ABCMdb

ABCB1 p.Arg669Cys

Predicted by SNAP2:	A: N (61%), C: D (80%), D: D (59%), E: N (53%), F: D (53%), G: D (53%), H: N (66%), I: N (57%), K: N (78%), L: N (57%), M: N (61%), N: N (57%), P: N (53%), Q: D (63%), S: N (66%), T: D (75%), V: D (75%), W: D (71%), Y: D (63%),
Predicted by PROVEAN:	A: N, C: D, D: D, E: N, F: D, G: D, H: N, I: D, K: N, L: D, M: D, N: N, P: D, Q: N, S: N, T: N, V: D, W: D, Y: D,

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[hide] Mechanisms of resistance to anticancer drugs: the ... Pharmacogenomics. 2005 Mar;6(2):115-38. Lepper ER, Nooter K, Verweij J, Acharya MR, Figg WD, Sparreboom A
Mechanisms of resistance to anticancer drugs: the role of the polymorphic ABC transporters ABCB1 and ABCG2.
Pharmacogenomics. 2005 Mar;6(2):115-38., [PMID:15882131]

Abstract [show]
ATP-binding cassette (ABC) genes play a role in the resistance of malignant cells to anticancer agents. The ABC gene products, including ABCB1 (P-glycoprotein) and ABCG2 (breast cancer-resistance protein [BCRP], mitoxantrone-resistance protein [MXR], or ABC transporter in placenta [ABCP]), are also known to influence oral absorption and disposition of a wide variety of drugs. As a result, the expression levels of these proteins in humans have important consequences for an individual's susceptibility to certain drug-induced side effects, interactions, and treatment efficacy. Naturally occurring variants in ABC transporter genes have been identified that might affect the function and expression of the protein. This review focuses on recent advances in the pharmacogenetics of the ABC transporters ABCB1 and ABCG2, and discusses potential implications of genetic variants for the chemotherapeutic treatment of cancer.

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106 Nonetheless, the association of the C3435T polymorphism with Table 2. Summary of common genetic variants in the ABCB1 gene cDNA position* Region‡ Wild-type allele Variant allele Amino acid Change§ -274 Intron -1 G A -223 Intron -1 C T -146 Intron -1 T C -60 Intron -1 A T -41 Intron -1 A G Non-coding -241 Exon 1 G A Non-coding -145 Exon 1 C G Non-coding -129 Exon 1 T C Non-coding -43 Exon 1 A G Non-coding +140 Intron 1 C A +237 Intron 1 G A -4 Exon 2 C T Non-coding -1 Exon 2 G A Non-coding 61 Exon 2 A G 21 Asn to Asp -8 Intron 3 C G 266 Exon 4 T C 89 Met to Thr 307 Exon 5 T C 103 Phe to Leu -25 Intron 4 G T +139 Intron 6 C T +145 Intron 6 C T 548 Exon 7 A G 183 Asn to Ser 729 Exon 8 A G 243 Syn 781 Exon 8 A G 261 Ile to Val -44 Intron 9 A G -41 Intron 10 T G 1199 Exon 11 G A 400 Ser to Asn -4 Intron 11 G A 1236¶ Exon 12 C T 412 Syn 1308 Exon 12 A G 436 Syn +17 Intron 12 G A +44 Intron 12 C T 1474 Exon 13 C T 492 Arg to Cys +24 Intron 13 C T 1617 Exon 14 C T 539 Syn +38 Intron 14 A G +38 Intron 15 G A 1985 Exon 16 T G 662 Leu to Arg 2005 Exon 16 C T 669 Arg to Cys -27 Intron 17 A G +8 Intron 20 C G *cDNA numbers are relative to the ATG site and based on the cDNA sequence from GenBank accession number M14758 with an A as the reference at position 43. 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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106 Position Allele Amino acid Allele frequency in Caucasian populations Allele frequency in Japanese populatins Allele frequency in African populations n % n % n % 61 A G 21 Asn 21 Asp 799 89.7 10.3 193 100 0 100 97.5 2.5 266 T C 89 Met 89 Thr 100 99.5 0.5 145 100 0 100 100 0 307 T C 103 Phe 103 Leu 546 99.9 0.1 48 100 0 ND ND ND 325 G A 108 Glu 108 Lys ND ND ND 37 95.9 4.1 ND ND ND 781 A G 261 Ile 261 Val 100 100 0 145 100 0 100 98.5 1.5 1199 G A 400 Ser 400 Asn 696 95.0 5.0 193 100 0 100 99 1 1985 T G 662 Leu 662 Arg 100 99.5 0.5 145 100 0 100 100 0 2005 C T 669 Arg 669 Cys 100 100 0 145 100 0 100 99 1 2485 A G 829 Ile 829 Val 185 99.2 0.8 ND ND ND ND ND ND 2547 A G 849 Ile 849 Met 100 99.5 0.5 145 100 0 100 100 0 2677 G T A 893 Ala 893 Ser 893 Thr 611 55.1 42.1 2.8 241 40.0 41.1 18.9 100 90 10 0.5 2956 A G 986 Met 986 Val ND ND ND 100 99.5 0.5 ND ND ND 3151 C G 1051 Pro 1051 Ala 100 100 0 145 100 0 100 99.5 0.5 3320 A C 1107 Gln 1107 Pro 461 99.8 0.2 ND ND ND ND ND ND 3322 T C 1108 Trp 1108 Arg 100 100 0 145 100 0 100 99.5 0.5 3421 T A 1141 Ser 1141 Thr 100 100 0 145 100 0 100 88.9 11.1 3751 G A 1251 Val 1251 Ile 100 100 0 145 99 1 100 100 0 3767 C A 1256 Thr 1256 Lys 100 99.5 0.5 145 100 0 100 100 0 Data from [31-38, 203]. Login to comment
115 For this purpose, ABCB1 cDNA cloned from a human liver cDNA library was prepared, and several variant forms (i.e., N183S, S400N, R492C, R669C, I849M, A893T, M986V, A999T, P1051A and G1063A) were generated by site-directed mutagenesis. Login to comment
124 The variant forms (i.e., N183S, S400N, R492C, R669C, I849M, A893T, M986V, A999T, P1051A and G1063A), as well as the wild type, of ABCB1 exhibited the verapamil-enhanced ATPase activity. Login to comment
129 N21D M89T N44S H2N F103L E108K N183S G185V I261V S400N R492C A599T L662R R669C V801M A893S/T I829V I849M M986V A999T G1063A P1051A Q1107P W1108R I1145M S1141T V1251I T1256K COOH ATP-binding site ATP-binding site EXTRACELLULAR INTRACELLULAR A80E Figure 2. Login to comment

[hide] High-speed screening of human ATP-binding cassette... Methods Enzymol. 2005;400:485-510. Ishikawa T, Sakurai A, Kanamori Y, Nagakura M, Hirano H, Takarada Y, Yamada K, Fukushima K, Kitajima M
High-speed screening of human ATP-binding cassette transporter function and genetic polymorphisms: new strategies in pharmacogenomics.
Methods Enzymol. 2005;400:485-510., [PMID:16399366]

Abstract [show]
Drug transporters represent an important mechanism in cellular uptake and efflux of drugs and their metabolites. Hitherto a variety of drug transporter genes have been cloned and classified into either solute carriers or ATP-binding cassette (ABC) transporters. Such drug transporters are expressed in various tissues such as the intestine, brain, liver, kidney, and, importantly, cancer cells, where they play critical roles in the absorption, distribution, and excretion of drugs. We developed high-speed functional screening and quantitative structure-activity relationship analysis methods to study the substrate specificity of ABC transporters and to evaluate the effect of genetic polymorphisms on their function. These methods would provide powerful and practical tools for screening synthetic and natural compounds, and the deduced data can be applied to the molecular design of new drugs. Furthermore, we demonstrate a new "SNP array" method to detect genetic polymorphisms of ABC transporters in human samples.

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167 For this purpose, we have prepared several variant forms (i.e., N183S, S400N, R492C, R669C, I849M, A893T, M986V, A999T, P1051A, and G1063A) by site‐ directed mutagenesis. Login to comment

[hide] Clinical pharmacogenetics and potential applicatio... Curr Drug Metab. 2008 Oct;9(8):738-84. Zhou SF, Di YM, Chan E, Du YM, Chow VD, Xue CC, Lai X, Wang JC, Li CG, Tian M, Duan W
Clinical pharmacogenetics and potential application in personalized medicine.
Curr Drug Metab. 2008 Oct;9(8):738-84., [PMID:18855611]

Abstract [show]
The current 'fixed-dosage strategy' approach to medicine, means there is much inter-individual variation in drug response. Pharmacogenetics is the study of how inter-individual variations in the DNA sequence of specific genes affect drug responses. This article will highlight current pharmacogenetic knowledge on important drug metabolizing enzymes, drug transporters and drug targets to understand interindividual variability in drug clearance and responses in clinical practice and potential use in personalized medicine. Polymorphisms in the cytochrome P450 (CYP) family may have had the most impact on the fate of pharmaceutical drugs. CYP2D6, CYP2C19 and CYP2C9 gene polymorphisms and gene duplications account for the most frequent variations in phase I metabolism of drugs since nearly 80% of drugs in use today are metabolised by these enzymes. Approximately 5% of Europeans and 1% of Asians lack CYP2D6 activity, and these individuals are known as poor metabolizers. CYP2C9 is another clinically significant drug metabolising enzyme that demonstrates genetic variants. Studies into CYP2C9 polymorphism have highlighted the importance of the CYP2C9*2 and CYP2C9*3 alleles. Extensive polymorphism also occurs in a majority of Phase II drug metabolizing enzymes. One of the most important polymorphisms is thiopurine S-methyl transferases (TPMT) that catalyzes the S-methylation of thiopurine drugs. With respect to drug transport polymorphism, the most extensively studied drug transporter is P-glycoprotein (P-gp/MDR1), but the current data on the clinical impact is limited. Polymorphisms in drug transporters may change drug's distribution, excretion and response. Recent advances in molecular research have revealed many of the genes that encode drug targets demonstrate genetic polymorphism. These variations, in many cases, have altered the targets sensitivity to the specific drug molecule and thus have a profound effect on drug efficacy and toxicity. For example, the beta (2)-adrenoreceptor, which is encoded by the ADRB2 gene, illustrates a clinically significant genetic variation in drug targets. The variable number tandem repeat polymorphisms in serotonin transporter (SERT/SLC6A4) gene are associated with response to antidepressants. The distribution of the common variant alleles of genes that encode drug metabolizing enzymes, drug transporters and drug targets has been found to vary among different populations. The promise of pharmacogenetics lies in its potential to identify the right drug at the right dose for the right individual. Drugs with a narrow therapeutic index are thought to benefit more from pharmacogenetic studies. For example, warfarin serves as a good practical example of how pharmacogenetics can be utilized prior to commencement of therapy in order to achieve maximum efficacy and minimum toxicity. As such, pharmacogenetics has the potential to achieve optimal quality use of medicines, and to improve the efficacy and safety of both prospective and licensed drugs.

