α-亚烷基δ-内酯可抑制CV026菌株中的群体感应表型，并显示出与CviR受体的相互作用。

α-Alkylidene δ-lactones inhibit quorum sensing phenotypes in strain CV026 showing interaction with the CviR receptor.

作者信息

Favero Fernanda, Tolentino Terezinha Alves, Fernandes Vinicius, Treptow Werner, Pereira Alex Leite, Lira Machado Angelo Henrique

机构信息

Instituto de Química, Universidade de Brasília, Campus Universitário Darcy Ribeiro Asa Norte Brasília DF 70910-900 Brazil

Campus of Ceilândia, University of Brasília, Centro Metropolitano Conjunto A, Ceilândia Sul Brasília DF 72220-275 Brazil

出版信息

RSC Adv. 2023 Jun 15;13(26):18045-18057. doi: 10.1039/d3ra01975f. eCollection 2023 Jun 9.

DOI:10.1039/d3ra01975f

PMID:37323447

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10267776/

Abstract

Disruption of bacterial quorum sensing (QS) is presented as a promising strategy to overcome clinically relevant and phytopathogenic bacteria. This work presents α-alkylidene δ-lactones as new chemical scaffolds that inhibit the biosynthesis of violacein in the biosensor strain CV026. Three molecules displayed higher than 50% violacein reduction when tested at concentrations lower than 625 µM. The most active α-alkylidene δ-lactone inhibited the hydrolysis of chitin concomitantly with the inhibition of violacein production in CV026, suggesting the disruption of its QS machinery. Further, RT-qPCR and competition experiments showed this molecule to be a transcriptional inhibitor of the QS-regulated operon . Docking calculations suggested a good correlation between binding affinity energies and inhibition effects, with all molecules positioned within the CviR autoinducer-binding domain (AIBD). The most active lactone yielded the best binding affinity energy, most probably due to its unprecedented binding with the AIBD. Our results show α-alkylidene δ-lactones as promising chemical scaffolds for the development of new QS inhibitors affecting LuxR/LuxI-systems.

摘要

破坏细菌群体感应（QS）是一种很有前景的策略，可用于对抗临床相关细菌和植物病原菌。这项研究提出α-亚烷基δ-内酯作为新型化学支架，能够抑制生物传感器菌株CV026中紫菌素的生物合成。当在低于625µM的浓度下进行测试时，三种分子使紫菌素减少量高于50%。活性最高的α-亚烷基δ-内酯在抑制CV026中紫菌素产生的同时，还抑制了几丁质的水解，这表明其群体感应机制受到了破坏。此外，逆转录定量聚合酶链反应（RT-qPCR）和竞争实验表明，该分子是群体感应调节操纵子的转录抑制剂。对接计算表明，结合亲和力能量与抑制效果之间具有良好的相关性，所有分子都位于CviR自诱导物结合结构域（AIBD）内。活性最高的内酯产生了最佳的结合亲和力能量，这很可能是由于它与AIBD形成了前所未有的结合。我们的研究结果表明，α-亚烷基δ-内酯是开发影响LuxR/LuxI系统的新型群体感应抑制剂的有前景的化学支架。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/481f/10267776/41ab8a277e80/d3ra01975f-f1.jpg

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α-亚烷基δ-内酯可抑制CV026菌株中的群体感应表型，并显示出与CviR受体的相互作用。

α-Alkylidene δ-lactones inhibit quorum sensing phenotypes in strain CV026 showing interaction with the CviR receptor.

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