黄嘌呤氧化酶抑制剂：支架多样性与基于结构的药物设计。

Inhibitors of Xanthine Oxidase: Scaffold Diversity and Structure-Based Drug Design.

机构信息

School of Pharmacy and Biomedical Sciences and Curtin Health Innovation Research Institute, Curtin University, GPO Box U1987, Perth, WA, 6845, Australia.

School of Pharmacy, Monash University Malaysia, Jalan Lagoon Selatan, Bandar Sunway, Selangor Darul Ehsan, 47500, Malaysia.

出版信息

ChemMedChem. 2019 Apr 3;14(7):714-743. doi: 10.1002/cmdc.201900034. Epub 2019 Mar 5.

DOI:10.1002/cmdc.201900034

PMID:30740924

Abstract

Xanthine oxidase (XO) is the enzyme responsible for the catabolism of purines and their conversion into uric acid. XO is thus the target for the treatment of hyperuricemia and gout. For more than 50 years the only XO inhibitor drug available on the market was the purine analogue allopurinol. In the last decade there has been a resurgence in the search for new inhibitors of XO, as the activity of XO and hyperuricemia have also been associated with a variety of conditions such as diabetes, hypertension, and other cardiovascular diseases. In recent years the non-purine inhibitor febuxostat was approved in Europe and the USA for the treatment of hyperuricemia. This drug was followed by another XO inhibitor called topiroxostat. This review discusses the molecular structures and activities of the multiple classes of inhibitors that have been developed since the discovery of allopurinol, with a brief review of the molecular interactions between inhibitors and XO active site residues for the most important molecules. The challenges ahead for the discovery of new inhibitors of XO with novel chemical structures are discussed.

摘要

黄嘌呤氧化酶（XO）是负责嘌呤分解代谢及其转化为尿酸的酶。因此，XO 是治疗高尿酸血症和痛风的靶点。50 多年来，市场上唯一可用的 XO 抑制剂药物是嘌呤类似物别嘌醇。在过去的十年中，人们重新开始寻找新的 XO 抑制剂，因为 XO 的活性和高尿酸血症与多种疾病有关，如糖尿病、高血压和其他心血管疾病。近年来，非嘌呤类抑制剂非布索坦在欧洲和美国获得批准，用于治疗高尿酸血症。继该药之后，另一种 XO 抑制剂托匹司他也获得了批准。本文综述了自别嘌醇发现以来开发的多种抑制剂的分子结构和活性，并简要综述了最重要分子的抑制剂与 XO 活性部位残基之间的分子相互作用。讨论了发现具有新型化学结构的新型 XO 抑制剂所面临的挑战。

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黄嘌呤氧化酶抑制剂：支架多样性与基于结构的药物设计。

Inhibitors of Xanthine Oxidase: Scaffold Diversity and Structure-Based Drug Design.

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