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532 Nucleotide change rs number Amino acid change 49T>C rs28381804 F17L 61A>G rs61615398; rs9282564 N21D 131A>G rs1202183 N44S 178A>C rs41315618 I60L 239C>A rs9282565 A80E 266T>C Rs35810889 M89T 431T>C rs61607171 I144T 502G>A rs61122623 V168I 548A>G rs60419673 N183S 554G>T rs1128501 G185V 781A>G rs36008564 I261V 1199G>A rs2229109 S400N 1696G>A rs28381902 E566K 1777C>T rs28381914 R593C 1778G>A rs56107566 R593H 1795G>A rs2235036 A599T 1837G>T rs57001392 D613Y 1985T>G rs61762047 L662R 2005C>T rs35023033 R669C 2207A>T rs41316450 I736K 2398G>A rs41305517 D800N 2401G>A rs2235039 V801M 2485A>G rs2032581 I829V 2506A>G rs28381967 I836V 2547A>G rs36105130 I849M 2677T>A/G rs2032582 S893A/T 2975G>A rs56849127 S992N 3151C>G rs28401798 P1051A 3188G>C rs2707944 G1063A 3262G>A rs57521326 D1088N 3295A>G rs41309225 K1099E 3320A>C rs55852620 Q1107P 3322T>C rs35730308 W1108R 3410G>T rs41309228 S1137I 3421T>A rs2229107 S1141T 3502A>G rs59241388 K1168E 3669A>T rs41309231 E1223D 3751G>A rs28364274 V1251I 3767C>A r35721439 T1256K Data are from NCBI dbSNP (access date: 2 August 2008). Login to comment

[hide] Sequence diversity and haplotype structure in the ... Pharmacogenetics. 2003 Aug;13(8):481-94. Kroetz DL, Pauli-Magnus C, Hodges LM, Huang CC, Kawamoto M, Johns SJ, Stryke D, Ferrin TE, DeYoung J, Taylor T, Carlson EJ, Herskowitz I, Giacomini KM, Clark AG
Sequence diversity and haplotype structure in the human ABCB1 (MDR1, multidrug resistance transporter) gene.
Pharmacogenetics. 2003 Aug;13(8):481-94., [PMID:12893986]

Abstract [show]
OBJECTIVES: There is increasing evidence that polymorphism of the ABCB1 (MDR1) gene contributes to interindividual variability in bioavailability and tissue distribution of P-glycoprotein substrates. The aim of the present study was to (1) identify and describe novel variants in the ABCB1 gene, (2) understand the extent of variation in ABCB1 at the population level, (3) analyze how variation in ABCB1 is structured in haplotypes, and (4) functionally characterize the effect of the most common amino acid change in P-glycoprotein. METHODS AND RESULTS: Forty-eight variant sites, including 30 novel variants and 13 coding for amino acid changes, were identified in a collection of 247 ethnically diverse DNA samples. These variants comprised 64 statistically inferred haplotypes, 33 of which accounted for 92% of chromosomes analyzed. The two most common haplotypes, ABCB1*1 and ABCB1*13, differed at six sites (three intronic, two synonymous, and one non-synonymous) and were present in 36% of all chromosomes. Significant population substructure was detected at both the nucleotide and haplotype level. Linkage disequilibrium was significant across the entire ABCB1 gene, especially between the variant sites found in ABCB1*13, and recombination was inferred. The Ala893Ser change found in the common ABCB1*13 haplotype did not affect P-glycoprotein function. CONCLUSION: This study represents a comprehensive analysis of ABCB1 nucleotide diversity and haplotype structure in different populations and illustrates the importance of haplotype considerations in characterizing the functional consequences of ABCB1 polymorphisms.

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103 A total of 30 segregating sites have not been previously described, including eight non-synonymous changes coding for the following amino acid changes: Met89Thr, Leu662Arg, Arg669Cys, Ile849Met, Pro1051Ala, Trp1108Arg, Val1251Ile, and Thr1256Lys. Login to comment
113 An additional five coding variants occurred at sites that were conserved in six of the seven species, including those resulting in the Arg669Cys, Ile849Met, Trp1108Arg, and Val1251Ile changes. Login to comment
141 Unauthorized reproduction of this article is prohibited. Table 1 Genetic variation in ABCB1 Allele frequencyd Variant cDNA NT DNA/AA AA Total CA AA AS ME PA No.a positionb changec position change (n ¼ 494) (n ¼ 200) (n ¼ 200) (n ¼ 60) (n ¼ 20) (n ¼ 14) 1.1Ã (À274) G to A Intron À1 0.006 0 0.016 0 0 0 1.2Ã (À223) C to T Intron À1 0.002 0.005 0 0 0 0 1.3Ã (À146) T to C Intron À1 0.002 0 0.005 0 0 0 1.4Ã (À60) A to T Intron À1 0.004 0 0.010 0 0 0 1.5 (À41) A to G Intron À1 0.002 0 0 0.017 0 0 1.6Ã À241 G to A Non-coding 0.002 0 0 0.017 0 0 1.7 À145 C to G Non-coding 0.002 0 0 0.017 0 0 1.8 À129 T to C Non-coding 0.060 0.051 0.071 0.036 0.100 0.071 1.9 À43 A to G Non-coding 0.012 0 0.020 0.036 0 0 1.10Ã (+140) C to A Intron 1 0.013 0.005 0.021 0 0 0.071 1.11Ã (+237) G to A Intron 1 0.004 0 0.010 0 0 0 2.1 À4 C to T Non-coding 0.004 0 0.010 0 0 0 2.2 À1 G to A Non-coding 0.036 0.080 0.005 0 0.050 0 2.3 61 A to G 21 Asn to Asp 0.045 0.080 0.025 0.017 0 0 4.1Ã (À8) C to G Intron 3 0.002 0.005 0 0 0 0 4.2Ã 266 T to C 89 Met to Thr 0.002 0.005 0 0 0 0 5.1 (À25) G to T Intron 4 0.210 0.158 0.300 0.067 0.200 0.286 8.1 729 A to G 243 Syn 0.002 0.005 0 0 0 0 8.2Ã 781 A to G 261 Ile to Val 0.006 0 0.015 0 0 0 10.1Ã (À44) A to G Intron 9 0.400 0.450 0.255 0.685 0.450 0.571 11.1Ã (À41) T to G Intron 10 0.002 0 0 0.017 0 0 11.2 1199 G to A 400 Ser to Asn 0.014 0.025 0.010 0 0 0 12.1Ã (À4) G to A Intron 11 0.002 0 0.005 0 0 0 12.2 1236 C to T 412 Syn 0.385 0.459 0.209 0.685 0.450 0.571 12.3Ã 1308 A to G 436 Syn 0.002 0 0.005 0 0 0 12.4Ã (+17) G to A Intron 12 0.008 0 0.020 0 0 0 12.5 (+44) C to T Intron 12 0.088 0.046 0.168 0 0 0 13.1 (+24) C to T Intron 13 0.530 0.521 0.542 0.540 0.450 0.571 14.1 1617 C to T 539 Syn 0.002 0.005 0 0 0 0 14.2 (+38) A to G Intron 14 0.540 0.505 0.540 0.683 0.450 0.500 15.1 (+38) G to A Intron 15 0.004 0.005 0.005 0 0 0 16.1Ã 1985 T to G 662 Leu to Arg 0.002 0.005 0 0 0 0 16.2Ã 2005 C to T 669 Arg to Cys 0.004 0 0.010 0 0 0 18.1Ã (À27) A to G Intron 17 0.008 0.010 0.005 0 0.050 0 20.1Ã (+8) C to G Intron 20 0.002 0 0.005 0 0 0 20.2 (+24) G to A Intron 20 0.126 0.121 0.150 0.067 0.200 0 20.3Ã (+40) C to T Intron 20 0.014 0 0.035 0 0 0 21.1Ã 2547 A to G 849 Ile to Met 0.002 0.005 0 0 0 0 21.2 2650 C to T 884 Syn 0.004 0.005 0.005 0 0 0 21.3a 2677 G to T 893 Ala to Ser 0.308 0.464 0.100 0.450 0.400 0.357 21.3b 2677 G to A 893 Ala to Thr 0.035 0.036 0.005 0.067 0 0.357 22.1 (+31) G to A Intron 22 0.002 0 0.005 0 0 0 25.1Ã 3151 C to G 1051 Pro to Ala 0.002 0 0.005 0 0 0 26.1Ã 3322 T to C 1108 Trp to Arg 0.002 0 0.005 0 0 0 26.2 3421 T to A 1141 Ser toThr 0.047 0 0.111 0 0.050 0 26.3 3435 C to T 1145 Syn 0.392 0.561 0.202 0.400 0.500 0.500 28.1 3751 G to A 1251 Val to Ile 0.002 0 0 0 0.050 0 28.2 3767 C to A 1256 Thr to Lys 0.002 0.005 0 0 0 0 28.3 (+21) T to C Intron 28 0.031 0 0.077 0 0 0 a Variants are numbered sequentially by exon. Login to comment

[hide] Functional implications of genetic polymorphisms i... Pharm Res. 2004 Jun;21(6):904-13. Pauli-Magnus C, Kroetz DL
Functional implications of genetic polymorphisms in the multidrug resistance gene MDR1 (ABCB1).
Pharm Res. 2004 Jun;21(6):904-13., [PMID:15212152]

Abstract [show]
The multidrug resistance (MDR1) gene product P-glycoprotein is a membrane protein that functions as an ATP-dependent efflux pump, transporting exogenous and endogenous substrates from the inside of cells to the outside. Physiological expression of P-glycoprotein in tissues with excretory or protective function is a major determinant of drug disposition and provides a cellular defense mechanism against potentially harmful compounds. Therefore, P-glycoprotein has significant impact on therapeutic efficacy and toxicity as it plays a key role in absorption of oral medications from the intestinal tract, excretion into bile and urine, and distribution into protected tissues such as the brain and testes. There is increasing interest in the possible role of genetic variation in MDR1 in drug therapy. Numerous genetic polymorphisms in MDR1 have been described, some of which have been shown to determine P-glycoprotein expression levels and substrate transport. Furthermore, some of these polymorphisms have an impact on pharmacokinetic and pharmacodynamic profiles of drug substrates and directly influence outcome and prognosis of certain diseases. This review will focus on the impact of genetic variation in MDR1 on expression and function of P-glycoprotein and the implications of this variation for drug therapy and disease risk.

