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一种使用多重高分辨率熔解曲线分析技术对硫嘌呤类药物治疗患者进行TPMT和ITPA基因分型的简单方法。

A Simple Method for TPMT and ITPA Genotyping Using Multiplex HRMA for Patients Treated with Thiopurine Drugs.

作者信息

Skrzypczak-Zielinska Marzena, Borun Pawel, Bartkowiak-Kaczmarek Anna, Zakerska-Banaszak Oliwia, Walczak Michal, Dobrowolska Agnieszka, Kurzawski Mateusz, Waszak Malgorzata, Lipinski Daniel, Plawski Andrzej, Slomski Ryszard

机构信息

Institute of Human Genetics, Polish Academy of Sciences, ul. Strzeszynska 32, 60-479, Poznan, Poland.

Laboratory of Cell Biophysics, Nencki Institute of Experimental Biology, Polish Academy of Sciences, Warsaw, Poland.

出版信息

Mol Diagn Ther. 2016 Oct;20(5):493-9. doi: 10.1007/s40291-016-0217-0.

DOI:10.1007/s40291-016-0217-0
PMID:27307154
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5021755/
Abstract

Thiopurine methyltransferase (TPMT) and inosine triphosphatase (ITPA) are crucial enzymes involved in the metabolism of thiopurine drugs: azathioprine and 6-mercaptopurine, used in the treatment of leukemia or inflammatory bowel diseases (IBD). The activity in these enzymes correlates with the genetic polymorphism of the TPMT and ITPA genes, respectively, which determines an individual reaction and dosing of thiopurines. Three main TPMT alleles: TPMT2 (c.238G>C), TPMT3A (c.460G>A, c.719A>G) and TPMT3C (c.719A>G) account for 80-95 % of inherited TPMT deficiency in different populations in the world. In the ITPA gene, a c.94C>A mutation is significantly associated with an adverse thiopurine reaction. The aim of this study was to develop a quick and highly sensitive method for determining major TPMT and ITPA alleles. Here we present the molecular test for genotyping c.238G>C, c.460G>A, c.719A>G and c.94C>A changes based on multiplex high resolution melting analysis (HRMA). We analyzed DNA samples from 100 clinically diagnosed IBD patients treated with thiopurine drugs, and a known genotype in the positions 238, 460 and 719 of the TPMT gene as well as in position 94 of the ITPA gene. Our results obtained with multiplex HRMA indicated 100 % accuracy in comparison with data from restriction fragments length polymorphism (RFLP) and standard DNA sequencing. We conclude, that multiplex HRMA can be used as a quick, sensitive and efficient alternative diagnostic method compared to conventional techniques for the determination of TPMT2, TPMT3A and TPMT3C alleles and c.94C>A change in the ITPA gene.

摘要

硫嘌呤甲基转移酶(TPMT)和肌苷三磷酸酶(ITPA)是参与硫嘌呤类药物(用于治疗白血病或炎症性肠病(IBD)的硫唑嘌呤和6-巯基嘌呤)代谢的关键酶。这些酶的活性分别与TPMT和ITPA基因的基因多态性相关,这决定了个体对硫嘌呤类药物的反应和剂量。三个主要的TPMT等位基因:TPMT2(c.238G>C)、TPMT3A(c.460G>A,c.719A>G)和TPMT3C(c.719A>G)在世界不同人群中占遗传性TPMT缺乏的80-95%。在ITPA基因中,c.94C>A突变与硫嘌呤类药物的不良反应显著相关。本研究的目的是开发一种快速且高度灵敏的方法来测定主要的TPMT和ITPA等位基因。在此,我们展示了基于多重高分辨率熔解分析(HRMA)对c.238G>C、c.460G>A、c.719A>G和c.94C>A变化进行基因分型的分子检测方法。我们分析了100例接受硫嘌呤类药物治疗的临床诊断IBD患者的DNA样本,以及TPMT基因第238、460和719位以及ITPA基因第94位的已知基因型。我们通过多重HRMA获得的结果表明,与限制性片段长度多态性(RFLP)和标准DNA测序数据相比,准确率为100%。我们得出结论,与传统技术相比,多重HRMA可作为一种快速、灵敏且高效的替代诊断方法,用于测定TPMT2、TPMT3A和TPMT3C等位基因以及ITPA基因中的c.94C>A变化。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4c6f/5021755/ba97ae9cd310/40291_2016_217_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4c6f/5021755/cb2834d9ca2b/40291_2016_217_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4c6f/5021755/ba97ae9cd310/40291_2016_217_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4c6f/5021755/cb2834d9ca2b/40291_2016_217_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4c6f/5021755/ba97ae9cd310/40291_2016_217_Fig2_HTML.jpg

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