ABCMdb

ABCG2 p.Arg575*

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[hide] Pharmacogenomics of the human ABC transporter ABCG... Naturwissenschaften. 2005 Oct;92(10):451-63. Ishikawa T, Tamura A, Saito H, Wakabayashi K, Nakagawa H
Pharmacogenomics of the human ABC transporter ABCG2: from functional evaluation to drug molecular design.
Naturwissenschaften. 2005 Oct;92(10):451-63., [PMID:16160819]

Abstract [show]
In the post-genome-sequencing era, emerging genomic technologies are shifting the paradigm for drug discovery and development. Nevertheless, drug discovery and development still remain high-risk and high-stakes ventures with long and costly timelines. Indeed, the attrition of drug candidates in preclinical and development stages is a major problem in drug design. For at least 30% of the candidates, this attrition is due to poor pharmacokinetics and toxicity. Thus, pharmaceutical companies have begun to seriously re-evaluate their current strategies of drug discovery and development. In that light, we propose that a transport mechanism-based design might help to create new, pharmacokinetically advantageous drugs, and as such should be considered an important component of drug design strategy. Performing enzyme- and/or cell-based drug transporter, interaction tests may greatly facilitate drug development and allow the prediction of drug-drug interactions. We recently developed methods for high-speed functional screening and quantitative structure-activity relationship analysis to study the substrate specificity of ABC transporters and to evaluate the effect of genetic polymorphisms on their function. These methods would provide a practical tool to screen synthetic and natural compounds, and these data can be applied to the molecular design of new drugs. In this review article, we present an overview on the genetic polymorphisms of human ABC transporter ABCG2 and new camptothecin analogues that can circumvent AGCG2-associated multidrug resistance of cancer.

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106 In Dutch cohorts, on the other hand, the variant R575stop (c.1723C>T) has recently been observed (Bosch et al. 2005). Login to comment

[hide] Genetic polymorphisms of ATP-binding cassette tran... Expert Opin Pharmacother. 2005 Nov;6(14):2455-73. Sakurai A, Tamura A, Onishi Y, Ishikawa T
Genetic polymorphisms of ATP-binding cassette transporters ABCB1 and ABCG2: therapeutic implications.
Expert Opin Pharmacother. 2005 Nov;6(14):2455-73., [PMID:16259577]

Abstract [show]
Pharmacogenomics, the study of the influence of genetic factors on drug action, is increasingly important for predicting pharmacokinetics profiles and/or adverse reactions to drugs. Drug transporters, as well as drug metabolism play pivotal roles in determining the pharmacokinetic profiles of drugs and their overall pharmacological effects. There is an increasing number of reports addressing genetic polymorphisms of drug transporters. However, information regarding the functional impact of genetic polymorphisms in drug transporter genes is still limited. Detailed functional analysis in vitro may provide clear insight into the biochemical and therapeutic significance of genetic polymorphisms. This review addresses functional aspects of the genetic polymorphisms of human ATP-binding cassette transporters, ABCB1 and ABCG2, which are critically involved in the pharmacokinetics of drugs.

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239 Bosch et al. [137] have most recently reported the variant R575stop (c.1723C > T) occurring in Dutch cohorts, with an allele frequency of 0.5%. Login to comment
250 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. Login to comment

[hide] Functional validation of the genetic polymorphisms... Mol Pharmacol. 2006 Jul;70(1):287-96. Epub 2006 Apr 11. Tamura A, Watanabe M, Saito H, Nakagawa H, Kamachi T, Okura I, Ishikawa T
Functional validation of the genetic polymorphisms of human ATP-binding cassette (ABC) transporter ABCG2: identification of alleles that are defective in porphyrin transport.
Mol Pharmacol. 2006 Jul;70(1):287-96. Epub 2006 Apr 11., [PMID:16608919]

Abstract [show]
The ATP-binding cassette (ABC) transporter ABCG2 has been implicated to play a significant role in the response of patients to medication and/or the risk of diseases. To clarify the possible physiological or pathological relevance of ABCG2 polymorphisms, we have functionally validated single nucleotide polymorphisms (SNP) of ABCG2. 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. Because porphyrins are considered to be endogenous substrates for ABCG2, we have investigated the porphyrin transport activity of those variant forms in vitro. We herein provide evidence that the variants Q126stop, F208S, S248P, E334stop, and S441N are defective in porphyrin transport, whereas F489L exhibited impaired transport, approximately 10% of the activity observed for the wild type. Furthermore, Flp-In-293 cells expressing those variants were photosensitive. Thus, among those genetic polymorphisms of ABCG2, at least the hitherto validated alleles of Q126stop, S441N, and F489L are suggested to be of clinical importance related to the potential risk of porphyria.