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28 6, June 2004 ((c) 2004) 9040724-8741/04/0600-0904/0 (c) 2004 Plenum Publishing Corporation Table I. MDR1 Coding Variants cDNA positiona NT change DNA/AA position AA change Allele frequencyb Total (n ‫ס‬ 494) CA (n ‫ס‬ 200) AA (n ‫ס‬ 200) AS (n ‫ס‬ 60) ME (n ‫ס‬ 20) PA (n ‫ס‬ 14) 61 A to G 21 Asn to Asp 0.045 0.080 0.025 0.017 0 0 266 T to C 89 Met to Thr 0.002 0.005 0 0 0 0 729 A to G 243 Syn 0.002 0.005 0 0 0 0 781 A to G 261 Ile to Val 0.006 0 0.015 0 0 0 1199 G to A 400 Ser to Asn 0.014 0.025 0.010 0 0 0 1236 C to T 412 Syn 0.385 0.459 0.209 0.685 0.450 0.571 1308 A to G 436 Syn 0.002 0 0.005 0 0 0 1617 C to T 539 Syn 0.002 0.005 0 0 0 0 1985 T to G 662 Leu to Arg 0.002 0.005 0 0 0 0 2005 C to T 669 Arg to Cys 0.004 0 0.010 0 0 0 2547 A to G 849 Ile to Met 0.002 0.005 0 0 0 0 2650 C to T 884 Syn 0.004 0.005 0.005 0 0 0 2677 G to T 893 Ala to Ser 0.308 0.464 0.100 0.450 0.400 0.357 2677 G to A 893 Ala to Thr 0.035 0.036 0.005 0.067 0 0.357 3151 C to G 1051 Pro to Ala 0.002 0 0.005 0 0 0 3322 T to C 1108 Trp to Arg 0.002 0 0.005 0 0 0 3421 T to A 1141 Ser to Thr 0.047 0 0.111 0 0.050 0 3435 C to T 1145 Syn 0.392 0.561 0.202 0.400 0.500 0.500 3751 G to A 1251 Val to Ile 0.002 0 0 0 0.050 0 3767 C to A 1256 Thr to Lys 0.002 0.005 0 0 0 0 a cDNA numbers are relative to the ATG site and based on the cDNA sequence from GenBank accession number M14758. Login to comment

[hide] Ethnic differences in genetic polymorphisms of CYP... Drug Metab Pharmacokinet. 2004 Apr;19(2):83-95. Ozawa S, Soyama A, Saeki M, Fukushima-Uesaka H, Itoda M, Koyano S, Sai K, Ohno Y, Saito Y, Sawada J
Ethnic differences in genetic polymorphisms of CYP2D6, CYP2C19, CYP3As and MDR1/ABCB1.
Drug Metab Pharmacokinet. 2004 Apr;19(2):83-95., [PMID:15499174]

Abstract [show]
Metabolic capacities for debrisoquin, sparteine, mephenytoin, nifedipine, and midazolam, which are substrates of polymorphic CYP2D6, CYP2C19, and CYP3A, have been reported to exhibit, in many cases, remarkable interindividual and ethnic differences. These ethnic differences are partly associated with genetic differences. In the case of the drug transporter ABCB1/MDR1, interindividual differences in its transporter activities toward various clinical drugs are also attributed to several ABCB1/MDR1 genetic polymorphisms. In this review, the existence and frequency of various low-activity alleles of drug metabolizing enzymes as well as populational drug metabolic capacities are compared among several different races or ethnicities. Distribution of nonsynonymous ABCB1/MDR1 SNPs and haplotype frequency in various races are summarized, with the association of nonsynonymous SNPs with large functional alterations as a rare event.

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85 Ethnic dierences in nonsynonymous SNPs of ABCB1W MDR1 cDNA positiona Position and amino acid change C AA AS J 61AÀG N21D 0.080 0.025 0.017 0 266TÀC M89T 0.005 0 0 0 781AÀG I261V 0 0.015 0 0 1199GÀA S400N 0.025 0.010 0 0 1985TÀG L662R 0.005 0 0 0 2005CÀT R669C 0 0.010 0 0 2547AÀG I849M 0.005 0 0 0 2677GÀT A893S 0.464 0.100 0.450 0.403 2677GÀA A893T 0.036 0.005 0.067 0.200 3151CÀG P1051A 0 0.005 0 0 3322TÀC W1108R 0 0.005 0 0 3421TÀA S1141T 0 0.111 0 0 3751GÀA V1251I 0 0 0 0.010 3767CÀA T1256K 0.005 0 0 0 C, 100 Caucasians; AA, 100 African-Americans; AS, 30 Asians; J, 145 Japanese (our study 116) ). Login to comment

[hide] Function-altering SNPs in the human multidrug tran... PLoS Genet. 2007 Mar 9;3(3):e39. Jeong H, Herskowitz I, Kroetz DL, Rine J
Function-altering SNPs in the human multidrug transporter gene ABCB1 identified using a Saccharomyces-based assay.
PLoS Genet. 2007 Mar 9;3(3):e39., 2007-03-09 [PMID:17352537]

Abstract [show]
The human ABCB1 (MDR1)-encoded multidrug transporter P-glycoprotein (P-gp) plays a major role in disposition and efficacy of a broad range of drugs including anticancer agents. ABCB1 polymorphisms could therefore determine interindividual variability in resistance to these drugs. To test this hypothesis we developed a Saccharomyces-based assay for evaluating the functional significance of ABCB1 polymorphisms. The P-gp reference and nine variants carrying amino-acid-altering single nucleotide polymorphisms (SNPs) were tested on medium containing daunorubicin, doxorubicin, valinomycin, or actinomycin D, revealing SNPs that increased (M89T, L662R, R669C, and S1141T) or decreased (W1108R) drug resistance. The R669C allele's highly elevated resistance was compromised when in combination with W1108R. Protein level or subcellular location of each variant did not account for the observed phenotypes. The relative resistance profile of the variants differed with drug substrates. This study established a robust new methodology for identification of function-altering polymorphisms in human multidrug transporter genes, identified polymorphisms affecting P-gp function, and provided a step toward genotype-determined dosing of chemotherapeutics.

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3 The P-gp reference and nine variants carrying amino-acid-altering single nucleotide polymorphisms (SNPs) were tested on medium containing daunorubicin, doxorubicin, valinomycin, or actinomycin D, revealing SNPs that increased (M89T, L662R, R669C, and S1141T) or decreased (W1108R) drug resistance. Login to comment
4 The R669C allele`s highly elevated resistance was compromised when in combination with W1108R. Login to comment
79 We first focused on the five SNPs with highest Grantham values (.80): M89T, L662R, R669C, A893S, and W1108R. Login to comment
82 Although A893S, S1141T, and R669C SNPs are common variants (minor allele frequency !1% in at least one major ethnic group), the remaining four chosen variants are observed only once among 494 alleles from different populations. Login to comment
84 The alignment and allele count of ABCB1 haplotypes based on the 14 nonsynonymous SNPs identified in the previous resequencing project are presented in Table S2. From the standpoint of functional impact, the R669C SNP was particularly interesting. Login to comment
87 Third, the R669C SNP may be in phase with the W1108R variant. Login to comment
88 One of the two R669C SNPs was detected in an individual whose ABCB1 gene also contained the W1108R variant, potentially resulting in haplotype R669C-W1108R. Login to comment
89 This observation prompted us to test whether a R669C-W1108R allele had a unique phenotype relative to alleles carrying each individual SNP. Login to comment
92 Features of the ABCB1 Variants Analyzed in This Study SNPa Evolutionary Conservationb Chemical Dissimilarity (Grantham Valuec ) Allele Count (out of 494 Alleles) M89T 0 81 1 L662R 3 102 1 R669C 2 180 2 A893S 2 99 151 P1051A 3 27 1 W1108R 3 101 1 S1141T 3 58 23 a Positions are relative to the transcription start site and based on the cDNA sequence from GenBank accession number M14758.1 with the change V185G, which is the most common haplotype in African Americans in the Pharmacogenetics of Membrane Transporters dataset. Login to comment
109 Different P-gp variants displayed higher levels of resistance (A893S-M89T, L662R, and R669C) or lower levels of resistance (A893S, S1141T, A893S-R669C, A893S-P1051A, W1108R, and W1108R-R669C) relative to the P-gp reference (Figure 2A and 2B). Login to comment
111 The replacement of Arg669 by Cys led to one of the most drastic gain-of-function effects on the ability of P-gp to confer drug resistance. Login to comment
120 In the liquid assay, three variants for daunorubicin (A893S-R669C, A893S-M89T, and R669C) and five variants for doxorubicin (A893S, S1141T, A893S-M89T, L662R, and R669C) exhibited statistically significant increases in EC50 values (p , 0.05) (Figure 2C; Table S4). Login to comment
129 The average 6 standard deviation of three measurements of relative protein levels is 103 6 19 for A893S, 83 6 17 for S1141T, 94 6 16 for A893S-R669C, 115 6 20 for A893S-M89T, 93 6 19 for L662R, 70 6 22 for A893S-P1051A, 134 6 25 for R669C, 102 6 18 for W1108R, 148 6 24 for R669C-W1108R, and 53 6 13 for frame-shifted, relative to the average of reference P-gp set to 100. Login to comment
159 Although some alleles showed similar trends of resistance for valinomycin and daunorubicin/doxorubicin, others (e.g., S1141T, W1108R, and W1108R-R669C) were qualitatively different in their resistances. Login to comment
165 Five variants (S1141T, A893S-R669C, A893S-M89T, L662R, and R669C) exhibited a statistically significant increase in EC50 or EC30 values for two or more drugs. Login to comment
167 The compromising effect of W1108R on R669C was obvious in resistance for all four drugs (Figures 2 and 4A). Login to comment
174 The functional consequences of five ABCB1 polymorphisms were previously unknown: the M89T, L662R, R669C, and S1141T variants were associated with increased resistance to two or more drugs; and the W1108R variant strongly mitigated the impact of R669C on gain of P-gp function (Figures 2 and 4A). Login to comment
189 The resistance profiles of the S1141T, W1108R, and W1108R-R669C variants showed the largest variation across substrates. Login to comment
194 Our data on functional consequences revealed that these predictions were sound: four functional SNPs (L662R, R669C, W1108R, and S1141T) scored highly on both criteria, while the two SNPs (A893S and P1051A) that showed no significant functional impact had lower scores on evolutionary conservation and chemical dissimilarity, respectively. Login to comment
199 Indeed, it is striking that the strong impact of R669C on P-gp function diminished almost completely when combined with W1108R (Figures 2 and 4A). Login to comment

[hide] Quantitative structure--activity relationship anal... Biochemistry. 2007 Jul 3;46(26):7678-93. Epub 2007 Jun 9. Sakurai A, Onishi Y, Hirano H, Seigneuret M, Obanayama K, Kim G, Liew EL, Sakaeda T, Yoshiura K, Niikawa N, Sakurai M, Ishikawa T
Quantitative structure--activity relationship analysis and molecular dynamics simulation to functionally validate nonsynonymous polymorphisms of human ABC transporter ABCB1 (P-glycoprotein/MDR1).
Biochemistry. 2007 Jul 3;46(26):7678-93. Epub 2007 Jun 9., 2007-07-03 [PMID:17559192]

Abstract [show]
Several preclinical and clinical studies suggest the importance of naturally occurring polymorphisms of drug transporters in the individual difference of drug response. To functionally validate the nonsynonymous polymorphisms of ABCB1 (P-glycoprotein/MDR1) in vitro, we generated SNP variant forms (i.e., S400N, R492C, R669C, I849M, A893P, A893S, A893T, M986V, A999T, P1051A, and G1063A) and expressed them in Sf9 cells. The kinetic properties (Km and Vmax) of those variants were analyzed by measuring the ATPase activity to obtain the ATPase profile for each variant toward structurally unrelated substrates. On the basis of the experimental data, we determined the substrate specificity of ABCB1 WT and its variants by the quantitative structure-activity relationship (QSAR) analysis method. While several SNP variants appeared to influence the substrate specificity of ABCB1, the nonsynonymous polymorphisms of 2677G > T, A, or C at amino acid position 893 (Ala > Ser, Thr, or Pro) have great impacts on both the activity and the substrate specificity of ABCB1. The A893P variant (2677G > C), a rare mutation, exhibited markedly high activity of ATPase toward different test compounds. Molecular dynamics (MD) simulation based on a three-dimensional structural model of human ABCB1 revealed that multiple kinks are formed in the intracellular loop between transmembrane domains 10 and 11 of the A893P variant (2677G > C) protein. The polymorphisms of 2677G, 2677T, and 2677A exhibit wide ethnic differences in the allele frequency, and these nonsynonymous polymorphisms are suggested to be clinically important because of their altered ATPase activity and substrate specificity toward different drugs.

