UGT1A5 的一种常见多态变体由于共因子结合得到优化而表现出增加的活性。

A common polymorphic variant of UGT1A5 displays increased activity due to optimized cofactor binding.

机构信息

School of Pharmaceutical Science and Technology, Health Sciences Platform, Tianjin University, China.

Pharmaceutical and Medicinal Chemistry, Computer-Aided Drug Design, Institute of Pharmacy, Free University Berlin, Germany.

出版信息

FEBS Lett. 2018 Jun;592(11):1837-1846. doi: 10.1002/1873-3468.13072. Epub 2018 May 22.

DOI:10.1002/1873-3468.13072

PMID:29710432

Abstract

Uridine diphosphate-glucuronosyltransferases (UGTs) are the most important phase II enzymes in human drug metabolism. Using permeabilized recombinant fission yeast cells (enzyme bags), we demonstrate that UGT1A5 can catalyze an N-glucuronidation reaction. We characterized two new polymorphic UGT1A5 variants: a common ninefold mutant (UGT1A58) with double-fold activity and a much rarer sixfold mutant (UGT1A59), which has the same activity as the wild-type. Molecular modeling studies indicate that the minor effects of all mutations, except for Gly259Arg, are due to their distance to the substrate binding site. Extensive molecular dynamics simulations revealed that the Gly259Arg mutation stabilizes helix Q through a newly formed hydrogen bonding network, which places the cofactor in a much more favorable geometry in UGT1A5*8 as compared to the wild-type.

摘要

尿苷二磷酸葡萄糖醛酸基转移酶（UGTs）是人体内药物代谢中最重要的 II 相酶。使用通透性重组裂殖酵母细胞（酶袋），我们证明 UGT1A5 可以催化 N-葡萄糖醛酸化反应。我们对两种新的多态性 UGT1A5 变体进行了特征描述：一种常见的九倍突变体（UGT1A58），其活性是野生型的两倍；另一种更为罕见的六倍突变体（UGT1A59），其活性与野生型相同。分子建模研究表明，除 Gly259Arg 外，所有突变的次要影响都归因于它们与底物结合位点的距离。广泛的分子动力学模拟表明，Gly259Arg 突变通过新形成的氢键网络稳定了螺旋 Q，与野生型相比，UGT1A5*8 中的辅因子更有利于形成有利的几何形状。

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UGT1A5 的一种常见多态变体由于共因子结合得到优化而表现出增加的活性。

A common polymorphic variant of UGT1A5 displays increased activity due to optimized cofactor binding.

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