结构洞察异生物和抑制剂与人醛氧化酶的结合。

Structural insights into xenobiotic and inhibitor binding to human aldehyde oxidase.

机构信息

Research Unit on Applied Molecular Biosciences-Rede de Química e Tecnologia (UCIBIO-REQUIMTE), Departamento de Química, Faculdade de Ciências e Tecnologia, Universidade Nova de Lisboa, Caparica, Portugal.

Department of Molecular Enzymology, Institute of Biochemistry and Biology, University of Potsdam, Potsdam, Germany.

出版信息

Nat Chem Biol. 2015 Oct;11(10):779-83. doi: 10.1038/nchembio.1895. Epub 2015 Aug 31.

DOI:10.1038/nchembio.1895

PMID:26322824

Abstract

Aldehyde oxidase (AOX) is a xanthine oxidase (XO)-related enzyme with emerging importance due to its role in the metabolism of drugs and xenobiotics. We report the first crystal structures of human AOX1, substrate free (2.6-Å resolution) and in complex with the substrate phthalazine and the inhibitor thioridazine (2.7-Å resolution). Analysis of the protein active site combined with steady-state kinetic studies highlight the unique features, including binding and substrate orientation at the active site, that characterize human AOX1 as an important drug-metabolizing enzyme. Structural analysis of the complex with the noncompetitive inhibitor thioridazine revealed a new, unexpected and fully occupied inhibitor-binding site that is structurally conserved among mammalian AOXs and XO. The new structural insights into the catalytic and inhibition mechanisms of human AOX that we now report will be of great value for the rational analysis of clinical drug interactions involving inhibition of AOX1 and for the prediction and design of AOX-stable putative drugs.

摘要

醛氧化酶（AOX）是一种黄嘌呤氧化酶（XO）相关的酶，由于其在药物和外源性物质代谢中的作用而变得越来越重要。我们报告了人源 AOX1 的首个晶体结构，分别为无底物（2.6-Å 分辨率）和与底物邻苯二甲嗪以及抑制剂噻氯哒嗪结合（2.7-Å 分辨率）的结构。对蛋白质活性位点的分析结合稳态动力学研究突出了人源 AOX1 的独特特征，包括在活性位点的结合和底物取向，使其成为一种重要的药物代谢酶。与非竞争性抑制剂噻氯哒嗪的复合物的结构分析揭示了一个新的、意想不到的和完全占据的抑制剂结合位点，该位点在哺乳动物 AOX 和 XO 中具有结构保守性。我们现在报告的人源 AOX 的催化和抑制机制的新结构见解对于涉及 AOX1 抑制的临床药物相互作用的合理分析以及对 AOX 稳定的潜在药物的预测和设计将具有重要价值。

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结构洞察异生物和抑制剂与人醛氧化酶的结合。

Structural insights into xenobiotic and inhibitor binding to human aldehyde oxidase.

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