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1 To functionally validate the nonsynonymous polymorphisms of ABCB1 (P-glycoprotein/MDR1) in vitro, we generated SNP variant forms (i.e., S400N, R492C, R669C, I849M, A893P, A893S, A893T, M986V, A999T, P1051A, and G1063A) and expressed them in Sf9 cells. Login to comment
38 For this purpose, ABCB1 cDNA cloned from a human liver cDNA library was prepared, and several variant forms (i.e., S400N, R492C, R669C, I849M, A893S, A893T, A893P, M986V, A999T, P1051A, and G1063A) were generated by site-directed mutagenesis. Login to comment
53 SNP data were obtained from the NCBI dbSNP database and recent publications: S400N (6, 7, 29, 31); R492C (7); R669C (16); I849M (16); A893P (NCBI dbSNP, rs2032582); A893S (8, 16, 23, 29-31); A893T (8, 16, 23, 29-31); M986V (30); A999T (28); P1051A (16); G1063A (NCBI dbSNP, rs2707944). Login to comment
80 Briefly, seventy-two hours after Table 1: Data on Oligonucleotide Primers Used for Site-Directed Mutagenesis and Experimental Conditionsa SNP amino acid cDNA F/R primers primer sequence (5' f 3') primer length (bases) % GC Tm (°C) S400N 1199G > A F CAGAAATGTTCACTTCAATTACCCATCTCGAAAAG 35 36.5 77.2 R CTTTTCGAGATGGGTAATTGAAGTGAACATTTCTG 35 36.5 77.2 R492C 1474C > T F TGAAAACATTCGCTATGGCTGTGAAAATGTCACCATGG 38 42.1 81.0 R CCATGGTGACATTTTCACAGCCATAGCGAATGTTTTCA 38 42.1 81.0 R669C 2005C > T F TCTAATAAGAAAAAGATCAACTTGTAGGAGTGTCCGTGGATC 42 37.9 80.9 R GATCCACGGACACTCCTACAAGTTGATCTTTTTCTTATTAGA 42 37.9 80.9 I849M 2547A > G F GGGACAGGAATAATTATGTCCTTCATCTATGGTTGGCA 38 34.5 77.9 R TGCCAACCATAGATGAAGGACATAATTATTCCTGTCCC 38 34.5 77.9 A893P 2677G > C F AGAAAGAACTAGAAGGTCCTGGGAAGATCGCTAC 34 47.1 80.9 R GTAGCGATCTTCCCAGGACCTTCTAGTTCTTTCT 34 47.1 80.9 A893S 2677G > T F GAAAGAACTAGAAGGTTCTGGGAAGATCGCTAC 33 45.4 79.6 R GTAGCGATCTTCCCAGAACCTTCTAGTTCTTTC 33 45.4 79.6 A893T 2677G > A F GAAAGAACTAGAAGGTACTGGGAAGATCGCTAC 33 45.4 79.6 R GTAGCGATCTTCCCAGTACCTTCTAGTTCTTTC 33 45.4 79.6 M986V 2956A > G F GTCTTTGGTGCCGTGGCCGTGGGGC 25 73.8 84.7 R GCCCCACGGCCACGGCACCAAAGAC 25 73.8 84.7 A999T 2995G > A F GTTCATTTGCTCCTGACTATACCAAAGCCAAAATATCAGCAG 42 40.5 82.0 R CTGCTGATATTTTGGCTTTGGTATAGTCAGGAGCAAATGAAC 42 40.5 82.0 P1051A 3151C > G F CGACCGGACATCGCAGTGCTTCAGGG 26 60.0 80.1 R CCCTGAAGCACTGCGATGTCCGGTCG 26 60.0 80.1 G1063A 3188G > C F GAGGTGAAGAAGGCCCAGACGCTGGCTC 28 64.3 83.7 R GAGCCAGCGTCTGGGCCTTCTTCACCTC 28 64.3 83.7 a F, forward; R, reverse. Login to comment
142 On the basis of the ABCB1 (WT) cDNA cloned from a human liver cDNA library, those variant forms (i.e., S400N, R492C, R669C, I849M, A893P, A893S, A893T, M986V, A999T, P1051A, and G1063A) were generated by site-directed mutagenesis as described in Experimental Procedures. Login to comment
180 Figure 3 depicts the verapamil-stimulated ATPase activity of ABCB1 WT, S400N, R492C, R669C, I849M, A893P, A893S, A893T, M986V, A999T, P1051A, and G1063A, where the verapamil-stimulated ATPase activities are normalized by considering the ABCB1 protein amounts. Login to comment
186 Sf9 plasma membranes (2 µg of protein) expressing ABCB1 WT and variants (S400N, R492C, R669C, I849M, A893P, A893S, A893T, M986V, A999T, P1051A, and G1063A) were incubated with ATP (2 mM) and verapamil at different concentrations (0, 1, 2, 5, 10, 20, 50, and 100 µM) at 37 °C for 30 min. After the incubation, the amount of liberated phosphate was measured as described in Experimental Procedures. All activities are expressed as mean values ( SD (n ) 6). Login to comment
187 Table 2: Km and Vmax Values for ATPase Activity of ABCB1 WT and Variants toward Verapamila SNP Km (µM) Vmax [nmol min-1 (mg of protein)-1 ] Vmax/Km WT 5.8 ( 2.3 62.4 ( 7.8 10.8 S400N 5.8 ( 2.8 46.7 ( 5.3** 8.0 R492C 5.6 ( 1.9 49.6 ( 10.0* 8.9 R669C 3.2 ( 1.6* 64.7 ( 6.9 20.1 I849M 1.5 ( 0.7** 80.3 ( 9.5** 51.8 A893P 1.5 ( 0.5** 405.2 ( 16.5** 274.6 A893S 11.1 ( 5.4 43.1 ( 7.1** 3.9 A893T 4.3 ( 1.4 98.9 ( 9.5** 22.9 M986V 5.1 ( 1.1 114.9 ( 13.6** 22.5 A999T 2.0 ( 0.8** 143.1 ( 21.2** 70.9 P1051A 6.2 ( 3.0 52.1 ( 13.6 8.4 G1063A 6.2 ( 3.7 117.9 ( 16.4** 19.0 a Data are expressed as mean ( SD, n ) 6. Login to comment
189 Table 3: Km and Vmax Values for ATPase Activity of ABCB1 WT and Variants toward Nicardipinea SNP Km (µM) Vmax [nmol min-1 (mg of protein)-1 Vmax/Km WT 1.1 ( 0.6 45.2 ( 8.7 41.0 S400N 1.7 ( 0.8 39.1 ( 9.1 23.4 R492C 1.1 ( 0.5 46.6 ( 6.4 43.5 R669C 0.3 ( 0.3** 53.5 ( 13.1 164.6 I849M 0.8 ( 0.9 80.2 ( 9.6** 102.9 A893P 0.1 ( 0.0** 341.2 ( 36.6** 4858.4 A893S 2.0 ( 0.6 39.2 ( 6.0 19.5 A893T 0.4 ( 0.2** 77.0 ( 16.9** 207.8 M986V 0.7 ( 0.4 89.7 ( 17.7** 129.9 A999T 0.3 ( 0.3** 115.4 ( 21.2** 393.6 P1051A 0.9 ( 0.3 33.1 ( 8.8* 36.3 G1063A 0.8 ( 0.4 93.2 ( 27.6** 121.4 a Data are expressed as mean ( SD, n ) 6. Login to comment
269 The present study addresses the impact of nonsynonymous polymorphisms of ABCB1 (i.e., S400N, R492C, R669C, I849M, A893S, A893T, A893P, M986V, A999T, P1051A, and G1063A) on its function. Login to comment
273 Table 5: ABCB1 WT and Variant-Specific Descriptors and Corresponding Coefficients Deduced from QSAR Analysisa coefficients (95% reliability) for ABCB1 WT and vatiants descriptor WT S400N R492C R669C I849M A893P A893S A893T M986V A999T P1051A G1063A M532 24.3 21.2 18.5 35.9 52.7 169.8 14.0 61.2 39.4 63.0 13.9 52.1 (3.76) (5.81) (5.87) (7.68) (11.30) (18.84) (4.03) (7.75) (8.76) (9.39) (4.78) (10.94) M132 21.5 14.1 13.6 32.8 61.4 135.6 11.2 52.8 38.2 65.9 7.6 24.3 (3.89) (5.34) (5.78) (6.89) (12.66) (22.95) (4.06) (7.16) (8.62) (8.44) (5.71) (10.46) C-CHN-BT 3.3 3.8 1.7 3.5 5.7 11.6 1.2 6.1 7.1 7.3 2.0 2.8 (0.72) (0.95) (0.87) (1.08) (1.55) (2.48) (0.65) (1.29) (1.43) (1.44) (0.66) (1.86) ESTR -10.1 -12.5 (4.93) (5.00) OH-Ar -6.4 (4.03) R-CC 16.1 -4.4 (7.86) (1.73) RT -8.9 -17.7 (4.21) (8.22) -O-Ar 5.7 (3.67) D012 5.5 (4.10) G010 -15.4 (9.59) H100 4.9 (3.59) H181 -7.3 (5.04) H421 14.6 (6.84) H521 14.1 (10.42) M113 -5.8 -11.7 -7.7 -22.8 -16.4 -16.5 (3.69) (5.30) (3.70) (8.75) (8.19) (10.58) M232 -14.5 (9.38) M280 4.8 (2.65) M313 -5.2 (3.18) M332 -5.0 (3.11) M370 4.2 (3.14) M372 10.0 14.4 (5.46) (7.91) M392 73.3 10.3 (25.03) (6.38) M531 -5.1 (3.05) M540 15.8 (11.27) H7 7.3 24.0 (4.01) (10.91) H8 10.7 (4.74) L1 -6.7 (2.52) L9 13.8 (6.93) constant -12.2 -5.5 -0.2 -2.3 -24.0 -7.1 1.3 -4.3 0.9 9.0 0.6 -11.2 R2 0.934 0.847 0.853 0.906 0.893 0.981 0.782 0.954 0.915 0.956 0.836 0.831 FO(6, 29) 68.9 26.8 28.1 46.4 40.5 254.5 17.3 100.3 51.8 106.2 24.6 23.7 Q2 0.883 0.710 0.767 0.729 0.826 0.968 0.572 0.923 0.828 0.909 0.617 0.760 a R2 , correlation coefficient; FO, Fisher value (level of statistical significance). Login to comment
293 The values of those coefficients for WT and SNP variants (i.e., S400N, R492C, R669C, I849M, A893P, A893S, A893T, M986V, A999T, P1051A, and G1063A) are the same as those shown in Table 5. Login to comment
316 Other nonsynonymous polymorphisms, such as S400N, R492C, R669C, P1051A, and G1063A occurring in intracellular loops as well as I849M, M986V, and A999T alterations in transmembrane domains, exhibited moderate changes in the kinetic properties of ABCB1. Login to comment
340 of samples allele frequency (%) allele frequency (%) ref S400N 1199 G > A African 111 G 100.0 A 0.0 23 African-American 100 G 99.0 A 1.0 16 German 461 G 94.5 A 5.5 29 Caucasian 85 G 87.1 A 12.9 6 Caucasian 50 G 98.0 A 2.0 31 Caucasian 100 G 97.5 A 2.5 16 Mexican-American 10 G 100.0 A 0.0 16 Asian-American 30 G 100.0 A 0.0 16 Pacific Islander 7 G 100.0 A 0.0 16 R492C 1474 C > T African-American 23 C 100.0 T 0.0 7 Caucasian 37 C 98.6 T 1.4 7 R669C 2005 C > T African-American 100 C 99.0 T 1.0 16 Caucasian 100 C 100.0 T 0.0 16 Mexican-American 10 C 100.0 T 0.0 16 Asian-American 30 C 100.0 T 0.0 16 Pacific Islander 7 C 100.0 T 0.0 16 I849M 2547 A > G African-American 100 C 100.0 T 0.0 16 Caucasian 100 C 99.5 T 0.5 16 Mexican-American 10 C 100.0 T 0.0 16 Asian-American 30 C 100.0 T 0.0 16 Pacific Islander 7 C 100.0 T 0.0 16 A893P/S/T 2677 G > T/A/C African (Beninese) 111 G 99.1 T 0.9 23 A 0.0 African-American 100 G 89.5 T 10.0 16 A 0.5 Caucasian 100 G 50.0 T 46.5 16 A 3.5 Caucasian 50 G 52.0 T 38.0 31 A 10.0 German 461 G 56.5 T 41.6 29 A 1.9 Mexican-American 10 G 60.0 T 40.0 16 A 0.0 Asian-American 30 G 33.3 T 45.0 16 A 21.7 Japanese 117 G 44.0 T 35.5 8 A 20.5 Japanese (placenta) 100 G 43.0 T 39.0 30 A 18.0 Japanese 48 G 36.5 T 41.7 30 A 21.8 Pacific Islander 7 G 28.6 T 35.7 16 A 35.7 ND ND G ND C ND NCBI dbSNP (rs2032582) M986V 2956 A > G Japanese (placenta) 100 A 99.5 G 0.5 30 Japanese 48 A 100.0 G 0.0 30 A999T 2995 G > A cell lines 36 G 94.4 A 5.6 28 P1051A 3151 C > G African-American 100 C 99.5 G 0.5 16 Caucasian 100 C 100.0 G 0.0 16 Mexican-American 10 C 100.0 G 0.0 16 Asian-American 30 C 100.0 G 0.0 16 Pacific Islander 7 C 100.0 G 0.0 16 G1063A 3188 G > A ND ND G ND A ND NCBI dbSNP (rs2707944) a ND, not determined. Login to comment