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224 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. Login to comment

[hide] Drug-induced phototoxicity evoked by inhibition of... Expert Opin Drug Metab Toxicol. 2008 Mar;4(3):255-72. Tamura A, An R, Hagiya Y, Hoshijima K, Yoshida T, Mikuriya K, Ishikawa T
Drug-induced phototoxicity evoked by inhibition of human ABC transporter ABCG2: development of in vitro high-speed screening systems.
Expert Opin Drug Metab Toxicol. 2008 Mar;4(3):255-72., [PMID:18363541]

Abstract [show]
BACKGROUND: Photosensitivity depends on both genetic and environmental factors. Pheophorbide a, present in various plant-derived foods and food supplements, can be absorbed by the small intestine. Accumulation of pheophorbide a and porphyrins in the systemic blood circulation can result in phototoxic lesions on light-exposed skin. OBJECTIVE: As the human ATP-binding cassette (ABC) transporter ABCG2 has been suggested to be critically involved in porphyrin-mediated photosensitivity, we aimed to develop in vitro screening systems for drug-induced phototoxicity. CONCLUSION: Functional impairment owing to inhibition of ABCG2 by drugs or its genetic polymorphisms can lead to the disruption of porphyrin homeostasis. This review article provides an overview on drug-induced photosensitivity, as well as our hypothesis on a potential role of ABCG2 in phototoxicity.

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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. Login to comment

[hide] Additive effects of drug transporter genetic polym... Cancer Chemother Pharmacol. 2010 May;66(1):95-105. Epub 2009 Sep 22. Sai K, Saito Y, Maekawa K, Kim SR, Kaniwa N, Nishimaki-Mogami T, Sawada J, Shirao K, Hamaguchi T, Yamamoto N, Kunitoh H, Ohe Y, Yamada Y, Tamura T, Yoshida T, Matsumura Y, Ohtsu A, Saijo N, Minami H
Additive effects of drug transporter genetic polymorphisms on irinotecan pharmacokinetics/pharmacodynamics in Japanese cancer patients.
Cancer Chemother Pharmacol. 2010 May;66(1):95-105. Epub 2009 Sep 22., [PMID:19771428]

Abstract [show]
PURPOSE: Effects of genetic polymorphisms/variations of ABCB1, ABCC2, ABCG2 and SLCO1B1 in addition to "UGT1A1*28 or *6" on irinotecan pharmacokinetics/pharmacodynamics in Japanese cancer patients were investigated. METHODS: Associations between transporter haplotypes/variations along with UGT1A1*28 or *6 and SN-38 area under the time-concentration curve (AUC) or neutropenia were examined in irinotecan monotherapy (55 patients) and irinotecan-cisplatin-combination therapy (62 patients). RESULTS: Higher SN-38 AUC values were observed in ABCB1 2677G>T (A893S) (*2 group) for both regimens. Associations of grade 3/4 neutropenia were observed with ABCC2 -1774delG (*1A), ABCG2 421C>A (Q141K) and IVS12 + 49G>T ((#) IIB) and SLCO1B1 521T>C (V174A) (*15 x 17) in the irinotecan monotherapy, while they were evident only in homozygotes of ABCB1*2, ABCG2 (#) IIB, SLCO1B1*15 x 17 in the cisplatin-combination therapy. With combinations of haplotypes/variations of two or more genes, neutropenia incidence increased, but their prediction power for grade 3/4 neutropenia is still unsatisfactory. CONCLUSIONS: Certain transporter genotypes additively increased irinotecan-induced neutropenia, but their clinical importance should be further elucidated.

