Binding assays enable discovery of Tet(X) inhibitors that combat tetracycline destructase resistance

IF 7.6 1区化学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Chemical Science Pub Date : 2025-05-07 DOI:10.1039/d5sc00964b

Matthew J. Beech, Edmond C. Toma, Helen G. Smith, Maria M. Trush, Jit H. J. Ang, Mei Y. Wong, Chung H. J. Wong, Hafiz S. Ali, Zakia Butt, Viha Goel, Fernanda Duarte, Alistair J. M. Farley, Timothy R. Walsh, Christopher J. Schofield

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Abstract

The Tet(X) flavin-dependent monooxygenases enable tetracycline antibiotic resistance by catalysing inactivating hydroxylation, so preventing inhibition of bacterial ribosomes. Tet(X) resistance is growing rapidly, threatening the efficacy of important last-resort tetracyclines such as tigecycline. Tet(X) inhibitors have potential to protect tetracyclines in combination therapies, but their discovery has been hampered by lack of high-throughput assays. We report the development of an efficient fluorescence polarisation Tet(X) binding assay employing a tetramethylrhodamine-glycyl-minocycline conjugate that enables inhibitor discovery. The assay was applied to tetracycline substrates and reported inhibitors, providing insight into their binding modes. Screening of a bioactive molecule library identified novel Tet(X) inhibitors, including psychoactive phenothiazine derivatives and the 5-HT₄ agonist tegaserod, the activities of which were validated by turnover assays. Crystallographic studies of Tet(X4)-inhibitor complexes reveal two new inhibitor binding modes, importantly providing evidence for active site binding of Tet(X) inhibitors that do not share structural similarity with tetracycline substrates. In some cases, potentiation of tigecycline activity was observed in bacteria expressing Tet(X4). The combined results provide non-tetracycline scaffolds for development of potent Tet(X) inhibitors and highlight the need to evaluate the impact of non-antibiotics on antimicrobial resistance.

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结合试验可以发现对抗四环素破坏酶耐药性的Tet(X)抑制剂

Tet(X)黄素依赖单加氧酶通过催化灭活羟基化作用使四环素耐药，从而防止细菌核糖体的抑制。Tet(X)耐药性迅速增长，威胁到重要的最后手段四环素如替加环素的疗效。Tet(X)抑制剂在联合治疗中具有保护四环素类药物的潜力，但由于缺乏高通量测定，它们的发现一直受到阻碍。我们报告了一种有效的荧光极化Tet(X)结合试验的发展，采用四甲基罗丹明-甘酰基-米诺环素偶联物，可以发现抑制剂。该试验应用于四环素底物和已报道的抑制剂，提供了深入了解其结合模式。生物活性分子文库筛选鉴定出新的Tet(X)抑制剂，包括精神活性吩噻嗪衍生物和5-HT4激动剂tegaserod，其活性通过周转试验验证。Tet(X4)-抑制剂复合物的晶体学研究揭示了两种新的抑制剂结合模式，重要的是为与四环素底物不具有结构相似性的Tet(X)抑制剂的活性位点结合提供了证据。在某些情况下，在表达Tet的细菌中观察到替加环素活性的增强（X4）。综合结果为开发强效Tet(X)抑制剂提供了非四环素支架，并强调了评估非抗生素对抗菌药物耐药性影响的必要性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Chemical Science CHEMISTRY, MULTIDISCIPLINARY-

CiteScore

14.40

自引率

4.80%

发文量

1352

审稿时长

2.1 months

期刊介绍： Chemical Science is a journal that encompasses various disciplines within the chemical sciences. Its scope includes publishing ground-breaking research with significant implications for its respective field, as well as appealing to a wider audience in related areas. To be considered for publication, articles must showcase innovative and original advances in their field of study and be presented in a manner that is understandable to scientists from diverse backgrounds. However, the journal generally does not publish highly specialized research.