[hide] Substrate-dependent effects of human ABCB1 coding ... J Pharmacol Exp Ther. 2008 May;325(2):435-42. Epub 2008 Feb 20. Gow JM, Hodges LM, Chinn LW, Kroetz DL
Substrate-dependent effects of human ABCB1 coding polymorphisms.
J Pharmacol Exp Ther. 2008 May;325(2):435-42. Epub 2008 Feb 20., [PMID:18287207]

Abstract [show]
One of the many obstacles to effective drug treatment is the efflux transporter P-glycoprotein (P-gp), which can restrict the plasma and intracellular concentrations of numerous xenobiotics. Variable drug response to P-gp substrates suggests that genetic differences in ABCB1 may affect P-gp transport. The current study examined how ABCB1 variants alter the P-gp-mediated transport of probe substrates in vitro. Nonsynonymous ABCB1 variants and haplotypes with an allele frequency >/=2% were transiently expressed in HEK293T cells, and the transport of calcein acetoxymethyl ester and 4,4-difluoro-4-bora-3a,4a-diaza-s-indacene (BODIPY-FL)-paclitaxel was measured in the absence or presence of the P-gp inhibitor cyclosporin A. The A893S, A893T, and V1251I variants and the N21D/1236C>T/A893S/3435C>T haplotype altered intracellular accumulation compared with reference P-gp in a substrate-dependent manner. It is interesting that certain variants showed altered sensitivity to cyclosporin A inhibition that was also substrate-specific. These functional data demonstrate that nonsynonymous polymorphisms in ABCB1 may selectively alter P-gp transport and drug-drug interactions in a substrate- and inhibitor-dependent manner.

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55 The following variants were created from the reference ABCB1 plasmid in pCIneo: 61AϾG (N21D), 1199GϾA (S400T), 1596TϾG [a nonfunctional nucleotide-binding domain (NBD) mutant], 2005CϾT (R669C), 2677GϾA (A893T), 3421TϾA (S1141T), and 3751GϾA (V1251I). Login to comment
103 There are six polymorphic residues that meet these criteria: N21D, S400T, R669C, A893S/T, S1141T, and V1251I. Login to comment
111 Intra-and interexperimental replicates (n ϭ 3) for reference, NBD, and variant P-gp samples have TABLE 2 Allele frequencies, evolutionary conservation, and Grantham values for selected ABCB1 nonsynonymous polymorphisms and haplotypes Variant or Haplotype Allele Frequenciesa Amino Acid Conservationc Grantham Valued Nucleotide Change Amino Acid Change AA (n ϭ 200) CA (n ϭ 200) Reference Variant % 61AϾG N21D 2.5 8 23 1199GϾA S400T 1 2.5 d, ha, mk ms, r 46 2005CϾT R669C 1 0 d, ha, mk, r, s 180 2677GϾT A893S 10 46.4 ha, ms, r d, mk, s 99 2677GϾA A893T 0.5 3.6 ha, ms, r 58 3421TϾA S1141T 11.1 0 d, ha, mk, ms, r, s 58 3751GϾA V1251I 0b 0 d, ha, mk, ms, r s 29 1236CϾT/2677GϾT/3435CϾT A893S 6 34 N.A. N.A. N.A. 61AϾG/1236CϾT/2677GϾT/3435CϾT N21D/A893S 2.5 8 N.A. N.A. N.A. N.A., not applicable. Login to comment
135 The representative histogram of APC fluorescence for empty vector (gray, dotted), NBD mutant (gray), reference (black), and variant-transfected cells (N21D, yellow; S400N, cyan; R669C, purple; A893S, green; A893T, orange; S1141T, pink; V1251I, blue; 1236CϾT/A893S/3435CϾT, brown; and N21D/1236CϾT/A893S/3435CϾT, red) shows P-gp expression based on the intensity of APC fluorescence, as indicated on the x-axis. Login to comment
141 The effects of cyclosporin A on calcein-AM accumulation are displayed in a representative histogram for P-gp reference (black, shaded), N21D (yellow), R669C (purple), and A893S (green). Login to comment
151 It is interesting that the N21D, R669C, and A893S variants are more sensitive to cyclosporin A (136 Ϯ 28, 139 Ϯ 43, and 130 Ϯ 22%, respectively; p Ͻ 0.05) compared to reference (Fig. 2c). Login to comment
156 The N21D, S400N, R669C, and A893T variants and the 1236CϾT/A893S/3435CϾT haplotype were within 5% of the reference (Fig. 3c). Login to comment
164 The R669C variant has an allele frequency of only 1% in African Americans but was chosen because the variant amino acid causes a drastic chemical change (Grantham value ϭ 180). Login to comment
213 The R669C variant showed highly increased function for all substrates, whereas our data showed no difference for calcein-AM and BODIPY-FL-paclitaxel. Login to comment
214 There was increased function for A893S and S1141T depending on the substrate, TABLE 3 Substrateand inhibitor-dependent effects of P-gp variants on transport function Variant or Haplotype Calcein-AM BODIPY-FL-Paclitaxel -CsAa ϩCsAb -CsA ϩCsA N21D 1 S400T R669C 1 A893S 1 2 2 A893T 1 2 S1141T 2 V1251I 1 2 2 1236CϾT/A893S/3435CϾT N21D/1236CϾT/A893S/3435CϾT 2 2 a Arrows indicate statistically significant changes in P-gp function relative to reference in the absence of cyclosporin A (-CsA). Login to comment
224 The N21D, R669C, and A893S P-gp variants show increased inhibition of calcein-AM transport by cyclosporin A. Login to comment

[hide] MDR1 C2005T polymorphism changes substrate specifi... Cancer Chemother Pharmacol. 2010 Aug;66(3):617-23. Epub 2010 Mar 23. Liu L, Fan L, Peng X, Hu D, Zhou H
MDR1 C2005T polymorphism changes substrate specificity.
Cancer Chemother Pharmacol. 2010 Aug;66(3):617-23. Epub 2010 Mar 23., [PMID:20309692]

Abstract [show]
PURPOSE: The current study is to determine the alterations of efflux transport activity to Rh123 and sensitivity to anticancer agents mediated by a MDR1 C2005T polymorphism. METHODS: Expressions of mRNA and protein of MDR1 were measured by real-time PCR and immunoblotting, respectively, and localization of P-glycoprotein (P-gp) by confocal microscopy. Cell cytotoxicity and efflux transport activity were determined by MTT and Rh123 transepithelial permeability assay, respectively. RESULTS: MDR1 C2005T polymorphism did not affect the expression level of the MDR1 mRNA and protein and had no effect on the trafficking of P-gp to plasma membrane. A cytotoxicity study showed that MDR1wt and MDR1 (2005T) cells exhibited similar resistance, as measured by IC(50) values, to vinblastine (30.3 +/- 2.5 vs. 32.5 +/- 1.7 nM) and vincristine (104.1 +/- 1.9 vs. 110.3 +/- 3.5 nM). However, MDR1 (2005T) cells were less resistant to paclitaxel (28.2 +/- 2.1 vs. 91.8 +/- 3.5 nM; P < 0.05) and etoposide (119.7 +/- 6.5 vs. 546.8 +/- 9.5 nM; P < 0.05). The apparent transepithelial permeability ratios of Rh123 in MDR1 (wt) and MDR1 (2005T) cells were 2.12 +/- 0.46 and 3.64 +/- 0.78 (P < 0.05), respectively. CONCLUSIONS: The MDR1 C2005T polymorphism alters the transepithelial permeability of a fluorescent substrate and sensitivity to select cytotoxic agents, which may influence drug disposition and the therapeutic efficacy of some P-gp substrates.

