also be important to discern why the Q141K mutation leads to a functional defect, even after expression level is normalized (10, 16), and whether NBD instability reduces binding or hydrolysis of ATP.
X
ABCG2 p.Gln141Lys 23493553:187:60
status: NEW188 Finally, the similarities between ƊF508 CFTR and Q141K ABCG2 extend beyond the work presented here.
X
ABCG2 p.Gln141Lys 23493553:188:54
status: NEW191 For CFTR, the dysfunction of the ƊF508 mutation may provide some protection from cholera infection (54), whereas in ABCG2 the Q141K mutation may persist to increase blood urate levels of particular human populations beyond what even the loss of uricase function achieved.
X
ABCG2 p.Gln141Lys 23493553:191:131
status: NEW239 Furukawa T, et al. (2009) Major SNP (Q141K) variant of human ABC transporter ABCG2 undergoes lysosomal and proteasomal degradations.
X
ABCG2 p.Gln141Lys 23493553:239:37
status: NEW248 Imai Y, et al. (2002) C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 23493553:248:129
status: NEW
PMID: 23544272
[PubMed]
Hinohara Y et al: "No association between MTHFR C677T and serum uric acid levels among Japanese with ABCG2 126QQ and SLC22A12 258WW."
No.
Sentence
Comment
12
Key Words: Serum uric acid, Urate transporter polymorphisms, MTHFR C677T INTRODUCTION It is well known that serum uric acid (SUA) levels are associated with various factors such as sex, age, body mass index (BMI), dietary habit and drinking habit.1-3) In addition, there is evidence that genetic traits influence SUA concentrations; the heritability was estimated to be up to 73%.4) A recent genome-wide association study performed in Japan showed strong associations of SUA with genetic polymorphisms of SLC22A12 coding uric acid transporter 1 (URAT1), Received: January 13, 2013; accepted: January 24, 2013 Corresponding author: Yukako Hinohara MD, MPH Department of Preventive Medicine, Nagoya University Graduate School of Medicine, 65 Tsurumai-cho, Showa-ku, Nagoya 466-8550, Japan Phone: +81 52 744 2132, Fax: +81 52 744 2971, E-mail address: y.hinohara@soumu.go.jp SLC2A9 coding glucose transporter 9 (GLUT9), and ABCG2 coding ATP-binding cassette subfamily G member 2 (ABCG2),5) which were also reported to have associations in European ancestry.6) Among the polymorphisms, SLC22A12 W258X,7,8) SLC2A9 R380W and R198C,9) and ABCG2 Q126X and Q141K10,11) were confirmed to have associations with SUA, although the association of ABCG2 Q141K was relatively weak.
X
ABCG2 p.Gln141Lys 23544272:12:1242
status: NEW
PMID: 23546589
[PubMed]
Takada T et al: "[Transporter-mediated regulation of pharmacokinetics of lifestyle-related substances]."
No.
Sentence
Comment
24
c3f; ⏚ 3fa; c8; e9; f3; b9; dd; fc; bf; fc; ABCG2 IJe; SNPs ad8;c3f;⏚⊈Kc7;fb;Kdb;ba8;ea;b9;af; ˯f;d3b;fd2;᠓Kc5; ௱௺Me5;Ĵc;Ĵb; ad8;c3f;⏚⊈Kc7;ఌKdb;ba8;IJf;,d05;ca2;Kc5;௦a00; ℁İc;Ĵb;ఐ௦IJb;,Pa5;e80;ఌ ad8;d7;ea;f3;bdf;IJe;ᤪbdf;Έe;ɏa;IJa; IJe;Jb0;⌕8e0;IJb;d77;8e0;௳Ĵb;ὃ௨Ĵc;௺ıf;İc;,fd1;e74;IJe; Ẇa76;IJb;ఐĴa;a;f1d;ḄIJa;⌕8e0;IJe;b58;ᙠఊ̙a;ᖂ௯Ĵc;௺ıf;&#ff0e; 2004 e74;,5f0;e7e;IJe;Ẇa76;b0;eb;fc;d7;ఐĴa;,d2;c8;b2c; 4 Cd3; ⁐f53;╩ΊIJb;ʠa;Me5;IJe;Kdb;ba8;Kc5;8e0;a;f1d;b50;İc;b58;ᙠ௳Ĵb;5ef;Pfd;ឋ İc;ᛇȠa;௯Ĵc;ıf;İc;, 26) Xdc;♚9df;IJb;IJf;ɏa;İf;IJe;a;f1d;b50;İc;Ȟb; ije;Ĵc;௺İa;Ĵa;,ᐹf53;ḄIJa;Kc5;8e0;a;f1d;b50;IJf;Ȝc;b9a;௯Ĵc;௺IJa; İb;௷ıf;&#ff0e;ıd;௭,d30;Pde;̳c;e0a;IJb;İa;௺f38;〈9fa;cea;IJe;3fa; IJb;fc2;Ĵf;Ĵb; ABCG2/breast cancer resistance protein (BCRP) a;f1d;b50;İc;௭IJe;♚9df;IJb;b58;ᙠ௳Ĵb;௭, ABCG2 IJb;IJf;a5f;Pfd;᜕4d5;ఔf34;௦ϗb;ea6;IJe; ad8;a;f1d;b50;ɏa;ɂb;İc;b58;ᙠ௳ Ĵb;௭,Ae2;Me5;IJe;f38;〈9fa;cea;IJe;bd4;f03;İb;c3f;⏚IJf; ABCG2 IJe;9fa;cea;IJb;IJa;Ĵa;f97;Ĵb;ὃ௨Ĵc;ıf;௭IJa;IJe;ᳮᵫIJb;ఐ Ĵa;,b46;ὅIJf; ABCG2 IJb;_a2;௳Ĵb;ʳc;a0e;ఔ⍈ఉıf;(௵IJa; ijf;IJb;,ıd;IJe;f8c;IJe; GWAS IJb;İa;௺ఊ⊈e05;c3f;⏚ᎠIJe;᜕ 4d5;IJb;_a2;⌿௳Ĵb;a;f1d;b50;௱௺ ABCG2 IJf;ᛇȠa;௯Ĵc;௺ Ĵb;) &#ff0e; 27&#e30f; 29) ABCG2/BCRP IJf;ıd;IJe;Ȝd;IJe;΅a;Ĵa;,ɏa;ᒐὊឋIJb;_a2;e0e; ௳Ĵb;8e0;b50;௱௺˿a;b;௯Ĵc;ıf;c8;e9;f3;b9;dd;fc;bf;fc;Ĵb; İc;,e83;bc4;IJa;d44;e54;ᑖe03;e83;9fa;cea;a8d;b58;ឋఔᨵ௳Ĵb;௭ İc;b21;b2c;IJb;ʔe;İb;IJa;Ĵa;,Ife;ᙠIJf;ɏa;Ed8;IJa;⌤Fb9;İb;Ẇ a76;İc;⍈ఉĴc;௺Ĵb;&#ff0e;Ae5;ʠc;eba;IJb;İa;௫Ĵb; ABCG2 a;f1d; b50;ɏa;ɂb;IJe;a2;ec;eb;ϗb;ea6;IJf; ad8;İf;,˿a;Ife;[cf;5ca;ఁa5f;Pfd;᜕ᓄఔ f34;Ĵf;IJa; 34G&#ff1e;A(V12M)IJf; 19.2%,bf;f3;d1;af;cea; ˿a;Ife;[cf;İc;d04;Ȗa;ᑖIJb;f4e;e0b;௳Ĵb; 421C&#ff1e;A(Q141K)IJf; 31.9%,d42;b62;b3;c9;f3;İc;˯f;௲a5f;Pfd;b20;ʀd;IJa;Ĵb; 376C&#ff1e;T (Q126X)IJf; 2.8%Ĵb;ᛇȠa;௯Ĵc;௺Ĵb;&#ff0e; 30) ௭Ĵc; IJe;௦௵,ϗb;ea6;İc; ad8;İf;a5f;Pfd;f4e;e0b;ఔf34;௦ 421C&#ff1e;A (Q141K)IJb;௸௺IJf;Qe8;e8a;ḄIJb;ఊఐİf;Ẇa76;௯Ĵc;௺İa; Ĵa;,Uac;ᱥ4d5;ɦb;IJe;᜕4d5;௱௺IJf;,b9;eb;d5;a1;b5;e9;b8;f3;IJe; d88;ᓄba1;ᔾ5ce;IJe;e0a;,ed;b9;d0;b9;bf;c1;f3;ఌd5;eb;d0;b9;bf;c1; f3;IJe;d4c;5e3;ᢗe0e;᧲IJe; AUC(Uac;ᱥ⊈e2d;fc3;ea6;ߟ᧲╹Bf2;dda; e0b;☢a4d;)ఌ Cmax(ᨬ ad8;⊈e2d;fc3;ea6;)IJe;e0a;İc;Yb3;bdf;௯ Ĵc;௺Ĵb;&#ff0e;௭IJe;ఐ௦IJb;,Uac;ᱥc8;e9;f3;b9;dd;fc;bf;fc; ABCG2 IJe;Uac;ᱥ4d5;ɦb;ᑴfa1;8e0;b50;௱௺IJe;[cd;⌕ឋIJf;a8d;b58; ௯Ĵc;௺ıf;ఊIJe;IJe;,d2;c8;IJb;İa;௫Ĵb;˯f;ᳮḄ9fa;cea;ఌ˯f;ᳮ a5f;Pfd;IJb;௸௺IJf;e0d;ʔe;௷ıf;&#ff0e; ABCG2 IJb;ఐĴb;c3f;⏚f38;〈IJb;௸௺ʳc;a0e;௳Ĵb;ıf;ఉ, ABCG2 ˿a;Ife;d30;Pde;İb;abf;Xfd;௱ıf;d30;Pde;̳c;c0f;Pde;ఔᵨıf; f38;〈b9f; a13;ఔʹc;௷ıf;d50;ʧc;,ABCG2 IJf;˯f;ᳮḄfc3;ea6;IJf; bfd;Ȥc;௱IJa; ad8;bb9;[cf;ឋfb;f4e;Yaa;Ȥc;ឋIJe;c3f;⏚f38;〈ఔ>c5;௦௭ İc;ʔe;İb;IJa;௷ıf;(c3f;⏚IJe;eb6;Ye3;ea6;IJe;bd4;f03;Ḅ ad8; ad8; pH e0b;c42;ఉĴc;ıf; Km ᎠIJf; 8.24&#b1;1.44 mM Ĵa;,⊈e05;c3f;⏚Ꭰ(f8b;௨ 7.0 mg/dL&#ff1d;d04; 420 mM) bd4;ఇ௺IJf;Ĵb;İb;IJb; ad8;) &#ff0e; 31) ije;ıf;,᜕ᶒf53;Ye3;᪆IJe;d50; ʧc;,ed6;IJe;f38;〈9fa;cea;Ȝc;Ed8;,c3f;⏚f38;〈IJb;İa;௺ఊ Q141K IJf;a5f;Pfd;İc;Ȗa;e1b;,Q126X IJf;a5f;Pfd;İc;d88;ᜫ௳ Ĵb;௭İc;̙a;௯Ĵc;ıf;&#ff0e; ௸௹௺,Ae5;ʠc;eba;IJe;Ꮙeb7;a3a;Aad;5d7;a3a;ὅIJe;b5;f3;d7;eb;ఔ ᵨ௺,⊈e05;c3f;⏚Ꭰ ABCG2 a;f1d;b50;ɏa;ɂb;IJe;_a2;fc2;IJb; ௸௺ʳc;a0e;௱ıf;d50;ʧc;,Q141K ᜕ᶒIJe;fdd;ᢝᦪİc;ɏa; ijb;,⊈e05;c3f;⏚Ꭰİc;e0a;௱௺ıf;&#ff0e; 31) ije;ıf;,cf;d7;ed; bf;a4;d7;ϗb;ea6;Ye3;᪆IJb;ఐĴa;,Q126X Q141K IJe;e21;᜕ᶒ 4. Proposed Model of ABCG2-mediated Urate Secretion31) 458 Vol. 133 (2013) IJf;Ȝc;௲Cd3;⁐f53;e0a;IJb;IJf;b58;ᙠ௱IJa;௭İc;̙a;௯Ĵc;ıf;&#ff0e;ıd; ௭,e21;᜕ᶒIJe;ϗb;ea6;IJb;௸௺Ae5;ʠc;eba;ᵱឋIJe;Kdb;ba8;Kc7;f8b; Ꮙe38;ὅbd4;f03;௱ıf;d50;ʧc;,Q126X Q141K IJe;d44;ijf; ᔠĴf;ıb;İb;?a8;b9a;௯Ĵc;Ĵb;c3f;⏚f38;〈d3b;ឋIJe;f4e;e0b;IJb;f34;, aa;c3;ba;bd4;̙a;௯Ĵc;Ĵb;Kdb;ba8;˿a;Kc7;ea;b9;af;İc;♿℉IJb; ad8;ije;Ĵb; ௭ İc; ʔe; İb; IJa; ௷ ıf; &#ff0e; 31) ௭ Ĵc; IJe; d50; ʧc; IJf; , ABCG2 İc;˯f;f53;ᑁIJb;İa;௫Ĵb;c3f;⏚IJe;f53;ఆIJe;cc4;IJb;_a2; e0e;௱௺İa;Ĵa;,ıd;IJe;a5f;Pfd;f4e;e0b;IJf;⊈e05;c3f;⏚Ꭰ31,32)5ca;ఁKdb; ba8;˿a;Kc7;ea;b9;af;31)IJe;e0a;ఔఊıf;௳௭ఔ̙a;௳ఊIJe; ௷ıf;&#ff0e;ABCG2 IJf;̩d;Qd3;,̮e;Qd3;,c0f;ῲIJa;IJe;♊aef;̳c; IJb;˿a;Ife;௱,f38;〈9fa;cea;IJe;f53;ఆIJe;3fa;IJb;fc2;Ĵf;Ĵb;௭İc; Me5;Ĵc;௺Ĵb;௭,c3f;⏚IJf;c3f;e2d;IJe;ijf;IJa;ıa;cde;e2d;IJb;ఊ cc4; ௯ Ĵc; Ĵb; ௭ İc; ᛇ Ƞa; ௯ Ĵc; ௺ ıf; ௭ İb; , ABCG2 IJf;௭Ĵc;IJe;d44;e54;İb;IJe;c3f;⏚ᑖccc;IJb;_a2;e0e;௱௺ Ĵb;5ef;Pfd;ឋİc;ὃ௨Ĵc;ıf;(Fig. 4) &#ff0e; 31) 5-2.
X
ABCG2 p.Gln141Lys 23546589:24:3788
status: NEWX
ABCG2 p.Gln141Lys 23546589:24:4178
status: NEWX
ABCG2 p.Gln141Lys 23546589:24:6626
status: NEWX
ABCG2 p.Gln141Lys 23546589:24:7157
status: NEWX
ABCG2 p.Gln141Lys 23546589:24:7460
status: NEWX
ABCG2 p.Gln141Lys 23546589:24:7982
status: NEW
PMID: 23552988
[PubMed]
Zhang L et al: "Association of functional polymorphism rs2231142 (Q141K) in the ABCG2 gene with serum uric acid and gout in 4 US populations: the PAGE Study."
No.
Sentence
Comment
2
A loss-of-function mutation (Q141K, rs2231142) in the ATP-binding cassette, subfamily G, member 2 gene (ABCG2) has been shown to be associated with serum uric acid levels and gout in Asians, Europeans, and European and African Americans; however, less is known about these associations in other populations.
X
ABCG2 p.Gln141Lys 23552988:2:29
status: NEW27 More importantly, the resultant missense polymorphism at codon 141 (glutamine to lysine, Q141K) has been shown to be a loss-of-function mutation in 2 independent functional studies (22, 23).
X
ABCG2 p.Gln141Lys 23552988:27:63
status: NEWX
ABCG2 p.Gln141Lys 23552988:27:89
status: NEW134 DISCUSSION In a meta-analysis of 39,853 persons from 4 different population-based samples (European Americans, African Americans, Mexican Americans, and American Indians), we demonstrated that the functional variant rs2231142 (Q141K) in the ABCG2 gene was significantly associated with both serum uric acid level (P = 2.37 &#d7; 10-67 , P = 3.98 &#d7; 10-5 , P = 6.97 &#d7; 10-9 , and P = 5.33 &#d7; 10-4 in European Americans, African Americans, Mexican Americans, and American Indians, respectively) and the odds of Table 3.
