ABCB11 p.Gly238Val

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PMID: 12663868 [PubMed] Trauner M et al: "Bile salt transporters: molecular characterization, function, and regulation."
No. Sentence Comment
631 G238V, E297G, G982R, R1153C, and R1268Q mutations prevent the protein from trafficking to the apical membrane, whereas the G238V mutant seems to be rapidly degraded by proteasomes.
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ABCB11 p.Gly238Val 12663868:631:0
status: NEW
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ABCB11 p.Gly238Val 12663868:631:123
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PMID: 17051391 [PubMed] Stieger B et al: "The bile salt export pump."
No. Sentence Comment
160 Their bile flow rate is slightly but not significantly lower in comparison to controls, but the total bile salt output into bile is massively reduced and their liver bile salt concen- S114R G238V V284L* C336S D482G R487H S593R E636G G982R G1004D R1153CD R1268Q E186G E297G R432T I498T I498T T923P A926P R1050C R1128H S194P G260D N519S A1228V V444A K461E M677V R698H PFIC2 BRIC2 acquired cholestasis SNP Fig. 2 Putative secondary structure of Bsep (NT-005403) generated with the TOPO program (http://www.sacs.ucsf.edu/TOPO-run/wtopo.pl).
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ABCB11 p.Gly238Val 17051391:160:190
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PMID: 17181454 [PubMed] Sakurai A et al: "Prediction of drug-induced intrahepatic cholestasis: in vitro screening and QSAR analysis of drugs inhibiting the human bile salt export pump."
No. Sentence Comment
120 H2N COOH S56L G238V G260D C336S L339V V444A K461E D482G T923P K930X G982R R1090X R1153C Outside Inside R1268Q A1228VE1186K R1128H R1057X R1050C A926P A865V R698H E636G M677V S593R E592Q N591S R575XA570T Q558H I498T R432T R415Q R299K E297G V284A I206V S194P E186G cholestasis Expert Opin. Drug Saf. (2007) 6(1) Table 1.
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ABCB11 p.Gly238Val 17181454:120:14
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121 Nonsynonymous polymorphisms and mutations in the ABCB11 gene NCBI No. Exon Nucleotide Amino acid alteration Phenotype Ref. Position Alteration rs11568361 5 167 C→T Ser56Leu - [102] - 5 341 G→C Ser114Arg PFIC2 [47]* - 6 557 A→G Glu186Gly BRIC2 [45,48] - 6 580 T→C Ser194Pro - [44] rs11568358 7 616 A→G Ile206Val - [102] - 7 695 T→del Frame shift at position 232 PFIC2 [47] - 7 713 G→T Gly238Val PFIC2 [47] - 8 779 G→A Gly260Asp - [44] - 8 851 T→C Val284Ala - [44] rs11568372 8 890 A→G Glu297Gly PFIC2/BRIC2 [35,43,45,47,102] rs2287617 8 896 G→A Arg299Lys - [102] - 8 908 G→del Frame shift at position 303 PFIC2 [35] - 9 1007 G→C Cys336Ser PFIC2 [47] - 9 1015 C→G Leu339Val - [46] - 11 1244 G→A Arg415Gln - [39] - 11 1294 G→C Arg432Thr BRIC2 [43] rs2287622 12 1331 T→C Val444Ala ICP/PFIC2?
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ABCB11 p.Gly238Val 17181454:121:433
status: NEW
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PMID: 18376240 [PubMed] Alissa FT et al: "Update on progressive familial intrahepatic cholestasis."
No. Sentence Comment
188 Other common mutations include R575X, R1057X, G982R, C336S, R1153C, D482G, K461E, R1153C, R1268Q, R1090X, G238V, S114R, S593R, del 695, and del 3213 (66,67).
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ABCB11 p.Gly238Val 18376240:188:106
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PMID: 18798335 [PubMed] Wang L et al: "Degradation of the bile salt export pump at endoplasmic reticulum in progressive familial intrahepatic cholestasis type II."
