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2
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Chembiochem. 2014 Jan 3;15(1):68-79. doi: 10.1002/cbic.201300622. Epub 2013 Dec 9.
3
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Clin Infect Dis. 2013 Jun;56(12):1685-94. doi: 10.1093/cid/cit152. Epub 2013 Apr 17.
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DNA靶向作用作为合成双吲哚类抗生素抗菌活性潜在的作用机制

DNA Targeting as a Likely Mechanism Underlying the Antibacterial Activity of Synthetic Bis-Indole Antibiotics.

作者信息

Opperman Timothy J, Kwasny Steven M, Li Jessica Bo, Lewis Mark A, Aiello Daniel, Williams John D, Peet Norton P, Moir Donald T, Bowlin Terry L, Long Eric C

机构信息

Microbiotix, Inc., Worcester, Massachusetts, USA

Microbiotix, Inc., Worcester, Massachusetts, USA.

出版信息

Antimicrob Agents Chemother. 2016 Nov 21;60(12):7067-7076. doi: 10.1128/AAC.00309-16. Print 2016 Dec.

DOI:10.1128/AAC.00309-16
PMID:27620482
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5118985/
Abstract

We previously reported the synthesis and biological activity of a series of cationic bis-indoles with potent, broad-spectrum antibacterial properties. Here, we describe mechanism of action studies to test the hypothesis that these compounds bind to DNA and that this target plays an important role in their antibacterial outcome. The results reported here indicate that the bis-indoles bind selectively to DNA at A/T-rich sites, which is correlated with the inhibition of DNA and RNA synthesis in representative Gram-positive () and Gram-negative () organisms. Further, exposure of and to representative bis-indoles resulted in induction of the DNA damage-inducible SOS response. In addition, the bis-indoles were found to be potent inhibitors of cell wall biosynthesis; however, they do not induce the cell wall stress stimulon in , suggesting that this pathway is inhibited by an indirect mechanism. In light of these findings, the most likely basis for the observed activities of these compounds is their ability to bind to the minor groove of DNA, resulting in the inhibition of DNA and RNA synthesis and other secondary effects.

摘要

我们之前报道了一系列具有强效广谱抗菌特性的阳离子双吲哚的合成及生物活性。在此,我们描述了作用机制研究,以检验这些化合物与DNA结合且该靶点在其抗菌效果中起重要作用这一假说。此处报道的结果表明,双吲哚在富含A/T的位点选择性地与DNA结合,这与代表性革兰氏阳性()和革兰氏阴性()生物体中DNA和RNA合成的抑制相关。此外,将和暴露于代表性双吲哚会导致DNA损伤诱导的SOS反应。另外,发现双吲哚是细胞壁生物合成的强效抑制剂;然而,它们不会在中诱导细胞壁应激刺激因子,这表明该途径是通过间接机制被抑制的。鉴于这些发现,这些化合物所观察到的活性最可能的基础是它们与DNA小沟结合的能力,从而导致DNA和RNA合成的抑制以及其他次要效应。