X
ABCG2 p.Gln141Lys 23552988:134:227
status: NEW148 The Q141K (rs2231142) polymorphism occurs in a highly conserved region of the gene and has been shown to be a loss-of-function mutation in 2 independent functional studies (22, 23).
X
ABCG2 p.Gln141Lys 23552988:148:4
status: NEW156 systems are reflective of the human kidney, one might expect that the consequence of the Q141K loss-of-function polymorphism would be relatively less in persons with high estrogen levels (they had decreased ABCG2 mRNA expression to begin with) compared with those with low estrogen levels.
X
ABCG2 p.Gln141Lys 23552988:156:89
status: NEW176 Lastly, the Q141K variant is a well-studied functional polymorphism, thus providing a strong a priori hypothesis and biological plausibility.
X
ABCG2 p.Gln141Lys 23552988:176:12
status: NEW178 In conclusion, the common polymorphism rs2231142, which leads to a change from glutamine to lysine in codon 141 (Q141K) of the ABCG2 gene, is significantly associated with elevated serum uric acid levels and increased prevalence of gout in European Americans, African Americans, Mexican Americans, and Americans Indians.
X
ABCG2 p.Gln141Lys 23552988:178:79
status: NEWX
ABCG2 p.Gln141Lys 23552988:178:113
status: NEW
PMID: 23616064
[PubMed]
Gervasoni C et al: "Levofloxacin-induced seizures in a patient without predisposing risk factors: the impact of pharmacogenetics."
No.
Sentence
Comment
43
This drug can readily cross the BBB [3], Table 1 Genotyping analyses performed in our case Protein Gene Variant Database SNP ID AA substitution MAFa Case genotypeb Functional effect of the variant P-glycoprotein 1 ABCB1 c.1236C>T rs1128503 T=0.451 CT Controversial results P-glycoprotein 1 ABCB1 c.2677G>T rs2032582 Ala893Ser T=0.469 GT Altered P-gp activity and expression P-glycoprotein 1 ABCB1 c.3435T>C rs1045642 C=0.429 TC Decreased mRNA and protein levels BCRP ABCG2 c.421C>A rs2231142 Gln141Lys A=0.111 CA Decreased protein levels OATP1A2 SLCO1A2 c.38T>C rs10841795 Ile13Thr C=0.159 TT Increased protein function OATP1A2 SLCO1A2 c.516A>C rs11568563 Glu172Asp C=0.083 AA Decreased protein function SNP, Single nucleotide polymorphism a Minor allele frequency in the CEU population of the International HapMap Project b All genotypes of our case were determined by Real Time PCR, using the TaqMan&#ae; SNP Genotyping Assays (Applied Biosystems, Foster City, CA) or SimpleProbe Assays (Roche, Italy) Eur J Clin Pharmacol (2013) 69:1611-1613 and thus its effect in the CNS can be rapidly observed.
X
ABCG2 p.Gln141Lys 23616064:43:492
status: NEW
PMID: 23635651
[PubMed]
Tiwari AK et al: "Overlapping functions of ABC transporters in topotecan disposition as determined in gene knockout mouse models."
No.
Sentence
Comment
232
With respect to the latter, a pilot study indicated that the presence of single-nucleotide polymorphisms (SNP) in ABCG2 Q141K (ABCG2 421C>A) in a cohort of patients with cancer significantly altered topotecan bioavailability and increased plasma AUC by 1.35-fold (34).
X
ABCG2 p.Gln141Lys 23635651:232:120
status: NEW
PMID: 23665398
[PubMed]
Dankers AC et al: "Hyperuricemia influences tryptophan metabolism via inhibition of multidrug resistance protein 4 (MRP4) and breast cancer resistance protein (BCRP)."
No.
Sentence
Comment
37
The vital role of transporters in uric acid homeostasis can clearly be observed in patients suffering from hyperuricemia due to single nucleotide polymorphisms (SNPs) that render the transporters inactive, such as the common SNP C421A encoding the Q141K mutation of BCRP [21,22,24] and several genetic variants for SLC2A9 [19].
X
ABCG2 p.Gln141Lys 23665398:37:248
status: NEW224 For instance, Woodward et al. [22], described that the common single nucleotide polymorphism (SNP) rs2231142 encoding the Q141K mutation of BCRP caused hyperuricemia-based gout.
X
ABCG2 p.Gln141Lys 23665398:224:122
status: NEW225 Also in a Japanese population, Q141K was shown to be a common dysfunctional form of BCRP causing gout [21].
X
ABCG2 p.Gln141Lys 23665398:225:31
status: NEW
PMID: 23716542
[PubMed]
Shinohara Y et al: "A multicenter clinical study evaluating the confirmed complete molecular response rate in imatinib-treated patients with chronic phase chronic myeloid leukemia by using the international scale of real-time quantitative polymerase chain reaction."
No.
Sentence
Comment
223
Imai Y, Nakane M, Kage K, Tsukahara S, Ishikawa E, Tsuruo T, et al. C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 23716542:223:175
status: NEW
PMID: 23774753
[PubMed]
Matsuo H et al: "Common dysfunctional variants in ABCG2 are a major cause of early-onset gout."
No.
Sentence
Comment
17
We also showed that genotyping of only two dysfunctional variants, Q126X (rs72552713) and Q141K (rs2231142), is sufficient to estimate the severity of ABCG2 dysfunction; i.e. full function, 3/4 function (mild dysfunction), 1/2 function (moderate dysfunction), and # 1/4 function (severe dysfunction).
X
ABCG2 p.Gln141Lys 23774753:17:90
status: NEW39 Table 1 | ABCG2 functions of participants Estimated Function Genotype Combination Number (%) Q126X* (rs72552713) Q141K* (rs2231142) Gout Control #1/4 function T/T C/C 37 (5.2) 22 (1.2) T/C C/A 1/2 function T/C C/C 169 (24.0) 219 (11.6) C/C A/A 3/4 function C/C C/A 331 (47.0) 699 (37.0) Full function C/C C/C 168 (23.8) 947 (50.2) Total 705 (100.0) 1,887 (100.0) * Risk alleles (T for Q126X, A for Q141K) are indicated in bold type at four locations, respectively.
X
ABCG2 p.Gln141Lys 23774753:39:398
status: NEW73 Genotyping of Q126X (rs72552713) and Q141K (rs2231142) in ABCG2 gene by high-resolution melting (HRM) analysis was performed with a LightCycler 480 (Roche Diagnostics)41 .
X
ABCG2 p.Gln141Lys 23774753:73:37
status: NEW
PMID: 23800412
[PubMed]
Saranko H et al: "Effects of the gout-causing Q141K polymorphism and a CFTR DeltaF508 mimicking mutation on the processing and stability of the ABCG2 protein."
No.
Sentence
Comment
0
Effects of the gout-causing Q141K polymorphism and a CFTR DF508 mimicking mutation on the processing and stability of the ABCG2 protein Hajnalka Sarank&#f3; a,b,1 , Hedvig Tordai b,1 , &#c1;gnes Telbisz c , Csilla &#d6;zvegy-Laczka d , G&#e1;bor Erd} os a,b , Bal&#e1;zs Sarkadi b,c,d , Tam&#e1;s Heged} us a,b,d1; a MTA-SE Molecular Biophysics Research Group, Budapest, Hungary b Department of Biophysics and Radiation Biology, Semmelweis University, Budapest, Hungary c Institute of Molecular Pharmacology, Research Centre for Natural Sciences, Hungarian Academy of Sciences, Budapest, Hungary d National Blood Center, Budapest, Hungary a r t i c l e i n f o Article history: Received 12 June 2013 Available online 22 June 2013 Keywords: ABCG2 Polymorphism Gout Cystic fibrosis Stability Structure a b s t r a c t ABCG2 is an important multidrug transporter involved also in urate transport, thus its mutations can lead to the development of gout and may also alter general drug absorption, distribution and excretion.
X
ABCG2 p.Gln141Lys 23800412:0:28
status: NEW1 The frequent ABCG2 polymorphism, Q141K, is associated with an elevated risk of gout and has been controversially reported to reduce the plasma membrane expression and/or the transport function of the protein.
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ABCG2 p.Gln141Lys 23800412:1:33
status: NEW2 In the present work we examined the stability and cellular processing of the Q141K ABCG2 variant, as well as that of the DF142 ABCG2, corresponding to the DF508 mutation in the CFTR (ABCC7) protein, causing cystic fibrosis.
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ABCG2 p.Gln141Lys 23800412:2:77
status: NEW6 We find that the Q141K variant has a mild processing defect which can be rescued by low temperature, a slightly reduced activity, and a mild folding defect, especially affecting the NBD.
X
ABCG2 p.Gln141Lys 23800412:6:17
status: NEW26 A frequent SNP in the ABCG2 gene produces a Q141K variant [5] of the protein.
X
ABCG2 p.Gln141Lys 23800412:26:44
status: NEW28 The Q141K variation has been reported to result in altered processing and a less efficient substrate transport by ABCG2 [6-8].
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ABCG2 p.Gln141Lys 23800412:28:4
status: NEW29 Expression of ABCG2 variants in single gene copy systems suggested that the Q141K variant has a reduced plasma membrane expression level and increased intracellular concentration [9,10].
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ABCG2 p.Gln141Lys 23800412:29:76
status: NEW30 In order to rescue the Q141K variant phenotype, which may be relevant in preventing gout and increasing protection against xenobiotics, the molecular details associated with this amino acid change have to be explored.
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ABCG2 p.Gln141Lys 23800412:30:23
status: NEW31 The Q141K change is located in the NBD of ABCG2, adjacent to F142, which has an analogous position to F508 of the CFTR (ABCC7) protein (Figs.
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ABCG2 p.Gln141Lys 23800412:31:4
status: NEW34 Therefore it has been suggested that the ABCG2 Q141K variant may cause similar changes to the DF508 mutation, disrupting the interface between the NBD and the TMD [2,11].
X
ABCG2 p.Gln141Lys 23800412:34:47
status: NEW40 In the present study we compared the biochemical properties of the wild-type ABCG2 to those of the Q141K variant and the DF142 mutation.
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ABCG2 p.Gln141Lys 23800412:40:99
status: NEW43 Our results indicate that the Q141K polymorphism reduces the efficient processing and membrane targeting, while has only a mild effect on the structure and function of ABCG2.
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ABCG2 p.Gln141Lys 23800412:43:30
status: NEW80 The Q141K variant localizes to the plasma membrane, in contrast to the DF142 mutant In order to examine the effects of Q141K and DF142 alterations on the ABCG2 protein expression and localization, we transiently expressed these constructs in HEK cells.
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ABCG2 p.Gln141Lys 23800412:80:4
status: NEWX
ABCG2 p.Gln141Lys 23800412:80:119
status: NEW82 As shown in Fig. 1A, the Q141K variant exhibited significant level of maturation, although the amount of the fully glycosylated form was significantly lower, compared to that of the wild type ABCG2.
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ABCG2 p.Gln141Lys 23800412:82:25
status: NEW87 Both the wild type and Q141K ABCG2 were found to be expressed mostly in the plasma membrane, although the Q141K variant exhibited a higher level of intracellular staining (Fig. 1B).
X
ABCG2 p.Gln141Lys 23800412:87:23
status: NEWX
ABCG2 p.Gln141Lys 23800412:87:106
status: NEW90 These experiments confirmed lower cell surface expression of the Q141K variant compared to the wild type, whereas cells expressing the DF142 mutant did not bind the 5D3 antibody.
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ABCG2 p.Gln141Lys 23800412:90:65
status: NEW91 Our results demonstrate that the effect of the Q141K variation causes a milder phenotype in ABCG2 than the DF142 mutation, while this latter mutation results in an expression deficiency similar to that of DF508 CFTR.
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ABCG2 p.Gln141Lys 23800412:91:47
status: NEW93 Phenylbutyrate treatment increases the level of mature WT and Q141K ABCG2, while do not rescue DF142 ABCG2 To evaluate the potential folding and trafficking deficiency of the ABCG2 Q141K and DF142 proteins, their expression was characterized under more permissive conditions.
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ABCG2 p.Gln141Lys 23800412:93:62
status: NEWX
ABCG2 p.Gln141Lys 23800412:93:181
status: NEW97 As shown in Fig. 2, in transiently transfected HEK cells the level of the wild type and the Q141K proteins slightly decreased at low temperature (Fig. 2), indicating the adverse effect of low temperature on protein synthesis.
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ABCG2 p.Gln141Lys 23800412:97:92
status: NEW100 Expression of ABCG2 WT, Q141K, and DF142 constructs in HEK cells.
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ABCG2 p.Gln141Lys 23800412:100:24
status: NEW120 Interestingly, one of the rescue mutations, G188E has been reported to promote Q141K maturation [11].
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ABCG2 p.Gln141Lys 23800412:120:79
status: NEW121 Most likely, similarly to the homologous CFTR G550E [13,21], this mutation increases the thermostability of NBD in an extent that is sufficient to counteract the effect of the mild Q141K mutation, but not that of the DF142.
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ABCG2 p.Gln141Lys 23800412:121:181
status: NEW128 The Q141K NBD is more stable than the DF142 NBD, indicated by limited proteolysis experiments Since the quality control system in insect cells is less stringent than in mammalian cells, Sf9 cells were used to express the Q141K, DF142, and WT ABCG2 for functional and biochemical studies.
X
ABCG2 p.Gln141Lys 23800412:128:4
status: NEWX
ABCG2 p.Gln141Lys 23800412:128:221
status: NEW129 In Sf9 cells the expression levels of the wild type and the Q141K ABCG2 variant were similar, while the expression of the deletion mutant was significantly lower (Fig. 3A).
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ABCG2 p.Gln141Lys 23800412:129:60
status: NEW130 The vanadate sensitive ATPase activity of the Q141K variant in isolated Sf9 membrane was approximately 70% of that of the wild type protein ([8] and Fig. S6A).
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ABCG2 p.Gln141Lys 23800412:130:46
status: NEW134 Membranes expressing Q141K, DF142, and WT ABCG2 were Table 1 Cell surface expression of the ABCG2 constructs quantitated by flow cytometry.
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ABCG2 p.Gln141Lys 23800412:134:21
status: NEW135 Geometric mean values HEK parent EGFP only ABCG2 WT ABCG2 Q141K ABCG2 DF142 ABCG2 3R ABCG2DF142 3R Isotype control 7.5 7.6 7.3 7.2 7 8.4 7 Isotype control + Ko143 6.99 7.3 7.3 7.1 7 8.3 7.44 5D3 9.45 12 110 78 10 146 8.4 5D3 + Ko143 30 29.5 210 150 27 152 27.4 Transfection efficiency EGFP FL1 0% 85% 93% 89% 89% 83% 89% Fig. 2.
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ABCG2 p.Gln141Lys 23800412:135:58
status: NEW150 Although the rate of Q141K degradation was somewhat greater than that of the WT, it was clearly smaller than the rate of the DF142 fragment.
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ABCG2 p.Gln141Lys 23800412:150:21
status: NEW153 (A) WT and Q141K ABCG2 are expressed at similar levels in membranes isolated from Sf9 insect cells, as detected by Western blotting using the BXP-21 antibody at 60 kDa.
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ABCG2 p.Gln141Lys 23800412:153:11
status: NEW162 (A) Far UV CD spectra of WT, Q141K, and DF142 NBD fused to MBP, expressed in and isolated from E. coli.
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ABCG2 p.Gln141Lys 23800412:162:29
status: NEW164 (B) Thermal unfolding of isolated MBP-fused NBD constructs was followed by measuring CD at 222 nm between 20 &#b0;C and 90 &#b0;C. Q141K variant may also be caused by a potential extra trypsin cleavage site introduced by the Q141K variation [11].
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ABCG2 p.Gln141Lys 23800412:164:133
status: NEWX
ABCG2 p.Gln141Lys 23800412:164:227
status: NEW166 The thermal stability of the isolated Q141K NBD is similar to the WT, in contrast to the DF142 To identify the effects of the amino acid changes on the NBD conformation and dynamics, isolated NBD constructs fused to MBP, were purified from bacteria (the MBP could not be removed because of a rapid precipitation of the isolated NBDs).