No. Sentence Comment
4 G238V, D482G, G982R, R1153C, and R1286Q all retain Bsep to the endoplasmic reticulum (ER) to different extents.
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ABCB11 p.Gly238Val 18798335:4:0
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6 G238V and D482G are partially misfolded and can be stabilized by low temperature and glycerol.
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ABCB11 p.Gly238Val 18798335:6:0
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10 Gene knockdown studies showed that the ERAD E3s Rma1 and TEB4 contribute to the degradation of G238V, whereas HRD1 contributes to the degradation of a mutant lacking the lumenal glycosylation domain (⌬Gly).
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ABCB11 p.Gly238Val 18798335:10:95
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31 Inhibition of proteasomes also stabilized Bsep G238V, E297G, and D482G when examined in Madin-Darby canine kidney (MDCK) cells and human embryonic kidney (HEK) cells.8,10,13 These findings suggest that the proteasome plays a major role in the degradation of these BSEP mutants in PFIC II patients.
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ABCB11 p.Gly238Val 18798335:31:47
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48 The following missense mutants were studied in this work: G238V, D482G, G982R, R1153C, and R1286Q.
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ABCB11 p.Gly238Val 18798335:48:58
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82 The positions of G238V, D482G, G982R, R1153C, and R1286Q are indicated by star signs in a predicted topology model of rat Bsep.
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ABCB11 p.Gly238Val 18798335:82:17
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90 In contrast, the PFIC II mutants were mostly detected as core-glycosylated proteins, except G238V and D482G, for which a fraction of 190-kDa mature glycosylated form was also observed.
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ABCB11 p.Gly238Val 18798335:90:92
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96 For G238V and D482G, which are partially core-glycosylated, there is a partial colocalization between GFP-Bsep and calnexin.
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ABCB11 p.Gly238Val 18798335:96:4
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107 In G238V, the core-glycosylated form disappears while the mature form is not significantly increased, indicating that the core-glycosylated form is degraded over the chase period.
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ABCB11 p.Gly238Val 18798335:107:3
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124 For G238V and D482G, respectively, only approximately 20% and 40% of the 140-kDa protein is converted to the 160-kDa protein, whereas approximately 50% of the 140-kDa protein is degraded over the 120-minute chase (Fig. 3D).
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ABCB11 p.Gly238Val 18798335:124:4
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125 These data suggest that the core-glycosylated G238V and D482G have a half-life of approximately 2 hours, which is consistent with the results from the cycloheximide chase studies, which used chase times up to 4 hours (Fig. 3A).
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ABCB11 p.Gly238Val 18798335:125:46
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127 The Effect of Low Temperature and Chemical on G238V and D482G.
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ABCB11 p.Gly238Val 18798335:127:46
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128 The data in Fig. 3 suggest that a portion of D482G and G238V can be converted to the mature glycosylated form over time during biosynthesis.
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ABCB11 p.Gly238Val 18798335:128:55
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129 We next asked whether conditions such as low temperature or chemical chaperones can stabilize D482G and G238V, because these conditions favor protein folding and have been shown to stabilize the misfolded mutant protein CFTR ⌬F508 during its biogenesis.19 Both incubation at low temperature (30°C) and addition of glycerol increases the peripheral, cell surface expression of GFP-tagged D482G and G238V in HEK cells (Fig. 4A).
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ABCB11 p.Gly238Val 18798335:129:104
status: NEW
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ABCB11 p.Gly238Val 18798335:129:409
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130 This is confirmed by a higher percentage of mature glycosylated form in D482G and G238V in HEK cells under these conditions (Fig. 4B).
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ABCB11 p.Gly238Val 18798335:130:82
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131 These data together confirm the notion that a fraction of correctly folded D482G and G238V can traffic through secretory pathway, and this fraction is increased under the conditions that favor protein folding.
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ABCB11 p.Gly238Val 18798335:131:85
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133 Because the proteasome and lysosome provide two of the major degradation mechanisms in the cell, we next examined the contribution of these two pathways to the stability of G238V, D482G, and G982R.