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148 The R669C variant showed highly increased function for all substrates. Login to comment

[hide] Pharmacogenetics of drug transporters in the enter... Pharmacogenomics. 2011 May;12(5):611-31. Stieger B, Meier PJ
Pharmacogenetics of drug transporters in the enterohepatic circulation.
Pharmacogenomics. 2011 May;12(5):611-31., [PMID:21619426]

Abstract [show]
This article summarizes the impact of the pharmacogenetics of drug transporters expressed in the enterohepatic circulation on the pharmacokinetics and pharmacodynamics of drugs. The role of pharmacogenetics in the function of drug transporter proteins in vitro is now well established and evidence is rapidly accumulating from in vivo pharmacokinetic studies, which suggests that genetic variants of drug transporter proteins can translate into clinically relevant phenotypes. However, a large amount of conflicting information on the clinical relevance of drug transporter proteins has so far precluded the emergence of a clear picture regarding the role of drug transporter pharmacogenetics in medical practice. This is very well exemplified by the case of P-glycoprotein (MDR1, ABCB1). The challenge is now to develop pharmacogenetic models with sufficient predictive power to allow for translation into drug therapy. This will require a combination of pharmacogenetics of drug transporters, drug metabolism and pharmacodynamics of the respective drugs.

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91 Gene name Transporter SNP Protein Population size (n) Invitro 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 transportactivity [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 transportactivity [202] c.3151C>G p.P1051A N/A Increased transport activity (substratedependent) [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 invitro [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 invitro [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 ATPaseactivity [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]. Login to 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]. Login to comment

[hide] An update on ABCB1 pharmacogenetics: insights from... Pharmacogenomics J. 2011 Oct;11(5):315-25. doi: 10.1038/tpj.2011.16. Epub 2011 May 31. Wolf SJ, Bachtiar M, Wang J, Sim TS, Chong SS, Lee CG
An update on ABCB1 pharmacogenetics: insights from a 3D model into the location and evolutionary conservation of residues corresponding to SNPs associated with drug pharmacokinetics.
Pharmacogenomics J. 2011 Oct;11(5):315-25. doi: 10.1038/tpj.2011.16. Epub 2011 May 31., [PMID:21625253]

Abstract [show]
The human ABCB1 protein, (P-glycoprotein or MDR1) is a membrane-bound glycoprotein that harnesses the energy of ATP hydrolysis to drive the unidirectional transport of substrates from the cytoplasm to the extracellular space. As a large range of therapeutic agents are known substrates of ABCB1 protein, its role in the onset of multidrug resistance has been the focus of much research. This role has been of particular interest in the field of pharmacogenomics where genetic variation within the ABCB1 gene, particularly in the form of single nucleotide polymorphisms (SNPs), is believed to contribute to inter-individual variation in ABCB1 function and drug response. In this review we provide an update on the influence of coding region SNPs within the ABCB1 gene on drug pharmacokinetics. By utilizing the crystal structure of the mouse ABCB1 homolog (Abcb1a), which is 87% homologous to the human sequence, we accompany this discussion with a graphical representation of residue location for amino acids corresponding to human ABCB1 coding region SNPs. Also, an assessment of residue conservation, which is calculated following multiple sequence alignment of 11 confirmed sequences of ABCB1 homologs, is presented and discussed. Superimposing a 'heat map' of residue homology to the Abcb1a crystal structure has permitted additional insights into both the conservation of individual residues and the conservation of their immediate surroundings. Such graphical representation of residue location and conservation supplements this update of ABCB1 pharmacogenetics to help clarify the often confounding reports on the influence of ABCB1 polymorphisms on drug pharmacokinetics and response.

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No. Sentence Comment
48 Four of the 12 associated nsSNPs (E3/61A4G, E5/266C4T, E17/1985T4C and E17/2005C4T) cannot be mapped to the mouse crystal Table 1 Genetic conservation of amino acids corresponding to ABCB1 coding region SNPs 1 - rs28381804 E3/49T>C (F17L) F17 W16 S16 Y17 Y35 F39 - A42 - - G11 - - 2 - rs41304191 E3/55C>T (L19L) L19 M18 M18 I19 G37 P41 - E44 - - L13 - - 3 - rs76199854 E3/57G>A (L19L) L19 M18 M18 I19 G37 P41 - E44 - - L13 - - --51I--64H-34K93N12N02K02K12N)D12N(G>A16/3E4652829sr-4 7.832.8105P12A01K88D61D18T07T55S34G34N44N)S44N(G>A131/5E3812021sr1sn5 6 ns2 rs41315618 E5/178A>C (I60L) I60 I59 I59 A71 I86 A97 G32 G104 K26 N37 L66 27.3 46.6 1.924.6368N75G64N421Y25G711I601I19V97A97A08A)E08A(A>C932/5E5652829sr3sn7 8 - rs35810889 E5/266C>T (M89T) - M89 F89 S85 T96 I112 - - - - - - - - 9 ns4 rs61607171 E7/431T>C (I144T) TM2 I144 I145 I140 V152 N168 I176 A98 A172 L93 V97 L124 36.4 40.9 2.645.45841G121T711V691A221T002S291S671A461V961V861V)I861V(A>G205/7E32622116sr5sn01 11 s1 rs1128500 E8/540C>T (S180S) S180 S181 S176 S188 E204 S212 L136 N208 E129 E133 E160 27.3 42.0 12 ns6 rs60419673 E8/548A>G (N183S) N183 N184 N179 N191 K207 E215 Q139 Q211 K132 A136 S163 27.3 39.9 9.045.54561G831S431F312G141F712G902G391G181G681G581G)V581G(T>G455/8E1058211sr7sn31 14 s2 rs1128502 E8/555A>T (G185G) G185 G186 G181 G193 G209 G217 F141 G213 F134 S138 G165 45.5 40.9 15 s3 rs2235022 E9/729A>G (E243E) E243 E244 E239 E251 E267 E275 I199 Q271 R192 M196 S223 18.2 33.3 16 s4 rs28381867 E9/738G>A (A246A) A246 A247 A242 A254 R270 M278 E202 V274 A195 T199 Y226 9.1 34.5 17 ns8 rs36008564 E9/781A>G (I261V) C-NBD (Internal) I261 I262 I257 V267 I285 I293 V217 I289 I210 H214 I241 36.4 50.3 18 s5 rs80153317 E10/879T>C (I293I) TM5 I293 I294 I289 I301 L317 M325 L249 I321 R242 S246 F273 18.2 36.3 19 ns9 rs2229109 E12/1199G>A (S400N) N-NBD (Internal) S400 S401 S396 N408 T424 Q439 T355 V428 Q348 T350 H386 18.2 60.7 20 s6 rs1128503 E13/1236C>T (G412G) N-NBD (External) G412 G413 G408 G420 G436 K451 D367 N440 D359 N361 D398 27.3 55.9 21 s7 rs35068177 E13/1308A>G (T436T) T436 T437 T432 T44 I460 C475 V391 I464 L383 I385 I422 54.5 64.6 22 s8 rs41311775 E15/1326G>A (R442R) R442 R443 R438 R450 R466 R481 R397 R470 R389 R391 R428 100.0 54.5 23 s9 rs35633772 E15/1617C>T (I539I) I539 I540 I535 I547 I563 I578 I494 I576 L486 I489 I571 90.9 65.8 24 s10 rs60247941 E15/1632C>T (A544A) A544 A545 A540 A552 A568 A583 A499 A581 I491 A494 A576 63.6 65.1 25 s11 rs2235012 E15/1662G>C (L554L) L554 L555 L550 L562 L578 L593 L509 L591 L501 L504 L586 100.0 73.6 26 s12 rs56871767 E15/1674G>A (T558T) T558 T559 T554 T566 T582 T597 T513 T595 T505 T508 T590 100.0 78.7 27 s13 rs59697741 E15/1695C>T (S565S) S565 S566 S561 S573 S589 S604 S520 S602 S512 S515 S597 100.0 75.4 28 ns10 rs28381902 E15/1696G>A (E566K) E566 E567 E562 E574 E590 E605 E521 E603 E513 E516 E598 100.0 76.6 29 ns11 rs28381914 E16/1777C>T (R593C) R593 R594 R589 R601 R617 R632 R548 R630 T540 E543 R627 54.5 67.3 30 ns12 rs56107566 E16/1778G>A (R593H ) R593 R594 R589 R601 R617 R632 R548 R630 T540 E543 R627 54.5 67.3 31 s14 rs28381915 E16/1794C>T (I598I) I598 I599 I594 I606 I622 I637 I553 I635 I545 I548 I632 100.0 65.5 32 ns13 rs2235036 E16/1795G>A (A599T) A599 A600 A595 A607 I623 V638 C554 V636 V546 V549 F633 54.5 63.6 33 ns14 rs57001392 E16/1837G>T (D613Y) N-NBD (External) D613 D614 D609 S621 R637 Q652 E568 N650 R560 N563 D677 45.5 60.5 -0.0637E--807A516E896K496M176E856L366L266L)R266L(C>T5891/71E06975653sr-43 35 - rs35023033 E17/2005C>T (R669C) R669 R670 R665 R678 I702 D705 S662 T715 - - N743 0.0 - 36 - rs59340265 E17/2037C>T (D679D) D679 D680 D675 N688 D712 N715 S632 N725 - - E753 9.1 - 37 ns15 rs41316450 E18/2207T>A (I736K) TM7 I736 I737 V732 I745 M779 I771 V682 I820 I37 L48 V814 72.7 36.7 38 ns16 rs77144566 E19/2281A>C (A761S) TM8 A761 V763 I757 A769 V802 I796 G706 I844 I647 G655 L836 63.6 42.1 39 ns17 rs41305517 E21/2398G>A (D800N) C-NBD (Internal) D800 D801 D796 D808 H841 D835 E745 D883 S108 P112 E875 9.1 45.4 40 ns18 rs2235039 E21/2401G>A (V801M) C-NBD (External) V801 V802 V797 M809 I842 V836 V746 V884 A109 V113 M876 63.6 47.6 2.035.54409L931S531I219S447V468T078I738T528T038I928I)V928I(G>A5842/22E1852302sr91sn14 42 s15 rs28381966 E22/2505A>G (V835V) V835 V836 V831 L843 T876 T870 L780 T918 N141 T145 F911 45.5 33.0 43 ns20 rs28381967 E22/2506A>G (I836V) I836 I837 I832 I844 V877 I871 L781 V919 I142 V146 F911 63.6 28.5 7.448.18429M951M551I239L497I488D098I758I548I058I948I)M948I(G>A7452/22E03150163sr12sn44 45 s16 rs9282563 E22/2650C>T (L884L) L884 L885 L880 K892 V925 M919 R829 E967 R190 K194 I959 27.3 31.2 7.535.54289P302V991V679S838S829C439S109A988S498A398S)T/A398S(A/T>G7762/22E2852302sr22sn64 4.834.631801M203T892V5701F739G7201L5301T0001S889S399S299S)N299S(A>G5792/52E72194865sr32sn74 5.633.729801E903Q503T2801T449V4301Q2401A7001A599A0001A999A)T999A(A>G5992/52E48725527sr42sn84 49 s17 rs2235044 E26/3084G>A (P1028P) P1028 P1029 P1024 P1036 - P1063 P973 V1111 P332 V334 I1117 0.0 33.0 50 ns25 rs28401798 E26/3151C>G (P1051A) P1051 P1052 P1047 K1059 E1093 Q1086 I996 K1135 P355 P357 P1142 18.2 57.6 51 ns26 rs2707944 E26/3188G>C (G1063A) G1063 G1064 G1059 G1071 G1105 G1098 G1008 G1147 G367 G369 K1154 45.5 53.8 52 s18 rs2707943 E26/3189C>G (G1063G) G1063 G1064 G1059 G1071 G1105 G1098 G1008 G1147 G367 G369 K1154 45.5 53.8 53 ns27 rs74755520 E26/3222A>C (C1074W) C-NBD (Internal) C1074 C1075 C1070 C1082 C1116 C1109 S1019 C1158 G378 S380 S1165 63.6 67.8 54 ns28 rs57521326 E26/3262G>A (D1088N) D1088 D1089 D1084 D1096 D1130 D1123 D1033 D1172 D392 D394 D1179 100.0 53.9 55 ns29 rs41309225 E27/3295A>G (K1099E) K1099 K1100 K1095 I1107 S1141 C1134 R1044 V1183 H403 H405 I1237 18.2 38.5 56 ns30 rs55852620 E27/3320A>C (Q1107P) Q1107 Q1108 Q1103 Q1115 E1149 T1142 R1052 N1191 G411 A413 R1245 27.3 43.7 57 ns31 rs35730308 E27/3322T>C (W1108R) W1108 Q1109 W1104 Q1116 H1150 N1143 S1053 D1192 S412 S414 D1246 27.3 43.5 58 s19 rs34748655 E27/3396C>T (A1132A) C-NBD (Internal) A1132 A1133 A1128 A1140 I1174 S1167 M1077 V1216 L436 A438 K1270 27.3 56.8 59 ns32 rs41309228 E27/3410G>T (S1137I ) S1137 S1138 S1133 S1145 P1179 A1172 S1082 S1220 P440 E443 - 18.2 41.8 60 ns33 rs2229107 E27/3421T>A (S1141T) S1141 S1142 S1137 S1149 T1183 T1176 D1086 S1224 D444 R447 T1277 45.5 50.9 61 s20 rs1045642 E27/3435C>T (I1145I) C-NBD (Internal) I1145 I1146 I1141 I1153 V1187 I1180 I1090 M1228 V447 I450 V1281 72.7 57.6 62 ns34 rs59241388 E28/3502A>G (K1168E) K1168 R1169 R1164 R1176 R1210 R1203 C1113 L1251 E470 V473 N1304 27.3 61.9 63 ns35 rs41309231 E29/3669A>T (E1223D) E1223 E1224 E1219 E1231 E1265 E1258 V1168 Q1306 K525 K528 D1359 27.3 60.2 64 s21 rs2235051 E29/3747C>G (G1249G) C-NBD (Internal) G1249 G1250 G1245 G1257 G1291 G1284 G1194 G1332 G551 G554 T1392 63.6 63.0 65 ns36 rs45456698 E29/3751G>A (V1251I) V1251 V1252 V1247 V1259 I1293 V1286 V1196 I1334 I553 I556 V1394 81.8 59.2 4.957.279931T165T855T9331T1021N1921D8921T4621T2521T7521T6521T)K6521T(A>C7673/92E93412753sr73sn66 C-NBD (External) C-NBD (External) C-NBD (External) C-NBD (External) TM4 - TM9 TM10 - TM1 S. aureus TM12 N-NBD (Internal) N-NBD (External) N-NBD (Internal) C-NBD (External) TM3 C. elegans D. melanoga ster A. thaliana S. pombe # SNP (amino acid substitution) Mapped to Abcb1a domain (internal/external surface) rsNo Conservation (%)a H. Sapiens C. l. Familiaris M. Musculus G. gallus P. falciparum Amino acid residue housing SNP Individual Regional 3 structure E. coli a The conservation of residues corresponding to all coding regions SNPs was obtained following multiple sequence alignment of 11 confirmed ABCB1 homolog protein sequences. Login to comment
131 These are E3/61A4G (N21D), E5/266C4T (M89T), E17/1985T4C (L662R), E17/2005C4T (R669C). Login to comment
132 When in haplotype with the intensely studied SNPs E13/1236C4T (#s6), E22/2677G4T/A (#ns22) and E27/3435C4T (#s20), SNP E3/61A4G (N21D), which cannot be mapped to the 3D crystal structure, was reported to increase BODIPY-FL-paclitaxel accumulation and modulate the effect of cyclosporine A on the intracellular accumulation of BODIPY-FL-paclitaxel transport.50 However, the N21D substitution was found not to influence cyclosporine A pharmacokinetics in another study.51 In yet another study, the N21D polymorphism was reported to influence the trough but not the peak plasma levels concentration of methadone.52 Using a yeast-based assay, SNP E27/3421T4A (S1141T) (#ns33) and several SNPs that cannot be mapped to the crystal structure (E5/266C4T (M89T), E17/1985T4C (L662R), E17/2005C4T (R669C)) were reported to increase drug resistance to two or more drugs whereas SNP E27/ 3322T4C (W1108R) (#ns31) decreased drug resistance.49 Curiously, in another study, the E17/2005C4T (R669C) SNP was reported to be associated with decreased resistance to paclitaxel and etoposide in transfected LLC-PK1 cells.53 The increased resistance by SNP E17/2005C4T (R669C) was found to be reversed by SNP E27/3322T4C (W1108R) (#ns31).49 In another study using HEK293T cells, SNP E27/3421T4A (S1141T) (#ns33) was reported to be less sensitive to cyclosporine A inhibition of BODIPY-FL-paclitaxel transport.50 It was suggested that as the resistance profiles of SNPs E27/3421T4A (S1141T) (#ns33), E27/3322T4C (W1108R) (#ns31) and diplotype E27/3322T4C (W1108R)- E17/ 2005C4T (R669C)) display the largest variation across substrates, the region where S1141T (#ns33) and W1108R (#ns31) reside might contribute to the substrate discrimination activity of P-gp.49 The 3D crystal structure reveals that both S1141T (#ns33) and W1108R (#ns31) reside at the C-terminal NBD of the P-gp protein with S1141T (#ns33) residing on the outer surface and W1108R (#ns31) residing in the interior of the NBD (Figures 2b, 4d and 4e and flash movie http:// pfs.nus.edu.sg/demo_src/abcb1.html). Login to comment