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ABCG2 p.Gln141Lys 23800412:166:38
status: NEW172 We found that the melting curve of the Q141K variant was similar to that of the wild type, while the melting profile of the DF142 differed significantly.
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ABCG2 p.Gln141Lys 23800412:172:39
status: NEW173 As a summary, we found that the ABCG2 Q141K variant is expressed in the plasma membrane at a lower level and with a somewhat decreased function, as compared to the wild type protein.
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ABCG2 p.Gln141Lys 23800412:173:38
status: NEW175 While the Q141K variation is located in a position adjacent to the F508 in CFTR, their structural roles and functions are significantly different based on our experiments and in silico analysis (Fig. S2).
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ABCG2 p.Gln141Lys 23800412:175:10
status: NEW177 Moreover, studies focusing on positions similar to the ABCG2 Q141K variant in other ABC transporters may help to understand alterations at the protein level in various diseases, and promote the development of successful treatments.
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ABCG2 p.Gln141Lys 23800412:177:61
status: NEW
PMID: 23827224
[PubMed]
Feher A et al: "Association between the ABCG2 C421A polymorphism and Alzheimer's disease."
No.
Sentence
Comment
39
The C421A non-synonymous single nucleotide polymorphism (/SNP/Q141K, rs2231142) of the ABCG2 gene is reportedly associated with lower levels of protein expression, impaired transport, and enhanced susceptibility to ubiquitin-mediated proteosomal degradation [12,15,16,23,24].
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ABCG2 p.Gln141Lys 23827224:39:62
status: NEW
PMID: 23935829
[PubMed]
Xie Y et al: "Serum uric acid and non-alcoholic fatty liver disease in non-diabetic Chinese men."
No.
Sentence
Comment
5
A stepwise multivariate linear regression analysis (R2 = 0.238, P,0.001) retained age, waist circumference, serum creatinine, triglycerides, the Q141K variant in ABCG2 (rs2231142) and NAFLD as significant predictors of SUA levels (all P,0.001).
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ABCG2 p.Gln141Lys 23935829:5:145
status: NEW88 Among all subjects, a final constructed model using a stepwise method (probability to enter #0.05; to remove $0.10), found age (b = 20.11, 95% CI 20.16 to 20.06), WC (b = 0.17, 95% CI 0.11-0.23), NAFLD (b = 0.15, 95% CI 0.09-0.21), log-transformed serum creatinine (b = 0.29, 95% CI, 0.24-0.34) and triglycerides (b = 0.11, 95% CI 0.05-0.16), as well as the Q141K variant in ABCG2 gene (b = 0.12, 95% CI 0.07-0.17) as significant predictors (all P,0.001) of the logarithm of SUA levels (R2 = 0.238, P,0.001).
X
ABCG2 p.Gln141Lys 23935829:88:358
status: NEW112 Our present result also suggested that the Q141K variant in ABCG2, leads to variable degree of SUA concentration in men, in conceptual agreement with the ABCG2`s function of altering uric acid transport in kidney proximal tubule cell and excretion in liver via the biliary system [37].
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ABCG2 p.Gln141Lys 23935829:112:43
status: NEW137 SUA are interrelated with age, waist circumference, NAFLD, creatinine, triglycerides, and the Q141K variant in ABCG2 in non-diabetic Chinese men.
X
ABCG2 p.Gln141Lys 23935829:137:94
status: NEW
PMID: 23967177
[PubMed]
Bhullar J et al: "The FLT3 inhibitor quizartinib inhibits ABCG2 at pharmacologically relevant concentrations, with implications for both chemosensitization and adverse drug interactions."
No.
Sentence
Comment
159
ABCG2 has been found to be a urate efflux transporter, with increased incidence of both hyperuricemia and gout in association with the Q141K ABCG2 single nucleoside polymorphism, which results in decreased urate transport [69].
X
ABCG2 p.Gln141Lys 23967177:159:135
status: NEW
PMID: 24013576
[PubMed]
Kim HR et al: "Pharmacogenetic determinants associated with sunitinib-induced toxicity and ethnic difference in Korean metastatic renal cell carcinoma patients."
No.
Sentence
Comment
97
With the median 23.8 (range 1.1-57.9) months of TableÊf;1ߒߙPolymorphism genotyped in the pharmacokinetic and pharmacodynamic pathways of sunitinib Gene rs number Polymorphism Region CYP1A1 Cytochrome P450 1A1 rs1048943 2,455 A>G Non-synonymous I462V CYP3A5 Cytochrome P450 3A5 rs776746 219-237 A>G Intron ABCB1 ATP binding cassette member B1 rs1128503 1,236 C>T Synonymous G412G rs2032582 2,677 G>T/A Non-synonymous A893S/T rs1045642 3,435 C>T Synonymous I1145I ABCG2 (BCRP) ATP binding cassette member G2 rs2231142 421 C>A Non-synonymous Q141K PDGFRb1; Platelet-derived growth factor receptor rs1800812 -537 G>T Promoter rs35597368 1,580 C>T Non-synonymous P478S VEGFR2 (KDR) Vascular endothelial growth factor receptors rs2305948 889 G>A Non-synonymous V297I rs1870377 1,416 T>A Non-synonymous H472Q RET Ret proto-oncogene rs1799939 2,071 G>A Non-synonymous G691S FLT3 Fms-like tyrosine kinase 3 receptor rs1933437 680 C>T Non-synonymous T227M follow-up, the median number of treatment cycle was 7 (range 1-38).
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ABCG2 p.Gln141Lys 24013576:97:555
status: NEW113 Among the 12 candidate SNPs, the ABCG2 421C>A (Q141K) polymorphism showed a strong association with sunitinib-related toxicity, especially HFS, at the allele frequency level.
X
ABCG2 p.Gln141Lys 24013576:113:47
status: NEW125 TableÊf;3ߒߙDistribution of toxicity during first cycle a ߒ Toxicities were evaluated by NCI-CTC version 3.0 b ߒ "No" represents grade 0,1, or 2 toxicities c ߒ "Yes" represents grade 3 or 4 toxicities Toxicity gradea No % Thrombocytopenia 30 46.2 1 1 1.5 2 5 7.7 3 23 35.4 4 1 1.5 Neutropenia 30 46.2 1 8 12.3 2 10 15.4 3 11 16.9 4 1 1.5 Anemia 21 32.3 1 11 16.9 2 5 7.7 3 5 7.7 4 0 0 Any hematologic toxicity >grade 2 Nob 38 58.4 Yesc 27 41.6 Hand-foot syndrome 33 50.8 1 15 23.1 2 10 15.4 3 8 12.3 4 0 0 TableÊf;4ߒߙAssociation of each genetic variation with sunitinib-related toxicity in mRCC patients Gene name; polymorphic site, allele; amino acid; rs number Polymorphism Minor Thrombocytopenia Neutropenia Anemia Hand-foot syndrome Allele Odds ratio 95 % CI P value Odds ratio 95 % CI P value Odds ratio 95 % CI P value Odds ratio 95 % CI P value CYP1A1 c.2,455 A>G I462V G 0.6 0.24-1.49 0.27 0.45 0.12-1.64 0.22 0.61 0.14-2.54 0.44 1.22 0.36-4.13 0.75 CYP3A5 c.219-237 A>G Intron 3 A 0.42 0.17-1.08 0.07 0.60 0.19-1.92 0.39 1.46 0.35-6.03 0.69 0.43 0.09-2.00 0.36 ABCB1 c.1,236 C>T G412G C 1.12 0.54-2.31 0.77 0.56 0.21-1.46 0.23 1.0 0.26-3.73 0.63 0.65 0.21-1.99 0.45 ABCB1 c.2,677 G>T/A A893S/T T 1.00 0.48-2.11 0.99 1.12 0.45-2.80 0.81 0.29 0.06-1.45 0.18 1.11 0.37-3.28 0.85 ABCB1 c.3,435 C>T I1145I T 0.87 0.41-1.83 0.71 0.89 0.35-2.28 0.82 0.33 0.08-1.25 0.16 1.11 0.38-3.28 0.85 ABCG2 c.421 C>A Q141K A 1.74 0.81-3.75 0.15 1.89 0.76-4.75 0.17 1.85 0.38-9.14 0.72 6.76 2.16-21.13 0.00003 PDGFRb1; -573G>T Promoter T 0.508 0.19-1.38 0.18 0.347 0.076-1.590 0.244 2.04 0.24-16.95 0.69 0.264 0.03-2.10 0.302 PDGFRb1; c.1,580 C>T P478S C 0.638 0.23-1.77 0.386 0.416 0.090-1.923 0.362 1.80 0.22-15.01 0.49 0.313 0.04-2.51 0.467 VEGFR2 c.889 G>A V297I A 0.48 0.15-1.58 0.22 0.25 0.03-1.94 0.19 1.09 0.92-1.16 0.35 2.59 0.73-9.23 0.23 VEGFR2 c.1,416 T>A H472Q T 0.87 0.42-1.79 0.70 0.89 0.37-2.20 0.81 1.84 0.45-7.48 0.514 1.33 0.47-3.78 0.59 RET c.2,071 G>A G691S A 0.68 0.22-2.06 0.49 2.88 0.94-8.78 0.09 0.57 0.11-2.94 0.61 2.59 0.73-9.22 0.23 FLT3 c.680 C>T T227M C 1.24 0.57-2.71 0.59 1.671 0.658-4.246 0.277 0.56 0.15-2.14 0.46 0.818 0.25-2.72 1 Pharmacogenetic determinants for sunitinib treatment outcomes Among the 12 single-nucleotide polymorphisms in 8 candidate genes, only a few polymorphisms from pharmacodynamic genes were associated with OS.
X
ABCG2 p.Gln141Lys 24013576:125:1477
status: NEW132 This finding implicates that patients with Q141K variation of ABCG2 show reduced ABCG2 transporter activity.
X
ABCG2 p.Gln141Lys 24013576:132:43
status: NEW142 Total and surface protein in the Q141K mutant transfected cells was decreased compared with those in the wild-type ABCG2 cells.
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ABCG2 p.Gln141Lys 24013576:142:33
status: NEW161 Our in vitro data as well as previous data demonstrated that the non-synonymous SNP of ABCG2 421 C>A, which causes a glutamine-to-lysine amino acid substitution at position141 (Q141K), has been associated with markedly decreased levels of ABCG2 protein expression and/or activity [23, 31, 32].
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ABCG2 p.Gln141Lys 24013576:161:177
status: NEW
PMID: 24021215
[PubMed]
Stacy AE et al: "Molecular pharmacology of ABCG2 and its role in chemoresistance."
No.
Sentence
Comment
40
The two most frequent polymorphisms identified were the G34A (resulting in V12M) and C421A (resulting in a Q141K substitution) transitions (Fig. 3), found in 18 and 35.5% of the studied population, respectively (Kobayashi et al., 2005).
X
ABCG2 p.Gln141Lys 24021215:40:107
status: NEW46 This was not corroborated by Morisaki et al. (2005), who found that cells with the Q141K variant of ABCG2 had IC50 values 1.2-to 5-fold lower than cells transfected with wild-type (Arg482) ABCG2, suggesting that the Q141K SNP affects drug transport (Morisaki et al., 2005).
X
ABCG2 p.Gln141Lys 24021215:46:83
status: NEWX
ABCG2 p.Gln141Lys 24021215:46:216
status: NEW47 Recently, studies aimed at evaluating the clinical relevance of the Q141K SNP in patients undergoing chemotherapy have also been reported.
X
ABCG2 p.Gln141Lys 24021215:47:68
status: NEW50 Additionally, the Q141K mutation has been demonstrated to decrease ATPase activity by 1.3-fold compared with wild-type ABCG2 (Mizuarai et al., 2004).
X
ABCG2 p.Gln141Lys 24021215:50:18
status: NEW51 Furthermore, kinetic analysis of ATPase activity showed that the Km value in Q141K cells was 1.4-fold higher than that of wild-type ABCG2 (Mizuarai et al., 2004).
X
ABCG2 p.Gln141Lys 24021215:51:77
status: NEW79 Val12M and Q141K are SNPs thought to affect the pharmacokinetics of ABCG2 substrates.
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ABCG2 p.Gln141Lys 24021215:79:11
status: NEW
PMID: 24287461
[PubMed]
Ishikawa T et al: "Metabolic Interactions of Purine Derivatives with Human ABC Transporter ABCG2: Genetic Testing to Assess Gout Risk."
No.
Sentence
Comment
81
The SNP 421C>A is a non-synonymous polymorphism that leads to amino acid substitution; Gln to Lys (Q141K) in the intracellular loop containing an ATP-binding cassette (ABC).
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ABCG2 p.Gln141Lys 24287461:81:99
status: NEW82 608 592 603 592 Extracellular loop Outside Inside Plasma membrane 596 N-linked glycan Asn Cys ATP-binding cassette (ABC) Q141K Q141K 608 592 603 592 Extracellular loop Outside Inside Plasma membrane 596 N-linked glycan Asn Cys ATP-binding cassette (ABC) 608 592 603 592 Extracellular loop Outside Inside Plasma membrane 596 N-linked glycan Asn Cys 608 592 603 592 Extracellular loop Outside Inside Plasma membrane 596 N-linked glycan Asn Cys N-linked glycan Asn Cys ATP-binding cassette (ABC) Q141K Q141K ABCG2 expressed on the apical side of the proximal tubular cells in human kidney plays a pivotal role in renal excretion of serum uric acid.
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ABCG2 p.Gln141Lys 24287461:82:121
status: NEWX
ABCG2 p.Gln141Lys 24287461:82:127
status: NEWX
ABCG2 p.Gln141Lys 24287461:82:493
status: NEWX
ABCG2 p.Gln141Lys 24287461:82:499
status: NEW83 Introduction of the mutation Q141K encoded by the common SNP (rs2231142) by site-directed mutagenesis resulted in 53% reduced urate transport rates compared to wild-type ABCG2 (p < 0.001).
X
ABCG2 p.Gln141Lys 24287461:83:29
status: NEW84 The expression levels of the Q141K variant are reduced by ubiquitin-mediated proteasomal degradation [31-34] (Figure 5).
X
ABCG2 p.Gln141Lys 24287461:84:29
status: NEW85 Thus, renal excretion of serum uric acid via ABCG2 is impaired in persons who are carrying the 421A allele (Q141K variant).
X
ABCG2 p.Gln141Lys 24287461:85:108
status: NEW88 Effect of the SNP variant (Q141K) on the protein expression level and degradation of ABCG2.
X
ABCG2 p.Gln141Lys 24287461:88:27
status: NEW90 To assess the effect of Q141K variant on the protein expression level, Flp-In-293 cells expressing WT and the Q141K variant were incubated in the absence or presence of MG132 (2 bc;M) for 24 h. ABCG2 WT and Q141 variant proteins were analyzed by immunoblotting with the ABCG2-specific monoclonal antibody (BXP-21) after PNGase F treatment.
X
ABCG2 p.Gln141Lys 24287461:90:24
status: NEWX
ABCG2 p.Gln141Lys 24287461:90:110
status: NEW94 (B) Correctly processed ABCG2 WT protein is destined to reach the plasma membrane and is then degraded by the endosome-lysosome pathway after remaining in the plasma membrane domain for a certain period. In contrast, the ABCG2 Q141K variant protein is recognized as a misfolded form and then undergoes ubiquitination-mediated proteasomal degradation. Bafilomycin A1 (BMA) and MG132 inhibit lysosomal and proteasomal degradation, respectively.
X
ABCG2 p.Gln141Lys 24287461:94:227
status: NEW95 Golgi Endosome ER Plasma membrane Folded ABCG2 Mature ABCG2 ATP ATP N N N C C Misfolded ABCG2 E3 E3 Ubiquitin Ubiquitin ligase Proteasome MG132 Cis Medial Trans CNX PDI Dol-P-P- Dol-P-P- BiP Chaperone proteins Ribosomes ERGIC Lysosome BMA H+ H+ Control MG132 Relative expression level 0 0.5 1.0 Lys141 (Q141K) Gln141 (WT) * Control MG132 Relative expression level 0 0.5 1.0 Lys141 (Q141K) Gln141 (WT) * A B 6.