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ABCB11 p.Gly238Val 18798335:133:173
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147 Low temperature and glycerol stabilize G238V and D482G.
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ABCB11 p.Gly238Val 18798335:147:39
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148 (A) The HEK 293 cells were transfected with wt GFP-Bsep, G238V, and D482G.
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ABCB11 p.Gly238Val 18798335:148:57
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156 In contrast, treatment with MG132 significantly stabilized the 170-kDa core-glycosylated form of G982R, D482G, and G238V.
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ABCB11 p.Gly238Val 18798335:156:115
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158 In contrast, the combination of ammonium chloride, leupeptin, and pepstatin only moderately increases the mature glycosylated form of D482G, while not affecting the expression of G238V or G982R.
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ABCB11 p.Gly238Val 18798335:158:179
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161 (A) The HEK 293 cells were transfected with the wt GFP-Bsep, G238V, D482G, and G982R.
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ABCB11 p.Gly238Val 18798335:161:61
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183 However, the increase in ubiquitination is moderate for wt Bsep, compared with the mutant proteins G238V, D482G, G982R, and ⌬Gly.
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ABCB11 p.Gly238Val 18798335:183:99
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193 To examine whether the ERAD E3s affect the expression of the Bsep mutants, we co-expressed the ERAD E3s HRD1, TEB4, Rma1, or CHIP with the wt Bsep, G238V, and ⌬Gly proteins.
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ABCB11 p.Gly238Val 18798335:193:148
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194 Increased levels of all the E3s resulted in decreased amounts of G238V and ⌬Gly compared with the mutant expressed alone (Fig. 7A).
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ABCB11 p.Gly238Val 18798335:194:65
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197 Enhanced ubiquitination of G238V was seen with the other ERAD E3s (data not shown).
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ABCB11 p.Gly238Val 18798335:197:27
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201 Reduction of TEB4 and Rma1 levels, but not those of CHIP, stabilized G238V.
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ABCB11 p.Gly238Val 18798335:201:69
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213 These data suggest that TEB4 and Rma1 may function as the E3s targeting G238V for degradation but do not do so for the wt Bsep and ⌬Gly proteins.
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ABCB11 p.Gly238Val 18798335:213:72
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226 (A) The HEK 293 cells were transfected with wt GFP-Bsep, G238V, and ⌬Gly alone or co-transfected with the cDNAs encoding the ERAD E3s HRD1, TEB4, Rma1, and myc-CHIP.
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ABCB11 p.Gly238Val 18798335:226:57
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235 (A) The HEK 293 cells were transfected with wt GFP-Bsep, G238V, and ⌬Gly.
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ABCB11 p.Gly238Val 18798335:235:57
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242 (including digitonin, deoxyBigChap, NP-40, and Triton X-100) and solubilization conditions but could not detect any specific interaction between the endogenous HRD1, TEB4, and Rma1 E3s and Bsep mutant substrates such as G238V and ⌬Gly (data not shown).
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ABCB11 p.Gly238Val 18798335:242:220
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246 Taken together, the data from this study show that G238V, D482G, G982R, R1153C, R1286Q, and ⌬Gly mutations cause retention of Bsep in the ER to different extents.
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ABCB11 p.Gly238Val 18798335:246:51
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251 For mutants D482G and G238V, only a portion of immature glycosylated protein can be converted to mature glycosylated protein over the chase period, whereas a large pool of immature glycosylated protein is degraded.
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ABCB11 p.Gly238Val 18798335:251:22
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252 This suggests that D482G and G238V are partly misfolded.
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ABCB11 p.Gly238Val 18798335:252:29
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253 This notion is supported by the data showing that conditions favoring protein folding, such as low temperature or the addition of glycerol, stabilize D482G and G238V and increase the fraction of the mature glycosylated form and cell surface expression (Fig. 4).
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ABCB11 p.Gly238Val 18798335:253:160
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263 In addition, G238V, D482G, G982R, and ⌬Gly become relatively more ubiquitinated, compared with wt Bsep, when the function of the proteasome is inhibited, consistent with the notion that these mutant Bseps are misfolded and thus unstable.