[hide] Xenobiotic, bile acid, and cholesterol transporter... Pharmacol Rev. 2010 Mar;62(1):1-96. Epub 2010 Jan 26. Klaassen CD, Aleksunes LM
Xenobiotic, bile acid, and cholesterol transporters: function and regulation.
Pharmacol Rev. 2010 Mar;62(1):1-96. Epub 2010 Jan 26., [PMID:20103563]

Abstract [show]
Transporters influence the disposition of chemicals within the body by participating in absorption, distribution, and elimination. Transporters of the solute carrier family (SLC) comprise a variety of proteins, including organic cation transporters (OCT) 1 to 3, organic cation/carnitine transporters (OCTN) 1 to 3, organic anion transporters (OAT) 1 to 7, various organic anion transporting polypeptide isoforms, sodium taurocholate cotransporting polypeptide, apical sodium-dependent bile acid transporter, peptide transporters (PEPT) 1 and 2, concentrative nucleoside transporters (CNT) 1 to 3, equilibrative nucleoside transporter (ENT) 1 to 3, and multidrug and toxin extrusion transporters (MATE) 1 and 2, which mediate the uptake (except MATEs) of organic anions and cations as well as peptides and nucleosides. Efflux transporters of the ATP-binding cassette superfamily, such as ATP-binding cassette transporter A1 (ABCA1), multidrug resistance proteins (MDR) 1 and 2, bile salt export pump, multidrug resistance-associated proteins (MRP) 1 to 9, breast cancer resistance protein, and ATP-binding cassette subfamily G members 5 and 8, are responsible for the unidirectional export of endogenous and exogenous substances. Other efflux transporters [ATPase copper-transporting beta polypeptide (ATP7B) and ATPase class I type 8B member 1 (ATP8B1) as well as organic solute transporters (OST) alpha and beta] also play major roles in the transport of some endogenous chemicals across biological membranes. This review article provides a comprehensive overview of these transporters (both rodent and human) with regard to tissue distribution, subcellular localization, and substrate preferences. Because uptake and efflux transporters are expressed in multiple cell types, the roles of transporters in a variety of tissues, including the liver, kidneys, intestine, brain, heart, placenta, mammary glands, immune cells, and testes are discussed. Attention is also placed upon a variety of regulatory factors that influence transporter expression and function, including transcriptional activation and post-translational modifications as well as subcellular trafficking. Sex differences, ontogeny, and pharmacological and toxicological regulation of transporters are also addressed. Transporters are important transmembrane proteins that mediate the cellular entry and exit of a wide range of substrates throughout the body and thereby play important roles in human physiology, pharmacology, pathology, and toxicology.

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No. Sentence Comment
6832 Nucleotide Change Amino Acid Change In Vitro Function Protein Expression/ Localization ABCB1 MDR1 A61G N21D ↔ N.D. T307C F103L N.D. N.D. G1199A S400N 1↔ Normal C2005T R669C ↔ N.D. G2677T A893S 21↔ Normal G2677A A893T 1↔ Notmal T3421A S1141T 2↔ N.D. C3435T I1145I 2↔ N.D. G3751A V1251I 2 N.D. 2, reduced function; 1, increased function; ↔, no change in function; N.D. not determined. Login to comment

[hide] Emerging new technologies in Pharmacogenomics: rap... Pharmacol Ther. 2010 Apr;126(1):69-81. Epub 2010 Feb 4. Ishikawa T, Sakurai A, Hirano H, Lezhava A, Sakurai M, Hayashizaki Y
Emerging new technologies in Pharmacogenomics: rapid SNP detection, molecular dynamic simulation, and QSAR analysis methods to validate clinically important genetic variants of human ABC Transporter ABCB1 (P-gp/MDR1).
Pharmacol Ther. 2010 Apr;126(1):69-81. Epub 2010 Feb 4., [PMID:20138191]

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, by extension, their overall pharmacological effects. There are an increasing number of reports addressing genetic polymorphisms of drug transporters. A key requirement for the development of individualized medicine or personalized therapy is the ability to rapidly and conveniently test patients for genetic polymorphisms and/or mutations. We have recently developed a rapid and cost-effective method for single nucleotide polymorphism (SNP) detection, named Smart Amplification Process 2 (SmartAmp2), which enables us to detect genetic polymorphisms or mutations in 30 to 45min under isothermal conditions without DNA isolation and PCR amplification. Furthermore, high-speed functional screening, quantitative structure-activity relationship (QSAR) analysis, and molecular dynamic (MD) simulation methods have been developed to study the substrate specificity of ABC transporters and to evaluate the effect of genetic polymorphisms on their function and substrate specificity. These methods would provide powerful and practical tools for screening synthetic and natural compounds, and the deduced data can be applied to the molecular design of new drugs. This review addresses such new methods for validating genetic polymorphisms of human ABC transporter ABCB1 (P-gp/MDR1) which is critically involved in the pharmacokinetics of drugs.