X
ABCG2 p.Gln141Lys 24287461:95:303
status: NEWX
ABCG2 p.Gln141Lys 24287461:95:382
status: NEW108 The allele frequencies of 421C (WT) and 421A (Q141K) among different ethnic populations.
X
ABCG2 p.Gln141Lys 24287461:108:46
status: NEW110 0 0.2 0.4 0.6 0.8 1 African African-American Mexican-American Caucasian Japanese Chinese ABCG2 allele frequency 421C (WT) 421A (Q141K) 0 0.2 0.4 0.6 0.8 1 0 0.2 0.4 0.6 0.8 1 - - 0 0.2 0.4 0.6 0.8 1 0 0.2 0.4 0.6 0.8 1 African African-American Mexican-American Caucasian Japanese Chinese ABCG2 allele frequency 421C (WT) 421A (Q141K) 0 0.2 0.4 0.6 0.8 1 0 0.2 0.4 0.6 0.8 1 - - An investigation of the expression level of ABCG2 in 99 Japanese placenta samples revealed that individuals homozygous for the Q141K variant showed significantly lower expression levels of this transporter protein, while the heterozygous samples displayed intermediate expression levels [44].
X
ABCG2 p.Gln141Lys 24287461:110:128
status: NEWX
ABCG2 p.Gln141Lys 24287461:110:327
status: NEWX
ABCG2 p.Gln141Lys 24287461:110:505
status: NEW111 Based on those observations, it is assumed that the protein stability of the Q141K variant is significantly reduced without showing significant changes in its mRNA levels.
X
ABCG2 p.Gln141Lys 24287461:111:77
status: NEW112 Evidence has been provided to show that the Q141K variant of ABCG2 is degraded via ubiquitin-mediated proteasomal degradation [31-35].
X
ABCG2 p.Gln141Lys 24287461:112:44
status: NEW113 The level of the Q141K variant protein could be recovered when proteosomal degradation was inhibited by MG132 in vitro (Figure 5A).
X
ABCG2 p.Gln141Lys 24287461:113:17
status: NEW114 The Q141K mutation does not interfere with the nucleotide-binding domain/intracellular loop interactions but greatly affect the protein-protein interactions necessary for the dimerization of ABCG2.
X
ABCG2 p.Gln141Lys 24287461:114:4
status: NEW116 In addition to the Q141K variant, a minor SNP in exon 4, 376C>T, substituting a stop codon for Gln126, was found in the Japanese population with an allele frequency of 2.4% [37].
X
ABCG2 p.Gln141Lys 24287461:116:19
status: NEW119 Matsuo et al. [4] reported that the genotype combinations of Q126stop and Q141K are clinically important biomarkers to predict the possible risk of gout in the Japanese population.
X
ABCG2 p.Gln141Lys 24287461:119:74
status: NEW123 Their data suggest that at least 10% of all gout cases in Caucasians are attributable to SNP 421C>A (Q141K).
X
ABCG2 p.Gln141Lys 24287461:123:101
status: NEW
PMID: 24338217
[PubMed]
Zhao J et al: "Association of single nucleotide polymorphisms in MTHFR and ABCG2 with the different efficacy of first-line chemotherapy in metastatic colorectal cancer."
No.
Sentence
Comment
32
Genotyping Genomic DNA was isolated from whole blood using the FUJIFILM DNA extraction kit. Based on previous published studies, the single nucleotide polymorphisms selected for testing were MTHFR 677C[T (rs1801133, Ala 222 Val) and 1298A[C (rs1801131, Glu 428 Ala), and ABCG2 34G[A (rs2231137, Val 12 Met) and 421C[A (rs2231142, Gln 141 Lys).
X
ABCG2 p.Gln141Lys 24338217:32:330
status: NEW
PMID: 24380367
[PubMed]
Oberstadt MC et al: "Epigenetic modulation of the drug resistance genes MGMT, ABCB1 and ABCG2 in glioblastoma multiforme."
No.
Sentence
Comment
277
Imai Y, Nakane M, Kage K, Tsukahara S, Ishikawa E, Tsuruo T, Miki Y, Sugimoto Y: C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 24380367:277:188
status: NEW
PMID: 24388985
[PubMed]
Deppe S et al: "Impact of genetic variability in the ABCG2 gene on ABCG2 expression, function, and interaction with AT1 receptor antagonist telmisartan."
No.
Sentence
Comment
6
Importantly, protein levels of the Q141K and F489L variant were significantly reduced, a phenomenon that was partly reversed by pharmacological proteasome inhibition.
X
ABCG2 p.Gln141Lys 24388985:6:35
status: NEW17 Interestingly, recently a role of ABCG2 in uric acid transport and in the pathogenesis of gout has been demonstrated and has been linked to single nucleotide polymorphisms (SNPs) within the ABCG2 gene, e.g. the Q141K (C421A) SNP [7].
X
ABCG2 p.Gln141Lys 24388985:17:211
status: NEW37 Site-directed mutagenesis Non-synonymous ABCG2 single nucleotide polymorphisms (SNPs) G34A (V12M), C421A (Q141K), T742C (S248P), T1291C (F431L), T1465C (F489L) as well as somatic mutation A1444G (R482G) were inserted into the ABCG2 cDNA sequence in the pTRE-Tight-BI-AcGFP1-ABCG2 plasmid using the QuickChange&#d2; Lightning Site-Directed Mutagenesis Kit (Agilent Technologies, Waldbronn, Germany) with specific primers according to the manufacturer`s instructions (Supplemental Fig. 1).
X
ABCG2 p.Gln141Lys 24388985:37:106
status: NEW83 In contrast, ABCG2 protein levels of cells transfected with the Q141K and the F489L mutants, respectively, were lower than those transfected with ABCG2 wild-type (Fig. 2B and C).
X
ABCG2 p.Gln141Lys 24388985:83:64
status: NEW84 Concomitant treatment of transfected HEK293-Tet-On cells with increasing concentrations of the proteasome inhibitor PS-341 (bortezomib) for 24 h slightly increased protein levels of variants Q141K and F489L but not that of ABCG2 wild-type (Fig. 2D).
X
ABCG2 p.Gln141Lys 24388985:84:191
status: NEW91 The average PhA-associated fluorescence in non-induced HEK293-Tet-On cells transiently transfected with the various ABCG2 variants was not significantly different as compared with that observed in HEK293-Tet-On cells transfected with ABCG2 wild-type (wild-type (100 &#b1; 12.1%), V12M (106.7 &#b1; 2.0%), Q141K (97.1 &#b1; 9.3%), S248P (99.1 &#b1; 9.8%), F431L (104.7% &#b1; 10.9%), R482G A B C D Fig. 2.
X
ABCG2 p.Gln141Lys 24388985:91:305
status: NEW95 (D) Impact of increasing concentrations of the proteasome inhibitor PS-341 (bortezomib) on ABCG2 protein levels in doxycycline-treated (1 lg/mL; 24 h) HEK293-Tet-On cells transiently transfected with ABCG2 wild-type or the ABCG2 variants Q141K and F489L, respectively.
X
ABCG2 p.Gln141Lys 24388985:95:238
status: NEW99 PhA-associated fluorescence was similar in doxycycline-induced AcGFP1-positive HEK293-Tet-On cells transfected with the ABCG2 variants V12M (11.8 &#b1; 0.9%), Q141K (17.9 &#b1; 5.8%), and R482G (17.0 &#b1; 2.8%).
X
ABCG2 p.Gln141Lys 24388985:99:159
status: NEW104 Inhibitory efficacy of telmisartan was not altered by the ABCG2 polymorphisms V12M and Q141K but tended to be lower in the ABCG2 variants S248P and F431L (Fig. 4A and C).
X
ABCG2 p.Gln141Lys 24388985:104:87
status: NEW117 Although the mRNA expression levels of these ABCG2 variants were similar to ABCG2 wild-type, protein levels of the Q141K and the F489L variants were significantly reduced in our experimental system. These findings are in accordance with experimental data from other groups [19], although the reduction of the F489L variant was more pronounced in our cellular expression model.
X
ABCG2 p.Gln141Lys 24388985:117:115
status: NEW118 Moreover, a reduced protein level of the Q141K variant has been described in vitro and interestingly, the Q141K variant has been linked to an impaired uric acid efflux in vitro as well as gout disease in vivo [7,20,21].
X
ABCG2 p.Gln141Lys 24388985:118:41
status: NEWX
ABCG2 p.Gln141Lys 24388985:118:106
status: NEW121 The reason for the reduced protein levels of the Q141K and F489L variant are currently unclear, but enhanced proteasomal degradation has been proposed to participate in reduction of cellular Q141K protein content [22].
X
ABCG2 p.Gln141Lys 24388985:121:49
status: NEWX
ABCG2 p.Gln141Lys 24388985:121:191
status: NEW122 Indeed, inhibition of proteasomal activity using the proteasome inhibitor bortezomib slightly increased the protein levels of both the Q141K and the F489L variant in HEK293-Tet-On cells, thereby suggesting a role of the proteasome in decreasing the protein content of both ABCG2 variants.
X
ABCG2 p.Gln141Lys 24388985:122:135
status: NEW123 Surprisingly, the Q141K variant did not exhibit a reduced pheophorbide A (PhA) efflux in HEK293-Tet-On cells as evidenced by flow cytometric analyses.
X
ABCG2 p.Gln141Lys 24388985:123:18
status: NEW124 In addition, PhA efflux of the F489L variant was only marginally impaired in our experimental system. These data suggest that (1) the observed reduction in ABCG2 protein content caused by the Q141K or F489L polymorphisms may be compensated by a more efficient PhA transport Fig. 3.
X
ABCG2 p.Gln141Lys 24388985:124:192
status: NEW127 Nevertheless, data from clinical investigations indicate that the Q141K variant may be associated with a reduced ABCG2-mediated substrate clearance in affected individuals [8,9,21] and that thus, clinical investigations are needed to further explore this issue with respect to the F489L variant.
X
ABCG2 p.Gln141Lys 24388985:127:66
status: NEW
PMID: 24441388
[PubMed]
Matsuo H et al: "ABCG2 dysfunction causes hyperuricemia due to both renal urate underexcretion and renal urate overload."
No.
Sentence
Comment
17
Their functional ABCG2 activities were estimated from their genotype combinations of its two dysfunctional missense variants, Q126X (rs72552713) and Q141K (rs2231142).
X
ABCG2 p.Gln141Lys 24441388:17:149
status: NEW18 Because there is no simultaneous presence of the minor alleles of non-functional variant Q126X and half-functional variant Q141K in one hap- lotype5,7 , we defined three haplotype IDs as *1, *2, and *3, as shown in Figure 1a.
X
ABCG2 p.Gln141Lys 24441388:18:123
status: NEW26 When hyperuricemia was divided into three distinct types (i.e., RUE type, combined type, and ROL type as shown in Supplementary Fig. S1), severe ABCG2 dysfunction (#1/4 function) significantly raised the risk of combined and ROL types but not that of RUE type Figure 1 | Estimation of ABCG2 function from diplotype of Q126X and Q141K alleles.
X
ABCG2 p.Gln141Lys 24441388:26:328
status: NEW27 (a) ABCG2*2 or *3 represents a haplotype with Q141K or Q126X variant, respectively.
X
ABCG2 p.Gln141Lys 24441388:27:46
status: NEW28 ABCG2*1 indicates a haplotype with neither Q141K nor Q126X variant.
X
ABCG2 p.Gln141Lys 24441388:28:43
status: NEW29 Since Q141K is a half-functional variant and Q126X is a nonfunctional variant, relative function of ABCG2*1, *2, and *3 is 1, 1/2, and 0, respectively, which is visualized by black-indicated areas.
X
ABCG2 p.Gln141Lys 24441388:29:6
status: NEW32 Table 1 | ABCG2 functions of participants Estimated transport activity Diplotype of Q126X (rs72552713) and Q141K (rs2231142) alleles** Case{ Control N % N % #1/4 function *3/*3 or *2/*3 29 (26) 4.5 (4.7) 22 1.3 1/2 function *1/*3 or *2/*2 151 (135) 23.4 (23.5) 190 11.7 3/4 function *1/*2 307 (277) 47.7 (48.2) 600 37.0 Full function *1/*1 157 (136) 24.4 (23.7) 811 50.0 Total 644 (575) 100.0 (100.0) 1,887 100.0 **Haplotypes ''Q-Q``, ''Q-K``, and ''X-Q`` of two SNPs (Q126X and Q141K) are referred to as *1, *2, and *3, respectively.
X
ABCG2 p.Gln141Lys 24441388:32:107
status: NEWX
ABCG2 p.Gln141Lys 24441388:32:479
status: NEW33 Risk alleles are X for Q126X, and K for Q141K.
X
ABCG2 p.Gln141Lys 24441388:33:40
status: NEW67 Genotyping of ABCG2 Q126X (rs72552713) and Q141K (rs2231142) was performed by high-resolution melting analysis with a LightCycler 480 (Roche Diagnostics)19 .
X
ABCG2 p.Gln141Lys 24441388:67:43
status: NEW68 From the haplotype analyses reported in the previous studies5,7 , there is no simultaneous presence of the minor alleles (risk alleles) of non-functional variant Q126X and half-functional variant Q141K in one haplotype.
X
ABCG2 p.Gln141Lys 24441388:68:196
status: NEW69 In this study, their haplotype IDs, *1, *2, and *3, were defined as Figure 1a; the combination of wild-type Q126X and Q141K alleles (''Q-Q``) was designated as ABCG2*1, which corresponds to the cDNA sequence of GenBank (accession number NM_004827).
X
ABCG2 p.Gln141Lys 24441388:69:118
status: NEW71 Based on the diplotype of Q126X and Q141K alleles (Fig. 1b)5,7 , ABCG2 function was estimated and divided into four groups5-7 ; i.e., full function, 3/4 function, 1/2 function, and #1/4 function (Table 1).
X
ABCG2 p.Gln141Lys 24441388:71:36
status: NEW
PMID: 24469953
[PubMed]
de Lima LT et al: "Reduced ABCG2 and increased SLC22A1 mRNA expression are associated with imatinib response in chronic myeloid leukemia."
No.
Sentence
Comment
174
Non-synonymous ABCG2c.421C[A SNP (Q141K) was described as responsible for lower levels of protein expression [41], impaired transport [42, 43], and enhanced susceptibility to ubiquitin-mediated proteasomal degradation [44].
X
ABCG2 p.Gln141Lys 24469953:174:34
status: NEW
PMID: 24476385
[PubMed]
Dalbeth N et al: "Influence of the ABCG2 gout risk 141 K allele on urate metabolism during a fructose challenge."
No.
Sentence
Comment
139
This could be related to an influence of Q141K on hepatic conversion of fructose to glucose, estimated to occur at a rate up to 60% depending on sex and health status [18].
X
ABCG2 p.Gln141Lys 24476385:139:41
status: NEW197 5. Woodward OM, Tukaye DN, Cui J, Greenwell P, Constantoulakis LM, Parker BS, Rao A, Kottgen M, Maloney PC, Guggino WB: Gout-causing Q141K mutation in ABCG2 leads to instability of the nucleotide-binding domain and can be corrected with small molecules.
X
ABCG2 p.Gln141Lys 24476385:197:133
status: NEW
PMID: 24586633
[PubMed]
Balan S et al: "Genetic association analysis of ATP binding cassette protein family reveals a novel association of ABCB1 genetic variants with epilepsy risk, but not with drug-resistance."
No.
Sentence
Comment
62
For ABCG2 three functional variants viz: rs2231142 (Gln141Lys; missense), rs72552713 (Gln126Ter; stop gain) and rs2231137 (Val12Met; missense) were screened.
X
ABCG2 p.Gln141Lys 24586633:62:52
status: NEW
PMID: 24595600
[PubMed]
Ferrari M et al: "Association between statin-induced creatine kinase elevation and genetic polymorphisms in SLCO1B1, ABCB1 and ABCG2."
No.
Sentence
Comment
36
Finally, in the ABCG2 gene, a relatively common SNP is C421A (p.Gln141Lys; rs2231142); this SNP occurs in 10-15 % of Caucasians and has been associated with reduced ABCG2 activity [36] and increased statin bioavailability [23].
X
ABCG2 p.Gln141Lys 24595600:36:64
status: NEW
PMID: 24718721
[PubMed]
El Mesallamy HO et al: "High-dose methotrexate in Egyptian pediatric acute lymphoblastic leukemia: the impact of ABCG2 C421A genetic polymorphism on plasma levels, what is next?"
