当AcrAB-TolC功能受损时大肠杆菌喹诺酮耐药性发展过程中AcrEF的上调

Upregulation of AcrEF in Quinolone Resistance Development in Escherichia coli When AcrAB-TolC Function Is Impaired.

作者信息

Zhang Chuan-Zhen, Chang Man-Xia, Yang Lei, Liu Yan-Yan, Chen Pin-Xian, Jiang Hong-Xia

机构信息

College of Veterinary Medicine, Guangdong Provincial Key Laboratory of Veterinary Pharmaceutics, Development and Safety Evaluation, South China Agricultural University (SCAU) , Guangzhou, China .

出版信息

Microb Drug Resist. 2018 Jan/Feb;24(1):18-23. doi: 10.1089/mdr.2016.0207. Epub 2017 May 18.

DOI:10.1089/mdr.2016.0207

PMID:28520511

Abstract

We studied mechanisms of drug resistance development in Escherichia coli strains lacking efflux pump components. E. coli K12 deletion mutants were subjected to increasing concentrations of ciprofloxacin (CIP) to determine the frequency of target gene mutations. We generated a series of mutants that were selected based on their minimum inhibitory concentrations (MICs) to CIP, as well as their corresponding point mutations in target genes. The mutants displayed a number of target modifications and, in particular, gyrA mutations altering codons Ser83Leu, Asp87Gly, and Asp87His as well as a change in parC at 78 (substitution of Gly for Asp). All these mutations were related to drug resistance. When exposed to CIP, mutants lacking efflux pump genes acrA and acrB demonstrated a low level of resistance that was because of point mutations in the target genes. High-level resistance was achieved with a 100- to 500-fold increase in expression of efflux pump genes acrE and acrF that compensated for the loss of AcrA and AcrB, and thus resulted in an obvious increase of CIP MIC. We demonstrate that an intact AcrAB-TolC efflux pump is crucial to the development of bacterial resistance. Its activity is complemented by expression of the alternative AcrEF efflux pump.

摘要

我们研究了缺乏外排泵组件的大肠杆菌菌株中耐药性产生的机制。对大肠杆菌K12缺失突变体施加递增浓度的环丙沙星（CIP），以确定靶基因突变的频率。我们根据它们对CIP的最低抑菌浓度（MIC）以及靶基因中的相应点突变，生成了一系列突变体。这些突变体表现出多种靶标修饰，特别是gyrA基因突变导致密码子Ser83Leu、Asp87Gly和Asp87His的改变，以及parC第78位的变化（Asp被Gly取代）。所有这些突变都与耐药性有关。当暴露于CIP时，缺乏外排泵基因acrA和acrB的突变体表现出低水平的耐药性，这是由于靶基因中的点突变所致。通过外排泵基因acrE和acrF表达增加100至500倍实现了高水平耐药性，这补偿了AcrA和AcrB的缺失，从而导致CIP的MIC明显增加。我们证明完整的AcrAB-TolC外排泵对于细菌耐药性的产生至关重要。其活性由替代的AcrEF外排泵的表达来补充。

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当AcrAB-TolC功能受损时大肠杆菌喹诺酮耐药性发展过程中AcrEF的上调

Upregulation of AcrEF in Quinolone Resistance Development in Escherichia coli When AcrAB-TolC Function Is Impaired.

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