Ethnicity-Related Polymorphisms and Haplotypes in the Human
            <i>ABCB1</i>
            Gene

Kimchi-Sarfaty, Chava; Marple, Andrew; Shinar, Shiri; Kimchi, Avraham M.; Scavo, David; Roma, M. Isabella; Kim, In Wha; Jones, Adam P.; Mili, Ali; Gribar, John J.; Genevieve, David; Gottesman, Michael M.

doi:10.2217/14622416.8.1.29

Cited by 92 publications

(68 citation statements)

References 57 publications

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“…To date, the most commonly reported polymorphism linked to different responses of patients to various MDR1 substrates is located at exon 26, C3435T, and does not result in an amino acid change. This silent polymorphism has been found to differ significantly amongst different populations (Tang et al, 2002;Jamroziak et al, 2004;Ramasamy et al, 2006;Kimchi-Sarfaty et al, 2007b). However, C3435T SNP has been associated with changes in the expression of MDR1 (Hoffmeyer et al, 2000;Larsen et al, 2007).…”

Section: Discussionmentioning

confidence: 98%

“…A number of SNPs in the MDR1 gene have already been identified as clinically important for drug response, raising the need for the genotyping of these SNPs in different populations for individualized drug treatment (Kimchi-Sarfaty et al, 2007b). Drug pharmacokinetics involving P-gp has often been found to be affected in individuals carrying various non-silent SNPs; however, sometimes changes have also been observed in individuals carrying silent SNPs (Komar, 2007a).…”

Section: Discussionmentioning

confidence: 99%

“…Human P-gp is encoded by the MDR1 gene, which is located on chromosomal region 7q21 and consists of 28 exons ranging in size from 49 to 209 bp, and the cDNA spans 4.5 kb (Ambudkar et al, 2003;Ishikawa et al, 2004;Kimchi-Sarfaty et al, 2007b). To date, over 50 single nucleotide polymorphisms (SNPs) have been reported for MDR1 gene (http://www.…”

Section: Introductionmentioning

confidence: 99%

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Genotype and allele frequencies of MDR1 gene C1236T polymorphism in a Turkish population

Gümüş-Akay¹,

Rüstemoğlu²,

Karadağ³

et al. 2008

Genet. Mol. Res.

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absTraCT. Human P-glycoprotein (P-gp) is encoded by the MDR1 gene, which is located on chromosomal region 7q21 and consists of 28 exons. To date, over 50 single nucleotide polymorphisms (SNPs) have been reported for the MDR1 gene. The effect of these polymorphisms on P-gp function or their clinical impact is in most cases unknown, but some of the SNPs are known to be of functional relevance and can also alter the pharmacokinetics of substrate drugs. The aim of the current study was to analyze for the first time an existing silent MDR1 C1236T (Gly412Gly) polymorphism in a Turkish population. The genotype frequencies of C1236T SNP in a Turkish population were also compared with those in other populations. One hundred unrelated healthy subjects (48 females, 52 males) were included in this study and all them were of Turkish ethnicity. The genotyping of the C1236T SNP was performed by the polymerase chain reaction (PCR)-restriction fragment length polymorphism (RFLP) method.

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Section: Discussionmentioning

confidence: 98%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Genotype and allele frequencies of MDR1 gene C1236T polymorphism in a Turkish population

Gümüş-Akay¹,

Rüstemoğlu²,

Karadağ³

et al. 2008

Genet. Mol. Res.

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“…Cells were fixed and permeabilized 48 h post-transfection in icecold methanol. Prostacyclin receptors were labeled using anti-1D4 monoclonal antibody (C-terminal tagged hIP) followed by goat anti-mouse IgG F(abЈ) 2 Alexa Fluor 568 fluorescent antibody (Molecular Probes, Inc.). The endoplasmic reticulum was labeled using anti-calnexin polyclonal antibody (Stressgen Bioreagents) followed by goat anti-rabbit IgG Alexa Fluor 488 fluorescent antibody (Molecular Probes, Inc.).…”

Section: Materials-radiolabeled [mentioning

confidence: 99%

“…no change in amino acid sequence) or non-synonymous (change in amino acid sequence) mutations. They are implicated in the pathogenesis of diseases (1), in the efficacy of drugs, and in drug-to-drug interactions (2)(3)(4). It is now generally believed that greater than 80% of the observed variability between individuals is the result of genetic variants (5).…”

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confidence: 99%

Comprehensive Biochemical Analysis of Rare Prostacyclin Receptor Variants

Stitham

Arehart²,

Elderon³

et al. 2011

Journal of Biological Chemistry

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Currently, pharmacogenetic studies are at an impasse as the low prevalence (<2%) of most variants hinder their pharmacogenetic analysis with population sizes often inadequate for sufficiently powered studies. Grouping rare mutations by functional phenotype rather than mutation site can potentially increase sample size. Using human population-based studies (n ‫؍‬ 1,761) to search for dysfunctional human prostacyclin receptor (hIP) variants, we recently discovered 18 non-synonymous mutations, all with frequencies less than 2% in our study cohort. Eight of the 18 had defects in binding, activation, and/or protein stability/folding. Mutations (M113T, L104R, and R279C) in three highly conserved positions demonstrated severe misfolding manifested by impaired binding and activation of cell surface receptors. To assess for association with coronary artery disease, we performed a case-control study comparing coronary angiographic results from patients with reduced cAMP production arising from the non-synonymous mutations (n ‫؍‬ 23) with patients with non-synonymous mutations that had no reduction in cAMP (n ‫؍‬ 17). Major coronary artery obstruction was significantly increased in the dysfunctional mutation group in comparison with the silent mutations. We then compared the 23 dysfunctional receptor patients with 69 age-and risk factor-matched controls (1:3). This verified the significantly increased coronary disease in the non-synonymous dysfunctional variant cohort. This study demonstrates the potential utility of in vitro functional characterization in predicting clinical phenotypes and represents the most comprehensive characterization of human prostacyclin receptor genetic variants to date. Single nucleotide polymorphisms (SNPs)3 occurring in DNA coding regions are sequence changes that result in either synonymous (i.e. no change in amino acid sequence) or non-synonymous (change in amino acid sequence) mutations. They are implicated in the pathogenesis of diseases (1), in the efficacy of drugs, and in drug-to-drug interactions (2-4). It is now generally believed that greater than 80% of the observed variability between individuals is the result of genetic variants (5). Numerous databases, including the National Center for Biotechnology Information SNP database, have accumulated millions of SNPs, and a growing list of clinical trials seeks to address the role of SNPs in pathophysiology and treatment response (6 -8). Despite the rapid accumulation of data, surprisingly little has entered clinical practice. This may be in part due to the requirement for very large cohorts to perform an adequately powered study for the rarer mutations. Detailed genetic variant functional analysis in biochemical systems may provide a possible solution.The human prostacyclin receptor gene (PTGIR) spans ϳ7,000 bases along chromosome 19 (locus 19q13.3) and comprises three exons separated by two introns: one intron lies upstream from the ATG start codon, and the other lies at the end of the sixth transmembrane helix (9). The human prostacycli...

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