No.
Sentence
Comment
32
Out of more than 80 single-nucleotide polymorphisms (SNPs) in the ABCG2 gene, the C421A (Q141K) nonsynonymous polymorphism located on exon 5 is the most extensively studied SNP.
X
ABCG2 p.Gln141Lys 24718721:32:89
status: NEW34 The allelic frequency of C421A (Q141K) varies between different populations; it is present in approximately 13 % of Middle Eastern people (Zamber et al. 2003).
X
ABCG2 p.Gln141Lys 24718721:34:32
status: NEW57 Briefly, 200 ng of gDNA was amplified using primers flanking the regions of BCRB C421A polymorphism (rs2231142, Gln 141 Lys).
X
ABCG2 p.Gln141Lys 24718721:57:112
status: NEW
PMID: 24777469
[PubMed]
Lv X et al: "The association between the polymorphism rs2231142 in the ABCG2 gene and gout risk: a meta-analysis."
No.
Sentence
Comment
2
We searched "rs2231142 or Q141K and gout" in four databases and scholar searching website until 1 June, 2013 and included data from 52,010 participants in meta-analysis and subgroup analysis.
X
ABCG2 p.Gln141Lys 24777469:2:26
status: NEW8 Q141K .
X
ABCG2 p.Gln141Lys 24777469:8:0
status: NEW10 Single-nucleotide polymorphism (SNP) rs2231142, known as Q141K in ABCG2, leading to a change from glutamine to lysine, is reported to be associated with gout in several populations, such as Atherosclerosis Risk in Communities (ARIC) Study [2], European Americans [3], African Americans [3], Mexican Americans [3], Americans Indians [3], German [4], Chinese [5, 6], Japanese [7], and New Zealand Pacific Islanders [8], but not in New Zealand Maoris [8].
X
ABCG2 p.Gln141Lys 24777469:10:57
status: NEW17 Ling Guangdong Provincial Key Laboratory of Food, Nutrition and Health, Department of Nutrition, School of Public Health, Sun Yat-Sen University (Northern Campus), 74 Zhongshan Road 2, Guangzhou 510080, China Clin Rheumatol (2014) 33:1801-1805 DOI 10.1007/s10067-014-2635-x Methods Literature search Two researchers (Xiaofei Lv and Yuan Zhang) retrieved studies in PubMed (January 1966-June 2013), ISI Web of Knowledge (1950-2013), and OVID (Sun Yat-sen University Journals@Ovid and Journals@Ovid Full Text, 1860-2013) by using the terms "rs2231142 and gout" and "Q141K and gout."
X
ABCG2 p.Gln141Lys 24777469:17:565
status: NEW47 SNP rs2231142, the Q141K mutation in ABCG2 gene, was reported to be associated with gout by reducing renal urate secretion.
X
ABCG2 p.Gln141Lys 24777469:47:19
status: NEW62 It is already discovered that the Q141K (rs2231142) polymorphism is a loss-of-function mutation in two independent functional studies [1, 13].
X
ABCG2 p.Gln141Lys 24777469:62:34
status: NEW64 The results showed that Q141K decreased ATPase activity by 1.3 below that of wild-type ABCG2.
X
ABCG2 p.Gln141Lys 24777469:64:24
status: NEW65 In addition, kinetic analysis of ATPase activity showed that the K(m) value in Q141K was 1.4-fold higher than that of wild-type ABCG2 [14].
X
ABCG2 p.Gln141Lys 24777469:65:79
status: NEW
PMID: 24777822
[PubMed]
Jani M et al: "Structure and function of BCRP, a broad specificity transporter of xenobiotics and endobiotics."
No.
Sentence
Comment
87
Four variants are found with allele frequencies above 3 % in at least one of the studied population (African American, Asian, and Caucasian): Val12Met (V12M), Gln141Lys (Q141K), Phe208Ser (F208S), and Asp590Tyr (N590Y).
X
ABCG2 p.Gln141Lys 24777822:87:159
status: NEWX
ABCG2 p.Gln141Lys 24777822:87:170
status: NEW91 Q141K and V12M are two variants that are much more highly represented across different ethnicities, although the V12M mutation is not known to alter significantly BCRP function or expression (Tamura et al. 2006; Kondo et al. 2004; Honjo et al. 2002).
X
ABCG2 p.Gln141Lys 24777822:91:0
status: NEW93 Variant Q141K is by far the most studied and characterized BCRP variant, and is found at frequencies around 30 % in Asians and around 10 % in Caucasians.
X
ABCG2 p.Gln141Lys 24777822:93:8
status: NEW94 A mechanistic study showed that the Q141K variant undergoes increased lysosomal and proteosomal degradation that affects the half-life of the BCRP protein (Furukawa et al. 2009), as well as targeting to the aggresome, a perinuclear structure where misfolded proteins accumulate (Basseville et al. 2012).
X
ABCG2 p.Gln141Lys 24777822:94:36
status: NEW95 Histone deacetylase inhibitors rescue newly synthesized transporter proteins and prevent aggresome targeting by disturbing TableÊf;1ߒߙMajor non-synonymous single-nucleotide polymorphisms found in the ABCG2 coding region Allele frequencies presented in this table do not reflect interethnic differences Mutation Position in BCRP Cellular effects of SNP Allele frequency % References 34G>A, V12M (rs2231137) N-terminus Lower expression, no impact on function 0-29.8 Tamura et al. (2006), Bosch et al. (2005), Mizuarai et al. (2004), Imai et al. (2002), Kobayashi et al. (2005), Backstrom et al. (2003), Honjo et al. (2002), Kondo et al. (2004) 151G>T, G51C N-terminus Slightly overexpressed, decreased transport activity 0.1 Tamura et al. (2006), Yoshioka et al. (2007) 376C>T, Q126X (rs7255271) NBD No expression, no activity 0-1.7 Tamura et al. (2006), Mizuarai et al. (2004), Itoda et al. (2003), Imai et al. (2002), Kobayashi et al. (2005), Kondo et al. (2004) 421C>A, Q141K (rs2231142) NBD Lower expression, decreased transport activity, substrate specificity altered 0-35.7 Tamura et al. (2006), Bosch et al. (2005), Mizuarai et al. (2004), Imai et al. (2002), Kobayashi et al. (2005), Backstrom et al. (2003), Honjo et al. (2002), Kondo et al. (2004) 458C>T, T153 M NBD Slightly lower expression, no impact on function 3.3 Tamura et al. (2006), Mizuarai et al. (2004) 479G>A, R160Q NBD Not determined 0.5 Bosch et al. (2005), Tamura et al. (2006) 496C>G, Q166E (rs1061017) NBD Slightly lower expression, no impact on function 0-1.1 Tamura et al. (2006), Kondo et al. (2004), Yoshioka et al. (2007) 616A>C, I206L (rs12721643) NBD Well expressed, decreased transport activity 0-10.0 Tamura et al. (2006), Zamber et al. (2003), Vethanayagam et al. (2005), Ieiri (2012a) 623T>C, F208 (rs1061018) NBD No expression, no transport activity 0.9-3.9 Tamura et al. (2006) 742T>C, S248P (rs3116448) NBD Well expressed, no transport activity 0.5 Tamura et al. (2006), Yoshioka et al. (2007) 1000G>T, E334X (rs3201997) NBD No expression, no transport activity Not determined Tamura et al. (2006), Ishikawa et al. (2005) 1291T>C F431L ECL1 Lower expression, substrate specificity altered 0.6-0.8 Tamura et al. (2006), Itoda et al. (2003), Yoshioka et al. (2007) 1322G>A, S441 N ECL1 Slightly lower expression, no transport activity 0.5 Tamura et al. (2006), Kobayashi et al. (2005), Kondo et al. (2004) 1465T>C, F489L TM3 Slightly lower expression, no transport activity 0.5-0.8 Tamura et al. (2006), Itoda et al. (2003), Kobayashi et al. (2005) 1515delC, F506S TM4 Not determined 0.5 Itoda et al. (2003), Kobayashi et al. (2005) 1515delC, F507L 1515delC, V508L 1515delC, M509X 1711T>A, F571I (rs9282571) TM5 Well expressed, substrate specificity altered 0.5 Tamura et al. (2006) 1723C>T, R575X TM5 Not determined 0.5 Tamura et al. (2006) 1768A>T, N590Y (rs34264773) ECL3 Slightly overexpressed, substrate specificity altered 0-9.7 Tamura et al. (2006), Mizuarai et al. (2004), Zamber et al. (2003), Vethanayagam et al. (2005) 1858G>A, D620 N (rs34783571) ECL3 Slightly overexpressed, substrate specificity altered 0-11.1 Tamura et al. (2006), Bosch et al. (2005), Honjo et al. (2002), Vethanayagam et al. (2005) the trafficking along microtubules (Basseville et al. 2012).
X
ABCG2 p.Gln141Lys 24777822:95:989
status: NEW96 A recent study revealed that the Q141K mutation leads to instability of the transporter NBD, and suggests that certain small molecules could rescue this phenotype (Woodward et al. 2013).
X
ABCG2 p.Gln141Lys 24777822:96:33
status: NEW97 BCRP substrates with a narrow therapeutic index and low bioavailability are the most likely to be affected by the Q141K polymorphism.
X
ABCG2 p.Gln141Lys 24777822:97:114
status: NEW99 However, the pharmacogenomic effect of the Q141K polymorphism seems to be substrate dependent, as irinotecan and pitavastatin pharmacokinetic (PK) profiles were not significantly different compared with wild-type BCRP (Ieiri et al. 2007; de Jong et al. 2004; Han et al. 2007).
X
ABCG2 p.Gln141Lys 24777822:99:43
status: NEW100 More recently, the Q141K variant, in combination with a specific CYP2C9 haplotype, was associated with fluvastatin-induced adverse drug reaction in renal transplant patients (Mirosevic Skvrce et al. 2013).
X
ABCG2 p.Gln141Lys 24777822:100:19
status: NEW101 Another study showed that Q141K is associated with longer survival in epithelial ovarian/primary peritoneal cancer patients treated with platinum-/taxane-based chemotherapy (Tian et al. 2012).
X
ABCG2 p.Gln141Lys 24777822:101:26
status: NEW102 More recently, the impact of BCRP polymorphism, particularly of mutation Q141K, on the PK profile of protein kinases inhibitors has been investigated.
X
ABCG2 p.Gln141Lys 24777822:102:73
status: NEW103 The frequency of diarrhea after treatment with gefitinib was found to be significantly higher in Caucasian non-small-cell lung cancer (NSCLC) patients with at least one allele carrying the Q141K mutation, than in homozygous wild-type patients (Cusatis et al. 2006).
X
ABCG2 p.Gln141Lys 24777822:103:189
status: NEW104 Conversely, in Japanese NSCLC patients, no association between Q141K and susceptibility to gefitinib-induced adverse effects could be established (Akasaka et al. 2010).
X
ABCG2 p.Gln141Lys 24777822:104:63
status: NEW107 Interestingly, genomic analysis revealed that this patient was homozygous for the Q141K SNP, while other patients were either heterozygous or wild-type (Mizuno et al. 2010).
X
ABCG2 p.Gln141Lys 24777822:107:82
status: NEW108 In addition, a clinical study on a Korean cohort revealed that the Q141K variant is associated with the risk of sunitinib-induced toxicity in metastatic renal cell carcinoma patients (Kim et al. 2013).
X
ABCG2 p.Gln141Lys 24777822:108:67
status: NEW109 A recent in vivo study using knockout mice confirmed that the Q141K variant is associated with an increase in the systemic exposure to sunitinib, as well as sunitinib-induced toxicity (Mizuno et al. 2012).
X
ABCG2 p.Gln141Lys 24777822:109:62
status: NEW110 An antibody-based flow cytometry assay for the quantitative determination of membrane proteins in human erythrocytes revealed significant differences in expression levels between BCRP wild-type and Q141K variants, suggesting that erythrocyte membrane protein levels may reflect genotype-dependent tissue expression patterns (Kasza et al. 2012).
X
ABCG2 p.Gln141Lys 24777822:110:198
status: NEW112 Detection of the Q141K polymorphism could also serve as a biomarker of poor prognosis in adult acute myeloid leukemia treated with idarubicin-based chemotherapy (Tiribelli et al. 2013).
X
ABCG2 p.Gln141Lys 24777822:112:17
status: NEW353 The c.421C>A (Q141K; rs2231142) variant with the highest allelic frequency displays lower stability (Furukawa et al. 2009; Basseville et al. 2012) leading to lower expression (Kondo et al. 2004), lower transport activity (Sparreboom et al. 2005), altered substrate specificity (Tamura et al. 2006), and impaired trafficking (Urquhart et al. 2008).
X
ABCG2 p.Gln141Lys 24777822:353:14
status: NEW472 But combination C421A wt with low protein expression DFS, OS are longer Regarding DFS, Q141K polymorphism per se did not affect survival, but stratifying patients in the three groups, patients with low ABCG2 and wt gene had a longer OS compared to patients with Q141K ABCG2 or with high ABCG2 expression.
X
ABCG2 p.Gln141Lys 24777822:472:87
status: NEWX
ABCG2 p.Gln141Lys 24777822:472:262
status: NEW
PMID: 24782769
[PubMed]
Chiabrando D et al: "Heme in pathophysiology: a matter of scavenging, metabolism and trafficking across cell membranes."
No.
Sentence
Comment
536
Genetic studies identified a SNP in the exon 5 of ABCG2 gene that leads to a glutamine-to-lysine amino acid substitution (Q141K) (Dehghan et al., 2008).
X
ABCG2 p.Gln141Lys 24782769:536:122
status: NEW537 The Q141K variant has been shown to have a significant reduced capacity to transport urate and, when expressed in mammalian cells, Q141K ABCG2 expression is significantly lower than that of wild-type protein (Imai et al., 2002; Mizuarai et al., 2004; Morisaki et al., 2005; Woodward et al., 2009).
X
ABCG2 p.Gln141Lys 24782769:537:4
status: NEWX
ABCG2 p.Gln141Lys 24782769:537:131
status: NEW
PMID: 24827988
[PubMed]
Stiburkova B et al: "Metabolic syndrome, alcohol consumption and genetic factors are associated with serum uric acid concentration."
No.
Sentence
Comment
45
Variant c.421C.A (rs2231142, p.Q141K) results in a reduction of the urate transport rate by 53% compared with that for the wild-type ABCG2 and causes approximately 10% of the hyperuricemia and gout cases in Caucasians [28].
X
ABCG2 p.Gln141Lys 24827988:45:31
status: NEW74 Genotype analysis The frequent genetic variants of genes encoding the urate transporter SLC2A9 (c.844G.A (rs16890979, p.V282I) and c.881G.A (rs3733591, p.R294H)), the urate transporter ABCG2 (c.421C.A (rs2231142, p.Q141K)) and the MTHFR enzyme (c.665C.T (known as c.677C.T; rs1801133, p.A222V) and c.1286A.C (known as c.1298A.C; rs1801131, p.E429A)) were selected for genotype analysis.
X
ABCG2 p.Gln141Lys 24827988:74:215
status: NEW
PMID: 24857923
[PubMed]
Zhou D et al: "Functional polymorphisms of the ABCG2 gene are associated with gout disease in the Chinese Han male population."
No.
Sentence
Comment
5
High-resolution melting analysis and Sanger sequencing were performed to identify the genetic polymorphisms V12M, Q141K and Q126X in the ABCG2 gene.
X
ABCG2 p.Gln141Lys 24857923:5:114
status: NEW7 A prediction model for gout risk using ABCG2 protein function was established based on the genotype combination of Q126X and Q141K.
X
ABCG2 p.Gln141Lys 24857923:7:125
status: NEW8 Results: For Q141K, the A allele OPEN ACCESS frequency was 49.6% in the gout patients and 30.9% in the controls (OR 2.20, 95% confidence interval (CI): 1.77-2.74, p = 8.99 &#d7; 10-13 ).
X
ABCG2 p.Gln141Lys 24857923:8:13
status: NEW11 In the order of V12M, Q126X and Q141K, the GCA and GTC haplotypes indicated increased disease risk (OR = 2.30 and 2.71, respectively).