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107 These variations include an amino acid substitution leading to reduced in vitro activity, ABCG2 1465T[C (F489L) [36], and the stop codons, ABCG2 376C[T (Q126X) and 1723C[T (R575X) [28]. Login to comment
124 patients who experienced grade 4 neutropenia ID Gene Genetic variation Nucleotide change (amino acid substitution) Haplotypea b1 ABCB1 304G[C (G102R) Block 1 *3 b2(B)b 1804G[A (D602N) Block 2 *12 b3(B)b 1342G[A (E448K) Block 2 *14 b4 3043A[G (T1015A) Block 2 *16 b5 3751G[A (V1251I) Block 3 *2 c1 ABCC2 1177C[T (R393W) *7 g1 ABCG2 376C[T (Q126X) Block 1 *4 g2 1465T[C (F489L) Block 2 *2 g3 1723C[T (R575X) Block 2 *5 s1(S)c SLCO1B1 1007C[G (P336R) s2 311T[A (M104K) u1 UGT1A1 -3279T[G, 1941C[G # 60-# IB (?/?) Login to comment

[hide] Human ABC transporter ABCG2 in cancer chemotherapy... J Exp Ther Oncol. 2009;8(1):5-24. Ishikawa T, Nakagawa H
Human ABC transporter ABCG2 in cancer chemotherapy and pharmacogenomics.
J Exp Ther Oncol. 2009;8(1):5-24., [PMID:19827267]

Abstract [show]
The ability of cancer cells to acquire resistance to multiple anticancer agents, termed multidrug resistance, is often mediated by overexpression of ATP-binding cassette (ABC) transporters that remove drugs out of the cell against a concentration gradient. ABCG2, or breast cancer resistance protein (BCRP), is an ABC transporter that has been the subject of intense study since its discovery a decade ago. While ABCG2 overexpression has been demonstrated in cancer cells after in vitro drug treatment, endogenous ABCG2 expression in certain cancers is considered as a reflection of the differentiated phenotype of the cell of origin and likely contributes to intrinsic drug resistance. Notably, ABCG2 is often expressed in stem cell populations, where it plays a critical role in cellular protection. ABCG2 exhibits a broad range of substrate specificity. New technologies of high-speed screening and quantitative structure-activity-relationship (QSAR) analysis have been developed to analyze the interactions of drugs with ABCG2. As ABCG2 reportedly transports porphyrins, its contribution to photodynamic therapy of human cancer is also implicated. Protein expression levels of ABCG2 in cancer cells are regulated by both transcriptional activation and protein degradation. The ABCG2 protein undergoes endosomal and/or ubiquitin-mediated proteasomal degradations. Furthermore, genetic polymorphisms in the ABCG2 gene are important factors in cancer chemotherapy to circumvent adverse effects and/or to enhance the efficacy of anticancer drugs. The present review article addresses recent advances in molecular pharmacology and pharmacogenomics of ABCG2 and provides novelideas to improve cancer chemotherapy.

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222 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). Login to comment

[hide] In vitro and in vivo evidence for the importance o... Handb Exp Pharmacol. 2011;(201):325-71. Meyer zu Schwabedissen HE, Kroemer HK
In vitro and in vivo evidence for the importance of breast cancer resistance protein transporters (BCRP/MXR/ABCP/ABCG2).
Handb Exp Pharmacol. 2011;(201):325-71., [PMID:21103975]

Abstract [show]
The breast cancer resistance protein (BCRP/ABCG2) is a member of the G-subfamiliy of the ATP-binding cassette (ABC)-transporter superfamily. This half-transporter is assumed to function as an important mechanism limiting cellular accumulation of various compounds. In context of its tissue distribution with localization in the sinusoidal membrane of hepatocytes, and in the apical membrane of enterocytes ABCG2 is assumed to function as an important mechanism facilitating hepatobiliary excretion and limiting oral bioavailability, respectively. Indeed functional assessment performing mouse studies with genetic deletion or chemical inhibition of the transporter, or performing pharmacogenetic studies in humans support this assumption. Furthermore the efflux function of ABCG2 has been linked to sanctuary blood tissue barriers as described for placenta and the central nervous system. However, in lactating mammary glands ABCG2 increases the transfer of substrates into milk thereby increasing the exposure to potential noxes of a breastfed newborn. With regard to its broad substrate spectrum including various anticancer drugs and environmental carcinogens the function of ABCG2 has been associated with multidrug resistance and tumor development/progression. In terms of cancer biology current research is focusing on the expression and function of ABCG2 in immature stem cells. Recent findings support the notion that the physiological function of ABCG2 is involved in the elimination of uric acid resulting in higher risk for developing gout in male patients harboring genetic variants. Taken together ABCG2 is implicated in various pathophysiological and pharmacological processes.