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ABCB11 p.Gly238Val 18798335:263:13
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286 In contrast, siRNA-mediated knockdown of endogenous Rma1 and TEB4 stabilizes G238V but not ⌬Gly, whereas the knockdown of HRD1 levels significantly stabilizes ⌬Gly but not R1286Q.
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ABCB11 p.Gly238Val 18798335:286:77
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PMID: 19101985 [PubMed] Byrne JA et al: "Missense mutations and single nucleotide polymorphisms in ABCB11 impair bile salt export pump processing and function or disrupt pre-messenger RNA splicing."
No. Sentence Comment
67 ABCB11 Missense Mutations and SNPs Functionally Analyzed in This Study Exon Nucleotide Change Predicted Protein Effect Location in Protein Associated Phenotype Prevalence or Frequency* Any Defect(s) Identified Reference 4 c.149TϾC L50S NH2 term PFIC 1 family (het) Immature protein 31 5 c.270TϾC F90F EC1 SNP 2.7%-7.7% 43, 45 6 c.403GϾA E135K EC1 BRIC 1 family (het) Reduced levels of mature protein † 6 c.409GϾA E137K EC1 BRIC / ICP 1 family (het) Immature protein ‡ 7 c.500CϾT A167V TM2 PFIC 1 family (hom) Mild exon skipping beta 7 c.557AϾG E186G IC1 BRIC 2 families (both het) Moderate exon skipping; greatly reduced levels of mature protein 8, 37 7 c.580TϾC S194P IC1 SNP-PSC 1.1% 43 7 c.593TϾC L198P IC1 BRIC / ICP / DC 1 family (het) Greatly reduced levels of mature protein # 8 c.713GϾT G238V EC2 PFIC 1 family (hom) 29 8 c.725CϾT T242I TM4 PFIC 1 family (het) 31 8 c.779GϾA G260D TM4 SNP-PBC 0.8% 43 9 c.850GϾC V284L IC2 PFIC 1 family (het) No protein 28 9 c.851TϾC V284A IC2 SNP 0.5% Increased levels of mature protein 43, 45† 9 c.889GϾA E297K IC2 Prolonged NNH 1 family (het) Moderate differential splicing; immature protein ‡ 9 c. 890AϾG E297G IC2 PFIC, BRIC PFIC, 45 families (14 hom, 31 het) BRIC, 4 families (2 hom, 2 het) Greatly reduced levels of mature protein 7, 8, 12, 29-32, 35 10 c.936GϾT Q312H IC2 PFIC 1 family (het) ‡ 10 c.937CϾA R313S IC2 PFIC 1 family (het) 31 10 c.957AϾG G319G TM5 SNP 1.5 - 7.5% Mild exon skipping 42, 43, 45 10 c.980GϾA G327E TM5 PFIC 1 family (het) 31 10 c.1007GϾC C336S TM5 PFIC 1 family (het) 29 11 c.1168GϾC A390P NBF PFIC, BRIC 2 families (both het) Immature protein 31; # 12 c.1129GϾA G410D NBF PFIC 1 family (het) 31 12 c.1238TϾG L413W NBF PFIC 1 family (het) Greatly reduced levels of mature protein 31 12 c.1244GϾA R415Q NBF SNP-ICP 1.3% 42 12 c.1295GϾC R432T NBF BRIC 1 family (het) Reduced levels of mature protein 12 13 c.1331CϾT A444V NBF SNP, ICP, CC, DC, BRIC 43-60% Increased levels of mature protein 8, 28, 37, 39-45 13 c.1381AϾG K461E WA PFIC 1 family (hom) Immature protein 7 13 c.1388CϾT T463I WA PFIC 1 family (het) Mild exon skipping 31 13 c.1396CϾA Q466K Adj WA PFIC 1 family (het) 31 13 c.1409GϾA R470Q Adj WA PFIC 2 families (1 het, 1 consanguineous) Immature protein 31 14 c.1442TϾA V481E NBF1 PFIC 1 family (het) 31 14 c.1445AϾG D482G NBF1 PFIC 22 families (16 het, 6 hom) Severe differential splicing; immature protein 7, 30-32 14 c.1468AϾG N490D NBF1 PFIC 1 family (het) Greatly reduced levels of mature protein; reduction in bile salt transport 31 14 c.1493TϾC I498T NBF1 PFIC / BRIC 1 family (het) 38 14 c.1530CϾA T510T