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No. Sentence Comment
478 To functionally validate the non-synonymous polymorphisms of ABCB1 (P-glycoprotein/MDR1) in vitro, we generated SNP variant forms (i.e., S400N, R492C, R669C, I849M, A893P, A893S, A893T, M986V, A999T, P1051A, and G1063A; refer to Fig. 6) and expressed them in Sf9 cells. Login to comment
500 SNP Km Vmax Vmax / Km (µM) (nmol/min/mg protein) WT 5.8±2.3 62.4±7.8 10.8 S400N 5.8±2.8 46.7±5.3⁎⁎ 8.0 R492C 5.6±1.9 49.6±10.0⁎ 8.9 R669C 3.2±1.6⁎ 64.7±6.9 20.1 I849M 1.5±0.7⁎⁎ 80.3±9.5⁎⁎ 51.8 A893P 1.5±0.5⁎⁎ 405.2±16.5⁎⁎ 274.6 A893S 11.1±5.4 43.1±7.1⁎⁎ 3.9 A893T 4.3±1.4 98.9±9.5⁎⁎ 22.9 M986V 5.1±1.1 114.9±13.6⁎⁎ 22.5 A999T 2.0±0.8⁎⁎ 143.1±21.2⁎⁎ 70.9 P1051A 6.2±3.0 52.1±13.6 8.4 G1063A 6.2±3.7 117.9±16.4⁎⁎ 19.0 Data are expressed as mean±S.D., n=6. Login to comment
533 The values of those coefficients for WT and SNP variants (i.e., S400N, R492C, R669C, I849M, A893P, A893S, A893T, M986V, A999T, P1051A, and G1063A) are shown in Sakurai et al. (2007). Login to comment
476 To functionally validate the non-synonymous polymorphisms of ABCB1 (P-glycoprotein/MDR1) in vitro, we generated SNP variant forms (i.e., S400N, R492C, R669C, I849M, A893P, A893S, A893T, M986V, A999T, P1051A, and G1063A; refer to Fig. 6) and expressed them in Sf9 cells. Login to comment
498 SNP Km Vmax Vmax / Km (&#b5;M) (nmol/min/mg protein) WT 5.8&#b1;2.3 62.4&#b1;7.8 10.8 S400N 5.8&#b1;2.8 46.7&#b1;5.3Ìe;Ìe; 8.0 R492C 5.6&#b1;1.9 49.6&#b1;10.0Ìe; 8.9 R669C 3.2&#b1;1.6Ìe; 64.7&#b1;6.9 20.1 I849M 1.5&#b1;0.7Ìe;Ìe; 80.3&#b1;9.5Ìe;Ìe; 51.8 A893P 1.5&#b1;0.5Ìe;Ìe; 405.2&#b1;16.5Ìe;Ìe; 274.6 A893S 11.1&#b1;5.4 43.1&#b1;7.1Ìe;Ìe; 3.9 A893T 4.3&#b1;1.4 98.9&#b1;9.5Ìe;Ìe; 22.9 M986V 5.1&#b1;1.1 114.9&#b1;13.6Ìe;Ìe; 22.5 A999T 2.0&#b1;0.8Ìe;Ìe; 143.1&#b1;21.2Ìe;Ìe; 70.9 P1051A 6.2&#b1;3.0 52.1&#b1;13.6 8.4 G1063A 6.2&#b1;3.7 117.9&#b1;16.4Ìe;Ìe; 19.0 Data are expressed as mean&#b1;S.D., n=6. Login to comment
502 Descriptor Coefficients (95% reliability) for ABCB1 WT and vatiants WT S400N R492C R669C I849M A893P A893S A893T M986V A999T P1051A G1063A M532 24.3 (3.76) 21.2 (5.81) 18.5 (5.87) 35.9 (7.68) 52.7 (11.30) 169.8 (18.84) 14.0 (4.03) 61.2 (7.75) 39.4 (8.76) 63.0 (9.39) 13.9 (4.78) 52.1 (10.94) M132 21.5 (3.89) 14.1 (5.34) 13.6 (5.78) 32.8 (6.89) 61.4 (12.66) 135.6 (22.95) 11.2 (4.06) 52.8 (7.16) 38.2 (8.62) 65.9 (8.44) 7.6 (5.71) 24.3 (10.46) C-CHN-BT 3.3 (0.72) 3.8 (0.95) 1.7 (0.87) 3.5 (1.08) 5.7 (1.55) 11.6 (2.48) 1.2 (0.65) 6.1 (1.29) 7.1 (1.43) 7.3 (1.44) 2.0 (0.66) 2.8 (1.86) ESTR -10.1 (4.93) -12.5 (5.00) OH-Ar -6.4 (4.03) R-CC 16.1 (7.86) -4.4 (1.73) RT -8.9 (4.21) -17.7 (8.22) -O-Ar 5.7 (3.67) D012 5.5 (4.10) G010 -15.4 (9.59) H100 4.9 (3.59) H181 -7.3 (5.04) H421 14.6 (6.84) H521 14.1 (10.42) M113 -5.8 (3.69) -11.7 (5.30) -7.7 (3.70) -22.8 (8.75) -16.4 (8.19) -16.5 (10.58) M232 -14.5 (9.38) M280 4.8 (2.65) M313 -5.2 (3.18) M332 -5.0 (3.11) M370 4.2 (3.14) M372 10.0 (5.46) 14.4 (7.91) M392 73.3 (25.03) 10.3 (6.38) M531 -5.1 (3.05) M540 15.8 (11.27) H7 7.3 (4.01) 24.0 (10.91) H8 10.7 (4.74) L1 -6.7 (2.52) L9 13.8 (6.93) Const. Login to comment
534 The values of those coefficients for WT and SNP variants (i.e., S400N, R492C, R669C, I849M, A893P, A893S, A893T, M986V, A999T, P1051A, and G1063A) are shown in Sakurai et al. (2007). Login to comment

[hide] A synonymous polymorphism in a common MDR1 (ABCB1)... Biochim Biophys Acta. 2009 May;1794(5):860-71. Epub 2009 Mar 11. Fung KL, Gottesman MM
A synonymous polymorphism in a common MDR1 (ABCB1) haplotype shapes protein function.
Biochim Biophys Acta. 2009 May;1794(5):860-71. Epub 2009 Mar 11., [PMID:19285158]

Abstract [show]
The MDR1 (ABCB1) gene encodes a membrane-bound transporter that actively effluxes a wide range of compounds from cells. The overexpression of MDR1 by multidrug-resistant cancer cells is a serious impediment to chemotherapy. MDR1 is expressed in various tissues to protect them from the adverse effect of toxins. The pharmacokinetics of drugs that are also MDR1 substrates also influence disease outcome and treatment efficacy. Although MDR1 is a well-conserved gene, there is increasing evidence that its polymorphisms affect substrate specificity. Three single nucleotide polymorphisms (SNPs) occur frequently and have strong linkage, creating a common haplotype at positions 1236C>T (G412G), 2677G>T (A893S) and 3435C>T (I1145I). The frequency of the synonymous 3435C>T polymorphism has been shown to vary significantly according to ethnicity. Existing literature suggests that the haplotype plays a role in response to drugs and disease susceptibility. This review summarizes recent findings on the 3435C>T polymorphism of MDR1 and the haplotype to which it belongs. A possible molecular mechanism of action by ribosome stalling that can change protein structure and function by altering protein folding is discussed.

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No. Sentence Comment
152 A study in our lab showed that common polymorphisms of MDR1 at 61ANG (N21D), 307TNC (F103L), 1199GNA (S400N), 2677GNT (A893S) and 2995GNA (A999T) do not change the transport of four MDR1 substrates when expressed at high levels in human cells [66]. Login to comment
153 A recent study by Gow et al. suggested that all of the SNPs they tested (N21D, S400N, R669C, A893S, A893T, S1141T, V1251I) produced small changes which in most cases are not statistically significant [59]. Login to comment
154 Another study using a yeast host to express human MDR1 SNPs (M89T, L662R, R669C, A893S, W1108R, S1141T) showed increased resistance to anthracyclines, actinomycin D and valinomycin. Login to comment

[hide] Impact of Genetic Polymorphisms of ABCB1 (MDR1, P-... Clin Pharmacokinet. 2015 Jul;54(7):709-35. doi: 10.1007/s40262-015-0267-1. Wolking S, Schaeffeler E, Lerche H, Schwab M, Nies AT
Impact of Genetic Polymorphisms of ABCB1 (MDR1, P-Glycoprotein) on Drug Disposition and Potential Clinical Implications: Update of the Literature.
Clin Pharmacokinet. 2015 Jul;54(7):709-35. doi: 10.1007/s40262-015-0267-1., [PMID:25860377]

Abstract [show]
ATP-binding cassette transporter B1 (ABCB1; P-glycoprotein; multidrug resistance protein 1) is an adenosine triphosphate (ATP)-dependent efflux transporter located in the plasma membrane of many different cell types. Numerous structurally unrelated compounds, including drugs and environmental toxins, have been identified as substrates. ABCB1 limits the absorption of xenobiotics from the gut lumen, protects sensitive tissues (e.g. the brain, fetus and testes) from xenobiotics and is involved in biliary and renal secretion of its substrates. In recent years, a large number of polymorphisms of the ABCB1 [ATP-binding cassette, sub-family B (MDR/TAP), member 1] gene have been described. The variants 1236C>T (rs1128503, p.G412G), 2677G>T/A (rs2032582, p.A893S/T) and 3435C>T (rs1045642, p.I1145I) occur at high allele frequencies and create a common haplotype; therefore, they have been most widely studied. This review provides an overview of clinical studies published between 2002 and March 2015. In summary, the effect of ABCB1 variation on P-glycoprotein expression (messenger RNA and protein expression) and/or activity in various tissues (e.g. the liver, gut and heart) appears to be small. Although polymorphisms and haplotypes of ABCB1 have been associated with alterations in drug disposition and drug response, including adverse events with various ABCB1 substrates in different ethnic populations, the results have been majorly conflicting, with limited clinical relevance. Future research activities are warranted, considering a deep-sequencing approach, as well as well-designed clinical studies with appropriate sample sizes to elucidate the impact of rare ABCB1 variants and their potential consequences for effect sizes.

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67 Only a few reports have described the functional consequences of rare variants in cell models, e.g. variants 266T[C (rs35810889, p.M89T), 1199G[A/T/C (rs2229109, p.S400N/I/T), 1985T[G (rs35657960, p.L662R), 2005C[T (rs35023033, p.R669C), 3322T[C (rs35730308, p.T1108R) and 3751G[A (rs28364274, p.V1251I) [50-52]. Login to comment