Polymorphism of human mu class glutathione transferases.

Pharmacogenetics Pub Date : 2004-06-01 DOI:10.1097/00008571-200406000-00005

Natasha Tetlow, Anna Robinson, Tim Mantle, Philip Board

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引用次数: 74

Abstract

Objectives and methods: A combined database mining approach was used to detect polymorphisms in the mu class glutathione-S-transferase (GST) genes. Although a large number of potential polymorphisms were detected in the five genes that comprise the Mu class GSTs using sequence alignment programs and by searching single nucleotide polymorphism databases, the majority were not validated or detected in three major ethnic populations (African, Southern Chinese and Australian European).

Results: Two new polymorphisms were detected and characterized in the GSTM3 gene. A rare pG147W substitution was detected only in the Southern Chinese subjects. A more common pV224I substitution was found in each of the ethnic groups studied, and significant differences in allele frequencies were observed between each group. These two polymorphisms can combine to form four distinct haplotypes (GSTM3A [p.G147;V224], GSTM3C [p.G147;I224], GSTM3D [p.W147;V224], GSTM3E [p.W147;I224]). The four isoforms were expressed in Escherichia coli and characterized enzymatically with several substrates including 1-chloro-2,4-dinitrobenzene (CDNB), cumene hydroperoxide and t-nonenal. GSTM3-3 containing the variant p.W147 residue tended to show diminished specific activity and catalytic efficiency with CDNB. In contrast, GSTM3-3 containing the variant p.I224 residue tended to show increased specific activity and catalytic efficiency with CDNB. Interactions between the different p.147 and p.224 residues were also observed, with the GSTM3C isoform exhibiting the greatest activity with each substrate, and GSTM3E the lowest.

Conclusion: These functional polymorphisms may play a significant role in modulating the ability of GSTM3-3 to metabolize substrates such as the chemotherapeutic agent 1,3-bis(2-chloroethyl)-1-nitrosourea.

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人mu类谷胱甘肽转移酶多态性。

目的和方法:采用联合数据库挖掘方法检测mu类谷胱甘肽- s转移酶(GST)基因的多态性。虽然利用序列比对程序和单核苷酸多态性数据库在构成Mu类gst的5个基因中检测到大量潜在多态性，但大多数未在三个主要民族人群(非洲人、中国南方人和澳大利亚欧洲人)中验证或检测到。结果:在GSTM3基因中检测到两个新的多态性。罕见的pG147W替换仅在中国南方受试者中检测到。在研究的每个种族群体中都发现了更常见的pV224I替换，并且在每个群体之间观察到等位基因频率的显着差异。这两种多态性可以组合形成四种不同的单倍型(GSTM3A [p.G147;V224]、GSTM3C [p.G147;I224]、GSTM3D [p.W147;V224]、GSTM3E [p.W147;I224])。这4种异构体在大肠杆菌中表达，并与1-氯-2,4-二硝基苯(CDNB)、双氧水异丙烯和t-壬烯醛等底物进行酶学表征。含有p.W147变体残基的GSTM3-3对CDNB的比活性和催化效率趋于降低。相比之下，含有变异p.I224残基的GSTM3-3对CDNB表现出更高的比活性和催化效率。不同的p.147和p.224残基之间的相互作用也被观察到，GSTM3C异构体对每种底物的活性都最大，而GSTM3E最低。结论:这些功能多态性可能在调节GSTM3-3代谢化疗药物1,3-双(2-氯乙基)-1-亚硝基脲等底物的能力中发挥重要作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Pharmacogenetics

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