NBF1 SNP-PBC 0.7% 43 14 c.1535TϾC I512T NBF1 PFIC 1 family (het) 31 14 c.1544AϾC N515T NBF1 PFIC 1 family (het) 31, 32 14 c.1440GϾA R517H NBF1 PFIC 1 family (het) No protein 31, 32 14 c.1605CϾT A535A NBF1 SNP 0.3% Slightly reduced levels mature protein 39, 45 14 c.1621AϾC I541L NBF1 PFIC 3 families (1 het, 2 consanguineous) No protein 31-33 15 c.1643TϾA F548Y Adj ABCm PFIC 1 family (het) 31, 32 15 c.1685GϾA G562D ABCm PFIC 1 family (het) 31 15 c.1708GϾA A570T Adj ABCm/WB PFIC, BRIC PFIC, 1 family Greatly reduced levels of mature protein; reduction in bile salt transport 8, 31 Table 1.
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ABCB11 p.Gly238Val 19101985:67:863
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PMID: 20232290 [PubMed] Davit-Spraul A et al: "ATP8B1 and ABCB11 analysis in 62 children with normal gamma-glutamyl transferase progressive familial intrahepatic cholestasis (PFIC): phenotypic differences between PFIC1 and PFIC2 and natural history."
No. Sentence Comment
97 6† p.R415X p.R415X na na PFIC2 no.
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ABCB11 p.Gly238Val 20232290:97:46
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ABCB11 p.Gly238Val 20232290:97:54
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98 7† p.S226L p.S226L na na PFIC2 no. 8 p.G238V p.G238V 0.06 BSEP À PFIC2 no.
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ABCB11 p.Gly238Val 20232290:98:46
status: NEW
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ABCB11 p.Gly238Val 20232290:98:54
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PMID: 20422495 [PubMed] Lam P et al: "The bile salt export pump: clinical and experimental aspects of genetic and acquired cholestatic liver disease."
No. Sentence Comment
77 Ubiquitylation is involved in the degradation of receptors, channels, and transporters from the endoplasmic reticulum and cell surface of yeast and higher eukaryotes.86-88 Wang et al, showed for the first time that specific E3 ubiquitin ligases are involved in Bsep degradation.58 Bsep mutants (p.G238V, p.D482G, p.G982R, p.R1153C, and p.R1268Q) were highly ubiquitinated following overexpression of different E3 ubiquitin ligases and were rapidly degraded by proteasomes resulting in shorter half-lives compared with the wild-type protein.58 This study suggests that stabilizing aberrant BSEP proteins by inactivating key E3 ubiquitin ligases might be a novel therapeutic approach, providing that global effects on proteasomal degradation can be avoided.
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ABCB11 p.Gly238Val 20422495:77:297
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PMID: 21219577 [PubMed] Shimizu H et al: "Living-related liver transplantation for siblings with progressive familial intrahepatic cholestasis 2, with novel genetic findings."
No. Sentence Comment
104 The common mutations include E297G, R575X, R1057X, G982R, C336S, R1153C, D482G, K461E, R1153C, R1268Q, R1090X, G238V, S114R, S593R, del 695 and del 3213 (22).
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ABCB11 p.Gly238Val 21219577:104:111
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PMID: 20103563 [PubMed] Klaassen CD et al: "Xenobiotic, bile acid, and cholesterol transporters: function and regulation."
