Department of Genetics and Genomic Sciences, Icahn School of Medicine at Mount Sinai, New York, New York.
J Mol Diagn. 2013 Nov;15(6):783-9. doi: 10.1016/j.jmoldx.2013.06.004. Epub 2013 Sep 5.
CYP2C19 is involved in the metabolism of clinically relevant drugs, including the antiplatelet prodrug clopidogrel, which has prompted interest in clinical CYP2C19 genotyping. The CYP2C19∗4B allele is defined by both gain-of-function [c.-806C>T (∗17)] and loss-of-function [c.1A>G (∗4)] variants on the same haplotype; however, current genotyping and sequencing assays are unable to determine the phase of these variants. Thus, the aim of this study was to develop an assay that could rapidly detect and discriminate the related ∗4A, ∗4B, and ∗17 alleles. An allele-specific PCR assay, composed of four unique primer mixes that specifically interrogate the defining ∗17 and ∗4 variants, was developed by using samples (n = 20) with known genotypes, including the ∗4A, ∗4B, and/or ∗17 alleles. The assay was validated by testing 135 blinded samples, and the results were correlated with CYP2C19 genotyping and allele-specific cloning/sequencing. Importantly, among the six ∗4 carriers in the validation cohort, after allele-specific PCR testing both samples with a ∗1/∗4 genotype were reclassified to ∗1/∗4A, all three samples with a ∗4/∗17 genotype were reclassified to ∗1/∗4B, and a sample with a ∗4/∗17/∗17 genotype was reclassified to ∗4B/∗17. In conclusion, this rapid and robust allele-specific PCR assay can refine CYP2C19 genotyping and metabolizer phenotype classification by determining the phase of the defining ∗17 and ∗4 variants, which may have utility when testing CYP2C19 for clopidogrel response.
CYP2C19 参与临床相关药物的代谢,包括抗血小板前体药物氯吡格雷,这促使人们对临床 CYP2C19 基因分型产生了兴趣。CYP2C19∗4B 等位基因是由同一单倍型上的功能获得 [c.-806C>T (∗17)] 和功能丧失 [c.1A>G (∗4)] 变体定义的;然而,目前的基因分型和测序检测无法确定这些变体的相位。因此,本研究的目的是开发一种能够快速检测和区分相关∗4A、∗4B 和∗17 等位基因的检测方法。通过使用具有已知基因型(包括∗4A、∗4B 和/或∗17 等位基因)的样本(n = 20),开发了一种由四个独特引物混合物组成的等位基因特异性 PCR 检测方法,该方法专门检测定义的∗17 和∗4 变体。通过测试 135 个盲样验证了该检测方法,结果与 CYP2C19 基因分型和等位基因特异性克隆/测序相关。重要的是,在验证队列中的六个∗4 携带者中,经过等位基因特异性 PCR 检测后,具有∗1/∗4 基因型的两个样本均重新分类为∗1/∗4A,所有三个具有∗4/∗17 基因型的样本均重新分类为∗1/∗4B,而具有∗4/∗17/∗17 基因型的样本重新分类为∗4B/∗17。总之,这种快速而稳健的等位基因特异性 PCR 检测方法可以通过确定定义的∗17 和∗4 变体的相位来细化 CYP2C19 基因分型和代谢物表型分类,这在测试氯吡格雷反应时检测 CYP2C19 时可能具有实用性。