X
ABCG2 p.Gln141Lys 24857923:11:32
status: NEW33 Furthermore, the SNPs Q141K and Q126X in the human ABCG2 gene have recently been recognized as clinical biomarkers to assess hyperuricemia and gout.
X
ABCG2 p.Gln141Lys 24857923:33:22
status: NEW37 In the present study, we developed an HRM assay to detect three functional SNPs (Q141K, V12M and Q126X) and then assessed the genetic association of those SNPs in the ABCG2 gene with gout to investigate the association between ABCG2 dysfunction and gout risk in a Han Chinese male population.
X
ABCG2 p.Gln141Lys 24857923:37:81
status: NEW42 The results obtained from the DNA sequencing analysis confirmed the reliability of the HRM assay. The genotype and allelic frequencies of the three SNPs (Q141K, V12M and Q126X) among the cases and controls were in Hardy-Weinberg equilibrium for all of the polymorphisms analyzed.
X
ABCG2 p.Gln141Lys 24857923:42:154
status: NEW43 For Q141K, the A allele was found on 49.6% of the chromosomes from the gout patients compared with 30.9% of the chromosomes from the controls (OR 2.20, 95% CI: 1.77-2.74, p = 8.99 &#d7; 10-13 ).
X
ABCG2 p.Gln141Lys 24857923:43:4
status: NEW48 The three groups are well distinguished: (A) V12M; (B) Q126X; and (C) Q141K.
X
ABCG2 p.Gln141Lys 24857923:48:70
status: NEW54 SNP Genotype * Allele Frequency Mode Case Control p-Value p-Value OR 95% CI 1/1 1/2 2/2 MAF 1/1 1/2 2/2 MAF Q141K 84 181 87 0.496 33 150 167 0.309 1.18 &#d7; 10-11 8.99 &#d7; 10-13 2.20 1.77-2.74 Q126X 0 33 319 0.047 0 12 338 0.017 1.31 &#d7; 10-3 1.57 &#d7; 10-3 2.91 1.49-5.68 V12M 16 97 239 0.183 35 133 182 0.290 3.67 &#d7; 10-5 2.55 &#d7; 10-6 0.55 0.43-0.71 * The minor allele was referred to as allele 1, and the major allele was referred to as allele 2.
X
ABCG2 p.Gln141Lys 24857923:54:108
status: NEW55 Allele 1 is A and allele 2 is C in Q141K. Allele 1 is T and allele 2 is C in Q126X.
X
ABCG2 p.Gln141Lys 24857923:55:35
status: NEW58 Haplotype Analysis We performed a 3-SNP haplotype analysis (in the order V12M, Q126X and Q141K).
X
ABCG2 p.Gln141Lys 24857923:58:89
status: NEW63 Haplotype frequency analysis of V12M, Q126X and Q141K. Allele Frequency p-Value OR 95% CI V12M Q126X Q141K Gout Control G C A 0.481 0.289 1.26 &#d7; 10-13 2.30 1.84-2.87 G T C 0.044 0.017 2.97 &#d7; 10-3 2.71 1.37-5.36 G C C 0.292 0.404 8.27 &#d7; 10-6 0.60 0.48-0.75 A C C 0.165 0.271 1.53 &#d7; 10-6 0.53 0.41-0.69 2.3.
X
ABCG2 p.Gln141Lys 24857923:63:48
status: NEWX
ABCG2 p.Gln141Lys 24857923:63:101
status: NEW74 Estimated Function Genotype Combination Number (%) p-Value OR 95% CI Q141K Q126X Gout Control ࣘ1/4 function C/A T/C 22 (6.2) 8 (2.3) 8.47 &#d7; 10-6 5.90 2.56-13.58 1/2 function C/C T/C 95 (27.0) 37 (10.5) 1.12 &#d7; 10-13 5.51 3.46-8.77 A/A C/C 3/4 function C/A C/C 159 (45.2) 142 (40.6) 1.00 &#d7; 10-6 2.40 1.69-3.42 Full function C/C C/C 76 (21.6) 163 (46.6) ߟ ߟ p-Value, OR and 95% CI for each ABCG2 dysfunction were obtained via comparisons with full function.
X
ABCG2 p.Gln141Lys 24857923:74:69
status: NEW76 Discussion This study is the first to examine the possible role of ABCG2 variants, which have previously been found to be associated with gout, in terms of their genetic susceptibility to gout in the Han Chinese population. We found that the Q141K, Q126X and V12M alleles were strongly associated with gout in Chinese males.
X
ABCG2 p.Gln141Lys 24857923:76:245
status: NEW87 The Q141K SNP has been extensively studied; it has been found to impair protein-nucleotide binding stability [28], which has been linked to hyperuricemia in a variety of populations [29].
X
ABCG2 p.Gln141Lys 24857923:87:4
status: NEW93 These findings reflect the diversity of the Q126X and Q141K distributions in different ethnic populations, which may explain the different prevalence of gout in Chinese and Caucasian populations.
X
ABCG2 p.Gln141Lys 24857923:93:54
status: NEW96 Matsuo et al. [16,18] reported that the genotype combination of Q126X and Q141K is a clinically important biomarker for predicting gout risk in the Japanese population. We analyzed the relationship between ABCG2 transport dysfunction and gout and found that dysfunctional ABCG2 is responsible for approximately 78.4% of gout cases.
X
ABCG2 p.Gln141Lys 24857923:96:74
status: NEW115 We selected three functional ABCG2 SNPs: V12M, Q126X and Q141K.
X
ABCG2 p.Gln141Lys 24857923:115:57
status: NEW124 SNP ID SNP Allele Sequence (5'-3') Size V12M A/G ATGGTATGGGCCATTCATTG 250 bp ATGCCTTCAGGTCATTGGAA Q141K A/C ATGTTGTGATGGGCACTCTG 158 bp CCACATTACCTTGGAGTCTG Q126X C/T GCTGCAAGGAAAGATCCAAG 163 bp CAGCCAAAGCACTTACCCAT 4.3.
X
ABCG2 p.Gln141Lys 24857923:124:98
status: NEW137 The recent findings on the roles of the ABCG2 Q141K and Q126X polymorphism in gout may pave the way for pharmacological chaperones targeting ABCG2 as a potential new therapeutic target for gout.
X
ABCG2 p.Gln141Lys 24857923:137:46
status: NEW
PMID: 24909660
[PubMed]
Nakayama A et al: "Common dysfunctional variants of ABCG2 have stronger impact on hyperuricemia progression than typical environmental risk factors."
No.
Sentence
Comment
18
Based on the previous studies8,11 , all of the participants were divided into four groups by the combination of common dysfunctional variants of ABCG2, non-functional Q126X (rs72552713) and half-functional Q141K (rs2231142), as follows: full function (normal function), 3/ 4 function (mild dysfunction), 1/2 function (moderate dysfunction) and #1/4 function (severe dysfunction) (see Supplementary Figure S1 and Table S2).
X
ABCG2 p.Gln141Lys 24909660:18:206
status: NEW37 Functional analyses revealed that Q126X is a nonfunctional variant and Q141K is a half-functional variant due to the halved ABCG2 expression on the membrane8 .
X
ABCG2 p.Gln141Lys 24909660:37:71
status: NEW38 Since haplotype frequency analyses demonstrated no simultaneous presence of the minor alleles of Q126X and Q141K in one haplotype, the combination of nonfunctional variant Q126X and half-functional variant Q141K makes it possible to estimate dysfunctional levels of ABCG28,10 (Supplementary Figure S1 and Table S2).
X
ABCG2 p.Gln141Lys 24909660:38:107
status: NEWX
ABCG2 p.Gln141Lys 24909660:38:206
status: NEW45 As for the relationship between SNPs and the risk of hyperuricemia, Woodward et al. so far reported that the PAR% of Q141K for gout was 10% in Caucasians7 , and Yamagishi et al. indicated that PAR% for gout and/or hyperuricemia was 19% in Japanese16 .
X
ABCG2 p.Gln141Lys 24909660:45:117
status: NEW46 Ours is the first report to show the PAR% of ABCG2 dysfunction using the combination of Q126X and Q141K for functional evaluation.
X
ABCG2 p.Gln141Lys 24909660:46:98
status: NEW47 It is reasonable that the PAR% of Q141K in Caucasians would be lower than that in Japanese, because the minor allele frequency in Caucasians (0.11 according to Woodward et al.7 ) is lower than those of Japanese (0.31 by Yamagishi et al.16 and 0.29 in the present study).
X
ABCG2 p.Gln141Lys 24909660:47:34
status: NEW48 When we re-calculated PAR% according to the definition of hyperuricemia in Yamagishi et al.16 (SUA $ 7.0 mg/dl), the resulting PAR% of Q141K was 22.2%, which is comparable to that in Yamagishi et al.16 .
X
ABCG2 p.Gln141Lys 24909660:48:135
status: NEW49 In the present study, we defined hyperuricemia as SUA .7.0 mg/dl17 and obtained the PAR% of Q141K and Q126X as 23.5% and 2.6%, respectively.
X
ABCG2 p.Gln141Lys 24909660:49:92
status: NEW52 Subsequent regression analysis revealed that ABCG2 dysfunction defined by the combination of Q126X and Q141K significantly increased SUA, while previous studies showed the association of SUA and only Q141K7,8 .
X
ABCG2 p.Gln141Lys 24909660:52:103
status: NEW76 Genotyping of the two variants in ABCG2 gene, Q126X and Q141K, was performed with a LightCycler 480 (Roche Diagnostics) by high resolution melting (HRM) analysis22 .
X
ABCG2 p.Gln141Lys 24909660:76:56
status: NEW79 The MAFs of Q126X and Q141K were 0.025 and 0.294, respectively, and both variants were in Hardy-Weinberg equilibrium (P .
X
ABCG2 p.Gln141Lys 24909660:79:22
status: NEW
PMID: 24932285
[PubMed]
Moriya H et al: "Association between the low-dose irinotecan regimen-induced occurrence of grade 4 neutropenia and genetic variants of in patients with gynecological cancers."
No.
Sentence
Comment
29
In addition, the 421C>A (Q141K) variant of ATPߛbinding cassette subߛfamily G member 2 (ABCG2), which encodes the breast cancer resistance protein (BCRP), a transporter known to target various anticancer drugs, including CPTߛ11, has been reported to reduce the expression of ABCG2 and cause resistance to CPTߛ11 in vitro (20).
X
ABCG2 p.Gln141Lys 24932285:29:25
status: NEW
PMID: 25036722
[PubMed]
Szafraniec MJ et al: "Determinants of the activity and substrate recognition of breast cancer resistance protein (ABCG2)."
No.
Sentence
Comment
201
To elucidate the significance of this polymorphism for porphyrin transport, a set of 18 variants of BCRP (Val12 Met, Gly51 Cys, Gln126 stop, Gln141 Lys, Thr153 Met, Gln166 Glu, Ile206 Leu, Phe208 Ser, Ser248 Pro, Glu334 stop, Phe431 Leu, Ser441 Asn, Arg482 Gly, Arg482 Thr, Phe489 Leu, Phe571 Ile, Asn590 Tyr and Asp620 Asn) have been expressed in insect cells.
X
ABCG2 p.Gln141Lys 25036722:201:141
status: NEW
PMID: 25236865
[PubMed]
Mao Q et al: "Role of the breast cancer resistance protein (BCRP/ABCG2) in drug transport--an update."
No.
Sentence
Comment
214
Of these SNPs, 34G>A (V12M) and 421C>A (Q141K) occur most frequently in East Asians (~30-60%) and with relatively low allele frequencies in Caucasians and African-American populations (~5-10%).
X
ABCG2 p.Gln141Lys 25236865:214:40
status: NEW217 In vitro expression and functional studies generally support the conclusion that the Q141K variant resulting from the 421C>A SNP has reduced cell surface expression in transfected cells and therefore cells expressing Q141K display lower efflux activities compared to those expressing wild-type BCRP (100).
X
ABCG2 p.Gln141Lys 25236865:217:85
status: NEWX
ABCG2 p.Gln141Lys 25236865:217:217
status: NEW326 In vitro transport studies confirmed that uric acid is a BCRP substrate, and cells expressing the Q141K variant resulting from the ABCG2 421C>A SNP had lower uric acid efflux activity than cells expressing wild-type BCRP.
X
ABCG2 p.Gln141Lys 25236865:326:98
status: NEW
PMID: 25417047
[PubMed]
Koo DH et al: "Association of ABCG2 polymorphism with clinical efficacy of imatinib in patients with gastrointestinal stromal tumor."
No.
Sentence
Comment
103
The most studied polymorphism in ABCG2 is the non-synonymous SNP 421C>A in exon 5, which results in a glutamine to lysine substitution at codon 141 (Q141K), localized in the ATP-binding domain [24].
X
ABCG2 p.Gln141Lys 25417047:103:102
status: NEWX
ABCG2 p.Gln141Lys 25417047:103:149
status: NEW104 It is well known that ABCG2 harboring the Q141K polymorphism results in impaired expression, incomplete transport to the plasma membrane, and decreased efflux function of BCRP, and consequently results in reduced clearance of ABCG2 substrate drugs [25].
X
ABCG2 p.Gln141Lys 25417047:104:42
status: NEW105 As cells expressing ABCG2 Q141K have a higher imatinib accumulation in vitro compared to cells wild type in ABCG2, this variant form of ABCG2 is associated with TableÊf;5ߒߙImatinib plasma trough level according to genotype SD standard deviation, BSA body surface area, Hb hemoglobin, WBC white blood cell, CCr creatinine clearance * p value for log-transformed imatinib level ** After adjusting for sex, age, BSA, Hb, Albumin, and CCr *** Patients who received imatinib for metastatic or recurrent GIST (N = 145) Genotype (N) Imatinib trough level (ng/mL) p value* p value** p value*** Mean SD CYP3A5 6986A>G AA (13) 1,342.8 450.3 0.918 0.764 0.656 AG (68) 1,375.6 633.3 GG (128) 1415.8 711.7 ABCB1 1236C>T CC (35) 1346.3 673.9 0.205 0.573 0.092 CT (94) 1347.2 678.3 TT (80) 1480.7 662.1 2677G>A/T GG (41) 1477.4 774.9 0.394 0.315 0.447 Hetero (135) 1350.2 620.5 TT (33) 1495.8 734.3 3435C>T CC (81) 1454.9 672.1 0.338 0.258 0.239 CT (98) 1343.4 708.1 TT (30) 1423.9 538.1 ABCG2 34G>A GG (119) 1360.5 486.8 0.930 0.940 0.959 GA (75) 1393.8 727.1 AA (15) 1405.7 659.2 421C>A CC (103) 1339.3 655.3 0.216 0.477 0.201 CA (88) 1477.4 693.5 AA (18) 1347.9 648.6 Fig.Êf;2ߒߙImatinib trough plasma levels according to genetic polymorphisms among metabolizer and efflux-transporter genes.
X
ABCG2 p.Gln141Lys 25417047:105:26
status: NEW107 This impaired functioning of the ABCG2 protein in cells transfected with ABCG2 Q141K is similar to the result of SNP-induced alterations in the function of the BCRP protein itself [28].
X
ABCG2 p.Gln141Lys 25417047:107:79
status: NEW
No.
Sentence
Comment
234
A common nonsynonymous SNP in ABCG, Q141K, reduced ABCG2 function by 53% in this system.
X
ABCG2 p.Gln141Lys 25422986:234:36
status: NEW235 Subsequent work in mammalian cells (38, 136) and Xenopus oocytes (136) revealed a temperature-dependent expression defect in Q141K-ABCG2, linked to instability of the nucleotide-binding domain (136).
X
ABCG2 p.Gln141Lys 25422986:235:125
status: NEW236 There are similarities in the biochemical phenotype of Q141K-ABCG2 and F508 CFTR proteins such that small-molecule therapies designed for cystic fibrosis can rescue the expression defect of Q141K-ABCG2 (136).
X
ABCG2 p.Gln141Lys 25422986:236:55
status: NEWX
ABCG2 p.Gln141Lys 25422986:236:191
status: NEW722 Gout-causing Q141K mutation in ABCG2 leads to instability of the nucleotide-binding domain and can be corrected with small molecules.