No. Sentence Comment
6508 Nucleotide Change Amino Acid Change In Vitro Function Protein Expression/ Localization ABCB11 BSEP N.D. G238V N.D. Intracellular A890G E297G 2 Intracellular N.D. C336S ↔ Normal G1296C R432T 2 Reduced T1331C V444A ↔ Normal/Reduced A1445G D482G 2 Normal/Reduced G2026T D676Y 2 Reduced G2563A G855R 2 Reduced G2944A G982R 2 Intracellular C3457T R1153C 2 Intracellular G3803A R1268Q 2 Intracellular searchers were able to identify functional roles for Mrp2 using rats lacking this transporter (Eisai hyperbilirubinemic rats on a Sprague-Dawley background and transport-deficient (TR-) on a Wistar background) (Paulusma et al., 1996; Ito et al., 1997).
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ABCB11 p.Gly238Val 20103563:6508:104
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PMID: 16180115 [PubMed] Ito K et al: "Apical/basolateral surface expression of drug transporters and its role in vectorial drug transport."
No. Sentence Comment
240 Seven amino acid substitutions in BSEP, linked to PFICII (G238V, E297G, C336S, D482G, G982R, R1153C, R1268Q), have been reported and have been examined using rat Bsep expressed in MDCK (128).
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ABCB11 p.Gly238Val 16180115:240:58
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241 Five of these mutations resulted in disappearance from the apical surface in MDCK cells (G238V, E297G, G982R, R1153C, R1268R) (128).
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ABCB11 p.Gly238Val 16180115:241:89
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PMID: 14699511 [PubMed] Kullak-Ublick GA et al: "Enterohepatic bile salt transporters in normal physiology and liver disease."
No. Sentence Comment
117 It is caused by mutations of the BSEP (ABCB11) gene, which is located on chromosome 2q 24.173 Children with PFIC2 do not express BSEP.174 When PFIC2-related BSEP mutations are introduced artificially into rat Bsep and expressed in Madin-Darby canine kidney and Sf9 insect cells, the G238V, E297G, G982R, R1153C, and R1268Q mutations prevent the protein from trafficking to the apical membrane, whereas the G238V mutant seems to be rapidly degraded by proteasomes.175 Whereas mutation C336S affects neither Bsep transport activity nor trafficking, mutations E297G, G982R, R1153C, and R1268Q abolish taurocholate transport activity.
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ABCB11 p.Gly238Val 14699511:117:283
status: NEW
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ABCB11 p.Gly238Val 14699511:117:406
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PMID: 22795478 [PubMed] Kubitz R et al: "The bile salt export pump (BSEP) in health and disease."
No. Sentence Comment
185 PFIC BRIC/NFC ICP Other liver diseases Genetic variants without disease association Missense mutations M1V C336S D549V L1055P E135K E137K T87R V43I S701P G19R W342G G556R C1083Y E137K L198P M123T S56L L712L L50S A382G G562D A1110E E186G E297G S194P Q121K A865D M62K R387H A570T S1114R L198P R415Q L198P R128H A865G C68Y A390P L581F G1116E E297G V444A G260D I206V S874P C107R G410D A588V G1116F G374S D482G E297K V284A I939M I112T L413W S593R G1116R A390P N591S V444A G295C R958Q W114R I420T I627T S1120N R432T T655I T510T G295R F959C Y157C D440E E636G R1128C V444A T655I G295S F959V A167T G455E R698C S1144R I498T D676Y R299K T965S A167V K461E S699P R1153C A570T P710P R303K F971L I182K T463I E709K R1153H T586I L827I L339V F971Y M183T Q466K G758R S1154P G648V G855R H423R L1006F M183V R470Q G766R N1173D T655I E1186K V444A N1009H G188W Y472C Y818F T1210P T923P V444D K1145N M217R V481E R832C N1211D A926P V444G I1183T R223C D482G R832H V1212F R948C A459V S226L R487H T859R R1231Q G1004D I468I G238V R487P A865V R1231W R1050C R487L T242I N490D Q869P L1242I G1116R Q546K A257G I498T G877R D1243G