埃斯硒啉抑制结核分枝杆菌抗原 85 的机制。

Mechanism of inhibition of Mycobacterium tuberculosis antigen 85 by ebselen.

机构信息

Department of Chemistry, University of Toledo, Toledo, Ohio 43606-3390, USA.

出版信息

Nat Commun. 2013;4:2748. doi: 10.1038/ncomms3748.

DOI:10.1038/ncomms3748

PMID:24193546

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4049535/

Abstract

The increasing prevalence of drug-resistant tuberculosis highlights the need for identifying new antitubercular drugs that can treat these infections. The antigen 85 (Ag85) complex has emerged as an intriguing mycobacterial drug target due to its central role in synthesizing major components of the inner and outer leaflets of the mycobacterial outer membrane. Here we identify ebselen (EBS) as a potent inhibitor of the Mycobacterium tuberculosis Ag85 complex. Mass spectrometry data show that EBS binds covalently to a cysteine residue (C209) located near the Ag85C active site. The crystal structure of Ag85C in the presence of EBS shows that C209 modification restructures the active site, thereby disrupting the hydrogen-bonded network within the active site that is essential for enzymatic activity. C209 mutations display marked decreases in enzymatic activity. These data suggest that compounds using this mechanism of action will strongly inhibit the Ag85 complex and minimize the selection of drug resistance.

摘要

耐药结核病的发病率不断上升，凸显了寻找能够治疗这些感染的新型抗结核药物的必要性。抗原 85（Ag85）复合物因其在合成分枝杆菌外膜内外叶主要成分中的核心作用，已成为一种引人注目的分枝杆菌药物靶点。在这里，我们确定依布硒啉（EBS）是结核分枝杆菌 Ag85 复合物的有效抑制剂。质谱数据显示，EBS 与位于 Ag85C 活性位点附近的半胱氨酸残基（C209）发生共价结合。存在 EBS 时的 Ag85C 晶体结构表明，C209 修饰会重塑活性位点，从而破坏活性位点内对酶活性至关重要的氢键网络。C209 突变导致酶活性显著降低。这些数据表明，使用这种作用机制的化合物将强烈抑制 Ag85 复合物，并最大限度地减少耐药性的选择。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/de10/4049535/e96995cc22f7/nihms531247f1.jpg

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埃斯硒啉抑制结核分枝杆菌抗原 85 的机制。

Mechanism of inhibition of Mycobacterium tuberculosis antigen 85 by ebselen.

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