常见 UGT2B10 和 CYP2A6 等位基因对欧洲裔美国人尼古丁葡萄糖醛酸化变异的贡献。

The contribution of common UGT2B10 and CYP2A6 alleles to variation in nicotine glucuronidation among European Americans.

机构信息

aDepartment of Psychiatry, Washington University School of Medicine, St Louis, Missouri bDepartment of Biochemistry, Molecular Biology and Biophysics, University of Minnesota, Minneapolis, Minnesota, USA.

出版信息

Pharmacogenet Genomics. 2013 Dec;23(12):706-16. doi: 10.1097/FPC.0000000000000011.

DOI:10.1097/FPC.0000000000000011

PMID:24192532

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3919513/

Abstract

BACKGROUND

To develop a predictive genetic model of nicotine metabolism. UDP-glucuronosyltransferase-2B10 (UGT2B10) is the primary catalyst of nicotine glucuronidation.

MATERIALS AND METHODS

The conversion of deuterated (D2)-nicotine to D2-nicotine-glucuronide, D2-cotinine, D2-cotinine-glucuronide, and D2-trans-3'-hydroxycotinine were quantified in 188 European Americans, and the contribution of UGT2B10 genotype to variability in first-pass nicotine glucuronidation assessed, following a procedure previously applied to nicotine C-oxidation. The proportion of total nicotine converted to nicotine-glucuronide [D2-nicotine-glucuronide/(D2-nicotine+D2-nicotine-glucuronide+D2-cotinine+D2-cotinine-glucuronide+D2-trans-3'-hydroxycotinine)] was the primary phenotype.

RESULTS

The variant, rs61750900T (D67Y) (minor allele frequency=10%), is confirmed to abolish nicotine glucuronidation activity. Another variant, rs112561475G (N397D) (minor allele frequency=2%), is significantly associated with enhanced glucuronidation. rs112561475G is the ancestral allele of a well-conserved amino acid, indicating that the majority of human UGT2B10 alleles are derived hypomorphic alleles.

CONCLUSION

CYP2A6 and UGT2B10 genotype explain 53% of the variance in oral nicotine glucuronidation in this sample. CYP2A6 and UGT2B10 genetic variants are also significantly associated with undeuterated (D0) nicotine glucuronidation in individuals smoking ad libitum. We find no evidence for further common variation markedly influencing hepatic UGT2B10 expression in European Americans.

摘要

背景

开发尼古丁代谢的预测遗传模型。UDP-葡糖醛酸基转移酶 2B10（UGT2B10）是尼古丁葡糖醛酸化的主要催化剂。

材料和方法

在 188 名欧洲裔美国人中定量测定氘代（D2）-尼古丁转化为 D2-尼古丁葡糖苷酸、D2-可替宁、D2-可替宁葡糖苷酸和 D2-反式-3'-羟基可替宁的情况，并评估 UGT2B10 基因型对首过尼古丁葡糖醛酸化变异性的贡献，方法是采用先前应用于尼古丁 C-氧化的程序。主要表型是总尼古丁转化为尼古丁葡糖苷酸的比例[D2-尼古丁葡糖苷酸/（D2-尼古丁+D2-尼古丁葡糖苷酸+D2-可替宁+D2-可替宁葡糖苷酸+D2-反式-3'-羟基可替宁）]。

结果

已确认变体 rs61750900T（D67Y）（次要等位基因频率=10%）可完全消除尼古丁葡糖醛酸化活性。另一个变体 rs112561475G（N397D）（次要等位基因频率=2%）与增强的葡糖醛酸化显著相关。rs112561475G 是一个高度保守氨基酸的祖先等位基因，表明大多数人类 UGT2B10 等位基因是衍生的低功能等位基因。

结论

在该样本中，CYP2A6 和 UGT2B10 基因型解释了口服尼古丁葡糖醛酸化的 53%变异性。CYP2A6 和 UGT2B10 遗传变异也与自由吸烟个体中未氘代（D0）尼古丁葡糖醛酸化显著相关。我们没有发现证据表明在欧洲裔美国人中进一步的常见变异显著影响肝脏 UGT2B10 表达。

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