R1128H Q558H V284L G499E S901R R1268Q L1197G E592Q E297G I512T R948C A1283V R1231Q V597M R303G N515T N979D G1292V R616G R303K R517H G982R G1298R T619A Q312H F540L G1004D M677L R313S I541L T1029K M677V G327E I541T G1032R R696Q W330R F548Y A1044P R698H Nonsense mutations (premature stop-codons) S25X Y472X Y772X R1090X E96X W493X Q791X V1147X W330X R520X R928X Q1215X Y354X I528X Y1041X R1235X R415X R575X R1057X E1302X R470X Q702X Q1058X Table 1 (Continued) PFIC BRIC/NFC ICP Other liver diseases Genetic variants without disease association Splice site mutations 76 + 3G > T 908 + 1delG 2178 + 1G > T 3057-2A > G Q159Q 77-1G > C 908 + 1G > T 2179-2A > G 3213 + 1delG Q361Q 99-1G > T 908 + 1G > A 2343 + 1G > T 3213 + 4A > G 150 + 3A > C 1435-13 -8del 2343 + 2T > C 3213 + 5G > A 390-1G > A 2012-8T > G 2611-2A > T 611 + 1G > A 2178 + 1G > A R1001R Deletions/insertions/frame shifts Q101Dfs8X L380Wfs18X G648Vfs5X Q1058Hfs38X F959Hfs1X T127Hfs6X A382 A388del K700Sfs12X I1061Vfs34X F959Gfs48X N199Ifs14X P456Pfs24X T919del L1165del L232Cfs9X H484Rfs5X K930Efs92X A1192Efs50X R303Sfs17X I528Sfs21X K930Efs79X T1256Tfs40X V368Rfs27X I610Qfs45X K969 K972del Synonymous variants without disease association R33R F90F L232L I416I G557G I876I A1028A K1145K D36D I134I Y269Y G418G V597V G937G K1070K R52R S136S Q312Q F427F A804A Y981Y T1086T D58D V195V G319G E395E A535A G817G G1004G A1110A The overview shows ࣈ 290 known variants of BSEP on the protein level, except splice site mutations, which are shown on cDNA level.
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ABCB11 p.Gly238Val 22795478:185:994
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PMID: 23685087 [PubMed] Soroka CJ et al: "Biosynthesis and trafficking of the bile salt export pump, BSEP: therapeutic implications of BSEP mutations."
No. Sentence Comment
136 When seven PFIC2 missense mutations were expressed in MDCK cells, five of these common mutations (G238V, E297G, G982R, R1153C and R1268Q) were unable to traffic to the apical membrane (Wang et al., 2002).
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ABCB11 p.Gly238Val 23685087:136:98
status: NEW
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185 In vitro studies using rat Bsep mutants of the human mutations G238V, D482G, G982R, R1153C, and R1268Q all resulted in retention of Bsep in the ER to different extents (Wang et al., 2008).
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ABCB11 p.Gly238Val 23685087:185:63
status: NEW
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PMID: 25027376 [PubMed] Kubitz R et al: "Genetic variations of bile salt transporters."
No. Sentence Comment
112 The missense mutations p.G238V, p.E297G, p.G982R, p.R1153C and p.R1268Q all led to a reduced expression at the apical membrane, when expressed in MDCK cells [124].
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ABCB11 p.Gly238Val 25027376:112:25
status: NEW
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PMID: 25088257 [PubMed] Nakamura N et al: "Ubiquitin-specific protease 19 regulates the stability of the E3 ubiquitin ligase MARCH6."
No. Sentence Comment
52 FLAG-ABCB11G238V was constructed by cloning cDNA fragments encoding human ABCB11 containing a G238V mutation into the KpnI/XbaI sites of p3  FLAGCMV-10.
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ABCB11 p.Gly238Val 25088257:52:94
status: NEW
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146 Knockdown of USP19 stabilizes mutant ABCB11 It has been shown that MARCH6 promotes degradation of the bile salt export pump (Bsep or ABCB11) containing the G238V mutation, which causes progressive familial intrahepatic cholestasis type II [38].
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ABCB11 p.Gly238Val 25088257:146:156
status: NEW
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