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251 To date there are 26 nonsynonymous, five synonymous (c.114T>C, c.369C>T, c.474C>T, c.1098G>A, and c.1425A>G) polymorphisms, three nonsense mutations (Q126X, E334X, and R575X), and one frameshift mutation (c.1515delC) described in healthy individuals or patients (compare Table 3). Login to comment

[hide] Key Role of Human ABC Transporter ABCG2 in Photody... Adv Pharmacol Sci. 2010;2010:587306. Epub 2010 Jul 8. Ishikawa T, Nakagawa H, Hagiya Y, Nonoguchi N, Miyatake S, Kuroiwa T
Key Role of Human ABC Transporter ABCG2 in Photodynamic Therapy and Photodynamic Diagnosis.
Adv Pharmacol Sci. 2010;2010:587306. Epub 2010 Jul 8., [PMID:21188243]

Abstract [show]
Accumulating evidence indicates that ATP-binding cassette (ABC) transporter ABCG2 plays a key role in regulating the cellular accumulation of porphyrin derivatives in cancer cells and thereby affects the efficacy of photodynamic therapy and photodynamic diagnosis. The activity of porphyrin efflux can be affected by genetic polymorphisms in the ABCG2 gene. On the other hand, Nrf2, an NF-E2-related transcription factor, has been shown to be involved in oxidative stress-mediated induction of the ABCG2 gene. Since patients have demonstrated individual differences in their response to photodynamic therapy, transcriptional activation and/or genetic polymorphisms of the ABCG2 gene in cancer cells may affect patients' responses to photodynamic therapy. Protein kinase inhibitors, including imatinib mesylate and gefitinib, are suggested to potentially enhance the efficacy of photodynamic therapy by blocking ABCG2-mediated porphyrin efflux from cancer cells. This review article provides an overview on the role of human ABC transporter ABCG2 in photodynamic therapy and photodynamic diagnosis.

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177 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. Login to comment

[hide] Structure and function of BCRP, a broad specificit... Arch Toxicol. 2014 Jun;88(6):1205-48. doi: 10.1007/s00204-014-1224-8. Epub 2014 Apr 29. Jani M, Ambrus C, Magnan R, Jakab KT, Beery E, Zolnerciks JK, Krajcsi P
Structure and function of BCRP, a broad specificity transporter of xenobiotics and endobiotics.
Arch Toxicol. 2014 Jun;88(6):1205-48. doi: 10.1007/s00204-014-1224-8. Epub 2014 Apr 29., [PMID:24777822]

Abstract [show]
The discovery and characterization of breast cancer resistance protein (BCRP) as an efflux transporter conferring multidrug resistance has set off a remarkable trajectory in the understanding of its role in physiology and disease. While the relevance in drug resistance and general pharmacokinetic properties quickly became apparent, the lack of a characteristic phenotype in genetically impaired animals and humans cast doubt on the physiological importance of this ATP-binding cassette family member, similarly to fellow multidrug transporters, despite well-known endogenous substrates. Later, high-performance genetic analyses and fine resolution tissue expression data forayed into unexpected territories concerning BCRP relevance, and ultimately, the rise of quantitative proteomics allows putting observed interactions into absolute frameworks for modeling and insight into interindividual and species differences. This overview summarizes existing knowledge on the BCRP transporter on molecular, tissue and system level, both in physiology and disease, and describes a selection of experimental procedures that are the most widely applied for the identification and characterization of substrate and inhibitor-type interactions.

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95 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). Login to comment