SOS 反应诱导大肠杆菌对氟喹诺酮类药物的持续耐药性。

SOS response induces persistence to fluoroquinolones in Escherichia coli.

机构信息

Antimicrobial Discovery Center, Department of Biology, Northeastern University, Boston, Massachusetts, USA.

出版信息

PLoS Genet. 2009 Dec;5(12):e1000760. doi: 10.1371/journal.pgen.1000760. Epub 2009 Dec 11.

DOI:10.1371/journal.pgen.1000760

PMID:20011100

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2780357/

Abstract

Bacteria can survive antibiotic treatment without acquiring heritable antibiotic resistance. We investigated persistence to the fluoroquinolone ciprofloxacin in Escherichia coli. Our data show that a majority of persisters to ciprofloxacin were formed upon exposure to the antibiotic, in a manner dependent on the SOS gene network. These findings reveal an active and inducible mechanism of persister formation mediated by the SOS response, challenging the prevailing view that persisters are pre-existing and formed purely by stochastic means. SOS-induced persistence is a novel mechanism by which cells can counteract DNA damage and promote survival to fluoroquinolones. This unique survival mechanism may be an important factor influencing the outcome of antibiotic therapy in vivo.

摘要

细菌在不获得可遗传抗生素耐药性的情况下也能存活下来。我们研究了大肠杆菌对氟喹诺酮类环丙沙星的持续存在性。我们的数据表明，大多数对环丙沙星的持续存在者是在暴露于抗生素的情况下形成的，这种方式依赖于 SOS 基因网络。这些发现揭示了一种由 SOS 反应介导的、主动的、可诱导的持久形成机制，这挑战了持久存在者是预先存在的，并且纯粹是通过随机手段形成的主流观点。SOS 诱导的持久性是细胞对抗 DNA 损伤并促进对氟喹诺酮类药物存活的一种新机制。这种独特的生存机制可能是影响体内抗生素治疗结果的一个重要因素。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/68d9/2780357/d2cd80c1a2b2/pgen.1000760.g001.jpg

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SOS 反应诱导大肠杆菌对氟喹诺酮类药物的持续耐药性。

SOS response induces persistence to fluoroquinolones in Escherichia coli.

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