提高药物遗传学中二氢吡啶脱氢酶检测的单核苷酸多态性基因分型准确性

Q3 Medicine
Annalaura Montella, Sueva Cantalupo, Giuseppe D’alterio, Vincenzo Damiano, A. Iolascon, Mario Capasso
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引用次数: 0

摘要

氟嘧啶类药物是治疗癌症的关键药物,但即使使用标准剂量,也经常会引起毒性问题。二氢嘧啶脱氢酶(DPYD)酶功能受损可能导致氟嘧啶代谢物的毒性积累,最终产生不良反应。新的证据表明,DPYD 基因中的单核苷酸多态性(SNPs)可导致 DPYD 活性缺乏。因此,在开始氟嘧啶类药物治疗前,DPYD 基因分型在临床实践中的重要性日益凸显。虽然聚合酶链式反应(PCR)后进行桑格测序(SS;PCR-SS)是一种常用的 DPYD 基因分型方法,但它可能会遇到一些限制。在这种情况下,有报告称,在一例非洲裔原告中,常规的 PCR-SS 方法未能对 DPYD SNP rs55886062 进行基因分型。临床药物遗传学实施联盟(CPIC)将该 SNP 的鸟嘌呤(G)等位基因归类为无功能基因。通过采用全基因组测序(WGS)方法,在该受试者的 PCR 引物退火区附近发现了两个腺嘌呤(A)插入物,它们是导致 rs55886062 发生序列框移位和基因分型错误的原因。这些 SNP(rs145228578,1-97981199-T-TA 和 rs141050810,1-97981622-G-GA)在非芬兰裔欧洲人中极为罕见(0.05%),但在非洲人群中却很普遍(16%)。虽然这些 SNP 的证据有限,但它们在公共数据库中被列为良性变异。值得注意的是,这两个 SNPs 表现出很高的连锁不平衡 [LD;平方相关系数 (R2) = 0.98]。这些发现突出表明,在药物基因检测中设计用于 SNP 基因分型的引物和探针时,必须考虑不同种族人群中遗传变异的流行情况。这一预防措施对于避免基因组中出现的 SNP 导致的序列框移位或引物错位至关重要,因为这可能会影响 PCR-SS,导致基因分型失败。此外,本病例还强调了在遇到与传统技术相关的挑战时,探索其他基因分型方法(如 WGS)的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Improving single nucleotide polymorphisms genotyping accuracy for dihydropyrimidine dehydrogenase testing in pharmacogenetics
Fluoropyrimidines, crucial in cancer treatment, often cause toxicity concerns even at standard doses. Toxic accumulation of fluoropyrimidine metabolites, culminating in adverse effects, can stem from impaired dihydropyrimidine dehydrogenase (DPYD) enzymatic function. Emerging evidence underscores the role of single nucleotide polymorphisms (SNPs) in DPYD gene, capable of inducing DPYD activity deficiency. Consequently, DPYD genotyping’s importance is on the rise in clinical practice before initiating fluoropyrimidine treatment. Although polymerase chain reaction (PCR) followed by Sanger sequencing (SS; PCR-SS) is a prevalent method for DPYD genotyping, it may encounter limitations. In this context, there is reported a case in which a routine PCR-SS approach for genotyping DPYD SNP rs55886062 failed in a proband of African descent. The Clinical Pharmacogenetics Implementation Consortium (CPIC) categorizes the guanine (G) allele of this SNP as non-functional. The enforcement of whole genome sequencing (WGS) approach led to the identification of two adenine (A) insertions near the PCR primers annealing regions in the proband, responsible for a sequence frameshift and a genotyping error for rs55886062. These SNPs (rs145228578, 1-97981199-T-TA and rs141050810, 1-97981622-G-GA) were extremely rare in non-Finnish Europeans (0.05%) but prevalent in African populations (16%). Although limited evidence was available for these SNPs, they were catalogued as benign variants in public databases. Notably, these two SNPs exhibited a high linkage disequilibrium [LD; squared correlation coefficient (R2) = 0.98]. These findings highlighted the importance to consider the prevalence of genetic variants within diverse ethnic populations when designing primers and probes for SNP genotyping in pharmacogenetic testing. This preventive measure is essential to avoid sequence frameshifts or primer misalignments arising from SNP occurrences in the genome, which can compromise PCR-SS and lead to genotyping failures. Furthermore, this case highlights the significance of exploring alternative genotyping approaches, like WGS, when confronted with challenges associated with conventional techniques.
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来源期刊
CiteScore
2.80
自引率
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