X
ABCG2 p.Gln141Lys 25422986:722:13
status: NEW
PMID: 25451572
[PubMed]
Kranz J et al: "The role of the efflux carriers Abcg2 and Abcc2 for the hepatobiliary elimination of benzo[a]pyrene and its metabolites in mice."
No.
Sentence
Comment
172
One of these SNP, C421A generates an amino acid exchange (Gln141Lys) at the N-terminus of the protein and was shown to decrease the protein expression level and ATPase activity of the ABCG2 transporter [19,27].
X
ABCG2 p.Gln141Lys 25451572:172:58
status: NEW
PMID: 25468777
[PubMed]
Grey Nee Cotte S et al: "Lack of efficacy of mitoxantrone in primary progressive Multiple Sclerosis irrespective of pharmacogenetic factors: a multi-center, retrospective analysis."
No.
Sentence
Comment
16
Patients, material and methods After approval by local ethics committees and informed consent, genotyping for ABCG2 V12M (reference SNP rs2231137) and Q141K (rs2231142) and ABCB1 3435CNT (rs1045642) and 2677GNT (rs2032582) was performed using TaqManࡊ polymerase chain reaction Journal of Neuroimmunology 278 (2015) 277-279 Ìe; Corresponding author at: Department of Neurology, St. Josef-Hospital, Ruhr University Bochum, Gudrunstr.
X
ABCG2 p.Gln141Lys 25468777:16:151
status: NEW
PMID: 25469257
[PubMed]
Sari FM et al: "Investigation of the functional single-nucleotide polymorphisms in the transporter and susceptibility to colorectal cancer."
No.
Sentence
Comment
21
The BCRP 421C>A variant (rs2231142), causes a Gln141Lys (Q141K) change, and is associated with low levels of BCRP expression (13).
X
ABCG2 p.Gln141Lys 25469257:21:46
status: NEWX
ABCG2 p.Gln141Lys 25469257:21:57
status: NEW
PMID: 25515134
[PubMed]
Miura Y et al: "Sunitinib-induced severe toxicities in a Japanese patient with the ABCG2 421 AA genotype."
No.
Sentence
Comment
85
Another population pharmacokinetics study also identified ethnic background as a significant covariate for the Table 1 Genotypes of seven SNPs in CYP3A5, ABCB1 and ABCG2 Gene SNP Allele Amino acid Genotype CYP3A5 rs776746 6986A > G Splice Site AG ABCB1 rs1128503 1236C > T G412G CT ABCB1 rs2032582 2677G > T/A A893S/T GT ABCB1 rs1045642 3435C > T I1145I CT ABCG2 rs2231137 34G > A V12M GG ABCG2 rs72552713 376G > A Q126X GG ABCG2 rs2231142 421C > A Q141K AA prediction of oral clearance [16].
X
ABCG2 p.Gln141Lys 25515134:85:449
status: NEW137 Imai Y, Nakane M, Kage K, Tsukahara S, Ishikawa E, Tsuruo T, Miki Y, Sugimoto Y: C421A polymorphism in the human breast cancer resistance protein gene is associated with low expression of Q141K protein and low-level drug resistance.
X
ABCG2 p.Gln141Lys 25515134:137:188
status: NEW
PMID: 25630984
[PubMed]
Birmingham BK et al: "Rosuvastatin pharmacokinetics and pharmacogenetics in Caucasian and Asian subjects residing in the United States."
No.
Sentence
Comment
4
The influence of polymorphisms in SLCO1B1 (T521>C [Val174Ala] and A388>G [Asn130Asp]) and in ABCG2 (C421>A [Gln141Lys]) on exposure to rosuvastatin was also assessed.
X
ABCG2 p.Gln141Lys 25630984:4:108
status: NEW37 In addition, an exploratory pharmacogenetic analysis was performed to examine the effects of three SNPs on rosuvastatin pharmacokinetics, including two polymorphisms in SLCO1B1 (T521>C [Val174Ala] and A388>G [Asn130Asp]) and one polymorphism in ABCG2 (C421>A [Gln141Lys]).
X
ABCG2 p.Gln141Lys 25630984:37:260
status: NEW62 All data were analyzed with Sequence Detection Systems (c) software v2.1: SLCO1B1 A388G (Asn130Asp) rs2306283 and ABI assay C__1901697_20 SLCO1B1 T521C (Val174Ala) rs4149056 and ABI assay C__30633906_10 ABCG2 C421A (Gln141Lys) rs2231142 and ABI assay C__15854163_70.
X
ABCG2 p.Gln141Lys 25630984:62:216
status: NEW133 The 421A allele, present at a higher frequency in the Asian populations (apart from the Asian Indians) than in the Caucasian population (Table 4), appeared to account Table 4 Genotype frequencies and HWE results by ethnic group Polymorphism Genotype Frequency (%) Pooled Asiana n=100 Chinese n=17 Filipino n=19 Asian-Indian n=16 Korean n=23 Vietnamese n=16 Japanese n=25 Caucasian n=22 SLCO1B1: T521>C (Val174Ala) T\T T\C C\C 78 (78 %) 22 (22 %) 0 15 (88 %) 2 (12 %) 0 14 (74 %) 5 (26 %) 0 16 (100 %) 0 0 18 (78 %) 5 (22 %) 0 12 (75 %) 4 (25 %) 0 19 (76 %) 6 (24 %) 0 15 (68 %) 6 (27 %) 1 (5 %) HWE p value - 1.00 1.00 1.00 1.00 1.00 1.00 0.54 SLCO1B1: A388>G (Asn130Asp) A\A A\G G\G 7 (7 %) 33 (33 %) 60 (60 %) 1 (6 %) 5 (29 %) 11 (65 %) 2 (11 %) 2 (11 %) 15 (79 %) 4 (25 %) 8 (50 %) 4 (25 %) 2 (9 %) 11 (48 %) 10 (43 %) 0 (0 %) 2 (12.5 %) 14 (87.5 %) 2 (8 %) 13 (52 %) 10 (40 %) 9 (41 %) 9 (41 %) 4 (18 %) HWE p value - 0.54 0.03 1.00 1.00 1.00 0.66 0.65 ABCG2: C421>A (Gln141Lys) C\C C\A A\A 49 (49 %) 46 (46 %) 5 (5 %) 7 (41 %) 10 (59 %) 0 10 (53 %) 7 (37 %) 2 (11 %) 14 (88 %) 1 (6 %) 1 (6 %) 13 (57 %) 10 (43 %) 0 7 (44 %) 8 (50 %) 1 (6 %) 12 (48 %) 11 (44 %) 2 (8 %) 15 (68 %) 7 (32 %) 0 HWE p value - 0.24 0.61 0.10 0.54 1.00 1.00 1.00 HWE Hardy-Weinberg equilibrium a The pooled Asian group comprised all Chinese, Filipino, Korean, Vietnamese and Japanese subjects for some but not all of the inter-ethnic group variability in exposure.
X
ABCG2 p.Gln141Lys 25630984:133:972
status: NEW199 A study in Chinese subjects investigating the effect of the ABCG2 C421>A (Gln141Lys) polymorphism on rosuvastatin exposure has suggested that the 421A allele is significantly associated with higher Cmax and AUC than the 421C allele [15].
X
ABCG2 p.Gln141Lys 25630984:199:74
status: NEW
PMID: 25646370
[PubMed]
Matsuo H et al: "Genome-wide association study of clinically defined gout identifies multiple risk loci and its association with clinical subtypes."
No.
Sentence
Comment
55
Two dysfunctional SNPs of ABCG2 We previously demonstrated that two dysfunctional SNPs of ABCG2, rs72552713 (Gln126Ter) and rs2231142 (Gln141Lys), were located on different haplotypes4 18 and strongly associated with hyperuricaemia and gout.4 18 32 Therefore, we additionally performed genotyping of these two SNPs by an allelic discrimination assay because SNPs are not on Illumina HumanOmniExpress V .1.0 (Illumina).
X
ABCG2 p.Gln141Lys 25646370:55:135
status: NEW86 ABCG2 is identified to have an association with SUA levels by recent GWASs.9-16 Subsequent genetic and functional analysis17 18 revealed that ABCG2 is a high-capacity urate exporter and shows the reduced transport of urate by a common half-functional variant, rs2231142 (Gln141Lys).
X
ABCG2 p.Gln141Lys 25646370:86:271
status: NEW109 &#a7;Non-synonymous SNPs (rs1260326, Leu446Pro; rs72552713, Gln126Ter; and rs2231142, Gln141Lys).
X
ABCG2 p.Gln141Lys 25646370:109:86
status: NEW
PMID: 25741042
[PubMed]
Suma S et al: "ASSOCIATIONS BETWEEN BODY MASS INDEX AND SERUM URIC ACID LEVELS IN A JAPANESE POPULATION WERE SIGNIFICANTLY MODIFIED BY LRP2 rs2544390."
No.
Sentence
Comment
17
Polymorphisms ABCG2 Q126X (rs72552713) and Q141K (rs2231142) have been shown to influence the risk of hyperuricemia through reduction of the uric acid transportation activity.16-18) Our previous studies have confirmed the associations with these polymorphisms,16,19,20) and we observed an interaction with alcohol consumption on SUA in our investigation of the LRP2 intron 1 polymorphism rs2544390.21) Because obesity is an important factor that determines SUA,6) the present study aimed to investigate the interaction between LRP2 rs2544390 and BMI on SUA levels using the same dataset as our previous work.
X
ABCG2 p.Gln141Lys 25741042:17:43
status: NEW
PMID: 25811787
[PubMed]
Huffman JE et al: "Modulation of genetic associations with serum urate levels by body-mass-index in humans."
No.
Sentence
Comment
252
The ATP-binding cassette transporter ABCG2 has been established as a high capacity urate transporter, is expressed in renal proximal tubules, liver and intestines, and the hyperuricemia causal Q141K mutation has been shown to reduce urate transport rates [39].
X
ABCG2 p.Gln141Lys 25811787:252:193
status: NEW254 Interestingly, BMI-dependent effects of Q141K on urate response to acute fructose exposure have been recently reported [41].
X
ABCG2 p.Gln141Lys 25811787:254:40
status: NEW
PMID: 25889045
[PubMed]
Merriman TR et al: "An update on the genetic architecture of hyperuricemia and gout."
No.
Sentence
Comment
132
The genetic basis is considerably simpler than that at SLC2A9, and the association signal is reported to be driven solely by the rs2231142 (Q141K) variant [36].
X
ABCG2 p.Gln141Lys 25889045:132:140
status: NEW141 ABCG2 Q141K may also interact with extra-renal metabolic pathways to regulate serum urate (for example, via an influence on hepatic conversion of fructose to glucose) [39].
X
ABCG2 p.Gln141Lys 25889045:141:6
status: NEW166 At ABCG2, the rs2231142 variant (Q141K), which is highly likely to be a causal variant at this locus [36], was associated with ABCG2 expression in the liver [4].
X
ABCG2 p.Gln141Lys 25889045:166:33
status: NEW
PMID: 25918011
[PubMed]
Studzian M et al: "Endocytosis of ABCG2 drug transporter caused by binding of 5D3 antibody: trafficking mechanisms and intracellular fate."
No.
Sentence
Comment
14
Some sequence variants, e.g. the common human polymorphism Q141K, misdirects the molecule with partial folding defects to intracellular aggresomes [11].
X
ABCG2 p.Gln141Lys 25918011:14:59
status: NEW
PMID: 25960692
[PubMed]
Chen X et al: "Impact of ABCG2 polymorphisms on the clinical outcome of TKIs therapy in Chinese advanced non-small-cell lung cancer patients."
No.
Sentence
Comment
254
Imai Y, Nakane M, Kage K, Tsukahara S, Ishikawa E, Tsuruo T, et al. C421A Polymorphism in the Human Breast Cancer Resistance Protein Gene Is Associated with Low Expression of Q141K Protein and Low-Level Drug Resistance 1 Supported in part by grants from the Ministry of Education, Culture, Sports, Science and Technology, the Ministry of Health, Labour and Welfare, Japan, and the Virtual Research Institute of Aging of Nippon Boehringer Ingelheim.
X
ABCG2 p.Gln141Lys 25960692:254:175
status: NEW258 Furukawa T, Wakabayashi K, Tamura A, Nakagawa H, Morishima Y, Osawa Y, et al. Major SNP (Q141K) variant of human ABC transporter ABCG2 undergoes lysosomal and proteasomal degradations.
X
ABCG2 p.Gln141Lys 25960692:258:89
status: NEW
PMID: 26136557
[PubMed]
Woodward OM et al: "ABCG2: the molecular mechanisms of urate secretion and gout."
No.
Sentence
Comment
12
This review will highlight the recent work to identify the first important human uric acid secretory transporter, ABCG2, and the identification of a common causal ABCG2 variant, Q141K, for hyperuricemia and gout.
X
ABCG2 p.Gln141Lys 26136557:12:178
status: NEW13 uric acid; kidney; ABCG2; Q141K; gout; hyperuricemia URIC ACID IS A TERMINAL METABOLITE of the purine metabolic pathway in humans and is only weakly soluble in water or blood.
X
ABCG2 p.Gln141Lys 26136557:13:26
status: NEW38 We found the Q141K variant had similar total and surface expression levels in the Xenopus oocytes but showed a 54% reduction in urate transport, marking Q141K as a loss-of-function mutation (17, 18, 30).
X
ABCG2 p.Gln141Lys 26136557:38:13
status: NEWX
ABCG2 p.Gln141Lys 26136557:38:153
status: NEW39 A population-based study of 14,783 individuals supported rs2231142 (Q141K) as a causal variant for gout and increased SUA levels, marking the rs2231142 as a rare example in support of the common disease-common variant hypothesis (30).
X
ABCG2 p.Gln141Lys 26136557:39:68
status: NEW42 Matsuo et al. compared gouty and normal cohorts of Japanese males and found two ABCG2 mutations, Q141K (50% function) and Q126X (no function), and used these to correlate ABCG2 function with age of gout onset.
X
ABCG2 p.Gln141Lys 26136557:42:97
status: NEW50 Of the 28 loci, the ABCG2 loci (rs2231142/ Q141K mutation) resulted in the highest OR for gout risk (1.73) and contributed the largest increases in SUA (0.217 mg/dl) (12).
X
ABCG2 p.Gln141Lys 26136557:50:43
status: NEW51 Q141K Q141K / H155A 0.00 0.25 0.50 Q141K ABCG2 abundance relative to Wt Q141K ABCG2 H155A -- -- H155A GAPDH ABCG2 Wt ABCG2 Q141K H155 2 Q141K + H155A H155A ICL Q141K / Wt NBD B A C D ** Fig. 1.
X
ABCG2 p.Gln141Lys 26136557:51:0
status: NEWX
ABCG2 p.Gln141Lys 26136557:51:6
status: NEWX
ABCG2 p.Gln141Lys 26136557:51:35
status: NEWX
ABCG2 p.Gln141Lys 26136557:51:72
status: NEWX
ABCG2 p.Gln141Lys 26136557:51:123
status: NEWX
ABCG2 p.Gln141Lys 26136557:51:136
status: NEWX
ABCG2 p.Gln141Lys 26136557:51:160
status: NEW52 Q141K gout-causing mutation changes NBD structure in a model of ABCG2.
X
ABCG2 p.Gln141Lys 26136557:52:0
status: NEW53 A: model comparing Wt and Q141K NBDs as described in Woodward et al. (32) reveals a shift in an adjacent loop (black arrow, Q141K in blue, Wt in green).
X
ABCG2 p.Gln141Lys 26136557:53:26
status: NEWX
ABCG2 p.Gln141Lys 26136557:53:124
status: NEW55 C: biochemical confirmation of the model shows the Q141K mutant expression levels can be rescued with the secondary H155A substitution.
X
ABCG2 p.Gln141Lys 26136557:55:51
status: NEW63 Recent work has focused on the molecular defect caused by the Q141K mutation of ABCG2 as both a potential therapeutic target and also as a model for understanding the basic structure/ function biology of ABC transporters.
X
ABCG2 p.Gln141Lys 26136557:63:62
status: NEW64 The Q141K mutation occurs in a residue of the nucleotide-binding domain, a position believed critical for interactions with the intracellular loops of the transmembrane portion of the protein.
X
ABCG2 p.Gln141Lys 26136557:64:4
status: NEW67 A comparative analysis between the Q141K ABCG2 mutant and the èc;F508 CFTR mutant reveals striking similarities.
X
ABCG2 p.Gln141Lys 26136557:67:35
status: NEW72 The Q141K ABCG2 mutant appears to only cause instability in the NBD domain.
X
ABCG2 p.Gln141Lys 26136557:72:4
status: NEW73 We recently demonstrated that artificially stabilizing the NBD domain of the Q141K mutant corrects the molecular defect.
X
ABCG2 p.Gln141Lys 26136557:73:77
status: NEW79 The specific source of the Q141K instability has remained unresolved.
X
ABCG2 p.Gln141Lys 26136557:79:27
status: NEW80 Recently, we have found that modeling the Q141K and Wt ABCG2 NBD domains (32) suggested a loop adjacent to the site of the Q141K substitution (see Fig. 1A) appears to be shifted outward, resulting from a clash between the mutant 141K residue and a histidine residue at the top of the loop.
X
ABCG2 p.Gln141Lys 26136557:80:42
status: NEWX
ABCG2 p.Gln141Lys 26136557:80:123
status: NEW81 Replacing the histidine with an alanine appeared to resolve the shift and also significantly increased total Q141K (H155A) and mature, glycosylated protein abundance (Fig. 1, B-D) when expressed in HEK293 cells.
X
ABCG2 p.Gln141Lys 26136557:81:109
status: NEW
PMID: 26244574
[PubMed]
Chu YH et al: "Association of ABCB1 and FLT3 Polymorphisms with Toxicities and Survival in Asian Patients Receiving Sunitinib for Renal Cell Carcinoma."
No.
Sentence
Comment
102
Genotype distribution Polymorphism rs number Variation na wt/wt wt/var var/var VAFe VEGFR2 1191 C/T rs2305948 V297I 94 64 30 0 0.160 (T) FLT3 738 T/C rs1933437 M227T 95 47 43 5 0.279 (C) ABCB1 1236 T/C rs1128503 G412G 93 35 49 9 0.360 (C) ABCB1 2677 G/TA rs2032582 A893S/T 96 25 44b 27c 0.375 (T); 0.135 (A) ABCB1 3435 C/T rs1045642 I1145I 96 34 50 12 0.385 (T) ABCG2 421 C/A rs2231142 Q141K 95 50 38 7 0.274 (A) BIM i2del d - i2del d 45 33 12 0 0.133 a Patients successfully genotyped.
X
ABCG2 p.Gln141Lys 26244574:102:386
status: NEW
PMID: 26250462
[PubMed]
Salimizand H et al: "Concurrent effects of ABCB1 C3435T, ABCG2 C421A, and XRCC1 Arg194Trp genetic polymorphisms with risk of cancer, clinical output, and response to treatment with imatinib mesylate in patients with chronic myeloid leukemia."
No.
Sentence
Comment
29
Regarding ABCG2, one of the most important genetic variations is C421A (Q141K, rs2231142) which has been located on exon 5 and has a high association with BCRP activity [10-12].
X
ABCG2 p.Gln141Lys 26250462:29:72
status: NEW
PMID: 26506822
[PubMed]
Jiri M et al: "Genetic variation in the ABCG2 gene is associated with gout risk in the Chinese Han population."
No.
Sentence
Comment
25
The most significant association at one of the loci was observed for a missense single-nucleotide polymorphism (SNP), rs2231142 (glutamine-to-lysine amino acid substitution (Q141K)) in the ABCG2 gene.
X
ABCG2 p.Gln141Lys 26506822:25:174
status: NEW74 ABCG2 is a high-capacity urate transporter which physiologically excretes urate Fig. 1 Haplotype block map for ABCG2 SNPs Table 3 ABCG2 haplotype frequencies and their association with gout (adjust by age and sex) Gene(s) Haplotype Frequency OR (95 % CI) p value ABCG2 GCCTAGT 0.2868 1 - GGCTCTC 0.2092 0.46 (0.28-0.75) 0.0019 AGACCTC 0.2014 0.71 (0.45-1.12) 0.14 GCCTCTC 0.0735 1.10 (0.57-2.13) 0.78 GGACCTC 0.0669 0.57 (0.27-1.18) 0.13 GCCTATC 0.0582 1.53 (0.75-3.14) 0.24 GGCTAGT 0.0378 0.37 (0.12-1.16) 0.09 GCCTAGC 0.0124 0.80 (0.19-3.46) 0.77 GCCTAGT 0.0538 0.47 (0.19-.13) 0.092 p value<0.05 indicates statistical significance OR odds ratio, CI confidence interval for the regulation of SUA. ABCG2 has the following two common dysfunctional variants: a non-sense variant Q126X and a missense variant Q141K [19, 22].
X
ABCG2 p.Gln141Lys 26506822:74:808
status: NEW
PMID: 26552468
[PubMed]
Kim YS et al: "Genetic analysis of ABCG2 and SLC2A9 gene polymorphisms in gouty arthritis in a Korean population."
No.
Sentence
Comment
46
rs2231142, also known as Q141K and C421A, is an SNP in the ABCG2 gene and, thus, a missense variant.
X
ABCG2 p.Gln141Lys 26552468:46:25
status: NEW98 Furthermore, rs2231142, the missense SNP in ABCG2 (Q141K) has been associated with hyperuricemia and gout in Caucasian, African-American, Japanese, and Han Chinese samples [27-29].
X
ABCG2 p.Gln141Lys 26552468:98:51
status: NEW
PMID: 26578453
[PubMed]
Salagacka-Kubiak A et al: "ABCG2 in peptic ulcer: gene expression and mutation analysis."
No.
Sentence
Comment
33
It is a non-synonymous polymorphism leading to a change of glutamine into lysine at position 141 in protein (Q141K) (Cusatis et al. 2006).
X
ABCG2 p.Gln141Lys 26578453:33:109
status: NEW
PMID: 26579371
[PubMed]
Wu CP et al: "The pharmacological impact of ATP-binding cassette drug transporters on vemurafenib-based therapy."
No.
Sentence
Comment
72
Recently, ABCG2 has been linked to the disease gout, as mutations (for example Q141K) in this transporter result in decreased efflux of urate from kidney epithelial cells54,55 .
X
ABCG2 p.Gln141Lys 26579371:72:79
status: NEW
PMID: 26617691
[PubMed]
Li R et al: "A meta-analysis of the associations between the Q141K and Q126X ABCG2 gene variants and gout risk."
No.
Sentence
Comment
3
ABCG2 is a urate transporter, and the Q141K and Q126X variants of ABCG2 have been associated with a risk of developing gout, though previous studies of these associations have been inconsistent.
X
ABCG2 p.Gln141Lys 26617691:3:38
status: NEW5 In total, 9 eligible articles on the associations between the Q141K (rs2231142) and Q126X (rs72552713) variants and gout risk, including 11 case-control studies were selected.
X
ABCG2 p.Gln141Lys 26617691:5:62
status: NEW8 The Q141K variant was found to significantly increase the risk of gout in Asians (dominant model: OR=2.64, 95% CI=2.04-3.43, P=0.02 for heterogeneity; recessive model: OR=3.19, 95% CI=2.56-3.97, P=0.28 for heterogeneity; co-dominant model: OR=1.37, 95% CI=1.18-1.59, P=0.09 for heterogeneity) and other populations (dominant model: OR=1.85, 95% CI=1.20-2.85, P<0.0001 for heterogeneity; recessive model: OR=3.78, 95% CI=2.28-6.27, P=0.19 for heterogeneity; co-dominant model: OR=1.48, 95% CI=1.26-1.74, P=0.19 for heterogeneity).
X
ABCG2 p.Gln141Lys 26617691:8:4
status: NEW12 Keywords: Gout, Q141K, Q126X, single nucleotide polymorphism, meta-analysis Introduction Gout is a recurrent relapsing inflammatory disease, caused by the precipitation of monosodium urate (MSU) crystals in the joints and soft tissues.
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ABCG2 p.Gln141Lys 26617691:12:16
status: NEW26 Among these, Q141K and Q126X are the most commonly studied.
X
ABCG2 p.Gln141Lys 26617691:26:13
status: NEW27 SNP rs2231142, also referred to as C421A or Q141K in ABCG2, is located in exon 5 [10] and substitutes glutamic acid for diaminocaproic acid.
X
ABCG2 p.Gln141Lys 26617691:27:44
status: NEW33 The literature search was performed in English and Chinese using the following primary key words: gout, ABCG2, C421A, Q141K, rs2231142, C376T, Q126X, and rs72552713.
X
ABCG2 p.Gln141Lys 26617691:33:118
status: NEW37 Characteristics of the included studies (Q141K) First author (Ref.) Year Ethnicity/country Diagnostic standard Study design Sample size (case/control) HWE p-value Genotype distribution (case/control) Genotype frequency (case/control) CC CA AA CC (%) CA (%) AA (%) Wang Qiong [17] 2014 Asians China ACR preliminary diagnostic criteria for acute gout (1977) Case-control 185/311 Yes 64/157 86/126 35/28 34.6/50.5 46.5/40.5 18.9/9.0 Zhang Xin-Lei [28] 2014 Asians China ACR preliminary diagnostic criteria for acute gout (1977) Case-control 147/321 Yes 30/167 79/134 38/20 20.4/52.0 53.7/41.7 25.9/6.2 Li Fa-Gui [12] 2011 Asians China ACR preliminary diagnostic criteria for acute gout (1977) Case-control 200/235 Yes 64/103 91/112 45/20 32.0/43.8 45.5/47.7 22.5/8.5 Amanda 1 [25] 2010 Maori New Zealand ACR preliminary diagnostic criteria for acute gout (1977) Case-control 185/215 Yes 142/172 34/39 2/1 79.8/81.1 19.1/18.4 1.1/0.5 Amanda 2 [25] 2010 Pacific Islander New Zealand ACR preliminary diagnostic criteria for acute gout (1977) Case-control 173/109 Yes 58/69 78/36 37/4 33.5/63.3 45.1/33.0 21.4/3.7 Amanda 3 [25] 2010 Caucasian New Zealand ACR preliminary diagnostic criteria for acute gout (1977) Case-control 214/562 Yes 122/425 76/125 13/8 57.8/76.2 36.0/22.4 6.2/1.4 Danqiu Zhou [36] 2014 Asians China ACR preliminary diagnostic criteria for acute gout (1977) Case-control 352/350 Yes 87/167 181/150 84/33 24.7/47.7 51.4/42.9 23.9/9.4 Klaus [32] 2009 Caucasian German ACR preliminary diagnostic criteria for acute gout (1977) Case-control 677/1552 Yes 500/1241 168/299 9/12 73.9/80.0 24.8/19.2 1.3/0.8 Zhang Xiu-Juan [36] 2012 Asians China ARA diagnostic criteria for acute gout (1997) Case-control 110/236 Yes 35/120 55/96 20/20 31.8/50.8 50.0/40.7 18.2/8.5 You Yu-Quan [39] 2013 Asians China ACR preliminary diagnostic criteria for acute gout (1977) Case-control 154/160 Yes 48/98 78/49 28/13 31.2/60.3 50.6/30.6 18.2/8.1 Ye De-Shao [62] 2012 Asians China ACR preliminary diagnostic criteria for acute gout (1977) Case-control 102/102 Yes 23/53 42/40 37/9 22.5/52.0 41.2/39.2 36.3/8.8 Table 2.
X
ABCG2 p.Gln141Lys 26617691:37:41
status: NEW38 Characteristics of the included studies (Q126X) First author (Ref.) Year Ethnicity/ country Diagnostic standard Study design Sample size (case/control) HWE p-value Genotype distribution (case/control) Genotype frequency (case/control) CC CT TT CC (%) CT (%) TT (%) Zhang Xin-Lei [28] 2014 Asians China ACR preliminary diagnostic criteria for acute gout (1977) Case-control 136/321 Yes 127/320 9/1 0/0 93.4/99.7 6.6/0.3 0/0 Danqiu Zhou [36] 2014 Asians China ACR preliminary diagnostic criteria for acute gout (1977) Case-control 352/350 Yes 319/338 33/12 0/0 90.6/96.6 9.4/3.4 0/0 The following index terms were used: gout and ABCG2, gout and C421A, gout and Q141K, gout and rs2231142, gout and C376T, gout and Q126X, and gout and rs72552713.
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ABCG2 p.Gln141Lys 26617691:38:661
status: NEW39 Selection criteria In this meta-analysis, we established the following inclusion criteria: (1) the publication Figure 2. Forest plot of the associations between the Q141K variant and gout risk using the A: Dominant model (CC compared to AC+AA), B: Recessive model (AA compared to CC+AC), and C: Co-dominant model (AC compared to CC+AA).
X
ABCG2 p.Gln141Lys 26617691:39:165
status: NEW40 Figure 3. Forest plot describing ethnicity in the dominant model (Q141K).
X
ABCG2 p.Gln141Lys 26617691:40:66
status: NEW48 Fortunately, the quality of the included studies was high, and we were able to collect the following data from each study: the first author`s name, publication year, country, ethnicity, diagnostic standard of gout, study design, total number of cases and controls, HWE P-value, genotype distribution and geno- Figure 4. Forest plot describing ethnicity in the recessive model (Q141K).
X
ABCG2 p.Gln141Lys 26617691:48:379
status: NEW53 Each relationship was assessed in a dominant model (Q141K: CC compared to AC+AA; Q126X: CC compared to CT+TT), a recessive model (Q141K: AA compared to CC+AC), and a co-dominant model (Q141K: AC compared to CC+AA).
X
ABCG2 p.Gln141Lys 26617691:53:52
status: NEWX
ABCG2 p.Gln141Lys 26617691:53:130
status: NEWX
ABCG2 p.Gln141Lys 26617691:53:185
status: NEW59 Figure 5. Forest plot describing ethnicity in the co-dominant model (Q141K).
X
ABCG2 p.Gln141Lys 26617691:59:69
status: NEW66 All of these 9 studies involved the Q141K variant, and only 2 studies referred to the Q126X variant.
X
ABCG2 p.Gln141Lys 26617691:66:36
status: NEW68 Of these 9 studies, of the Q141K variant, one study contained data for three different ethnicities; therefore, each of these studies was treated separately.
X
ABCG2 p.Gln141Lys 26617691:68:27
status: NEW77 Sensitivity analysis for the association between the Q141K variant and gout risk.
X
ABCG2 p.Gln141Lys 26617691:77:53
status: NEW79 Begg`s funnel plot examining the publication bias of studies using the recessive model (Q141K).
X
ABCG2 p.Gln141Lys 26617691:79:88
status: NEW87 Among the ABCG2 polymorphisms, Q141K and Q126X are the most commonly studied.
X
ABCG2 p.Gln141Lys 26617691:87:31
status: NEW88 Nevertheless, the role of the Q141K variant in gout risk and the potential for the Q126X variant to increase gout risk are controversial.
X
ABCG2 p.Gln141Lys 26617691:88:30
status: NEW90 Hirotaka et al. [25], Kazumasa et al. [11] and Xiaofei Lv [26] also showed that the Q141K variant increases the risk of gout.
X
ABCG2 p.Gln141Lys 26617691:90:84
status: NEW95 Our results suggested that the Q141K variant results in increased gout risk in dominant, recessive, and co-dominant models, and in subgroup analyses, Q126X also increased gout risk in a dominant model.
X
ABCG2 p.Gln141Lys 26617691:95:31
status: NEW101 Ethnic differences are always mentioned by researchers not only in discussions of gout [29] but also in the association between the Q141K polymorphism and gout risk [24, 30].
X
ABCG2 p.Gln141Lys 26617691:101:132
status: NEW103 From this subgroup analysis, we found that regardless of race, the Q141K variant increases the risk of gout.
X
ABCG2 p.Gln141Lys 26617691:103:67
status: NEW118 Our evidence revealed that Q141K and Q126X are risk factors for the development of gout.
X
ABCG2 p.Gln141Lys 26617691:118:27
status: NEW182 Association of functional polymorphism rs2231142 (Q141K) in the ABCG2 gene with serum uric acid and gout in 4 US populations.
X
ABCG2 p.Gln141Lys 26617691:182:50
status: NEW195 Association between ABCG2 Q141K polymorphism and gout risk affected by ethnicity and gender: a systematic review and meta-analysis.
X
ABCG2 p.Gln141Lys 26617691:195:26
status: NEW