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pmrB 基因突变是尿路致病性大肠埃希菌对黏菌素耐药性的主要染色体编码机制。

Modifications in the pmrB gene are the primary mechanism for the development of chromosomally encoded resistance to polymyxins in uropathogenic Escherichia coli.

机构信息

School of Chemistry & Molecular Biosciences, The University of Queensland, Brisbane, Queensland, Australia.

Australian Infectious Diseases Research Centre, The University of Queensland, Brisbane, Queensland, Australia.

出版信息

J Antimicrob Chemother. 2017 Oct 1;72(10):2729-2736. doi: 10.1093/jac/dkx204.

DOI:10.1093/jac/dkx204

PMID:29091192

Abstract

OBJECTIVES

Polymyxins remain one of the last-resort drugs to treat infections caused by MDR Gram-negative pathogens. Here, we determined the mechanisms by which chromosomally encoded resistance to colistin and polymyxin B can arise in the MDR uropathogenic Escherichia coli ST131 reference strain EC958.

METHODS

Two complementary approaches, saturated transposon mutagenesis and spontaneous mutation induction with high concentrations of colistin and polymyxin B, were employed to select for mutations associated with resistance to polymyxins. Mutants were identified using transposon-directed insertion-site sequencing or Illumina WGS. A resistance phenotype was confirmed by MIC and further investigated using RT-PCR. Competitive growth assays were used to measure fitness cost.

RESULTS

A transposon insertion at nucleotide 41 of the pmrB gene (EC958pmrB41-Tn5) enhanced its transcript level, resulting in a 64- and 32-fold increased MIC of colistin and polymyxin B, respectively. Three spontaneous mutations, also located within the pmrB gene, conferred resistance to both colistin and polymyxin B with a corresponding increase in transcription of the pmrCAB genes. All three mutations incurred a fitness cost in the absence of colistin and polymyxin B.

CONCLUSIONS

This study identified the pmrB gene as the main chromosomal target for induction of colistin and polymyxin B resistance in E. coli.

摘要

目的

多黏菌素仍然是治疗多重耐药革兰氏阴性病原体感染的最后手段之一。在这里，我们确定了 MDR 泌尿道致病性大肠杆菌 ST131 参考菌株 EC958 中，对黏菌素和多黏菌素 B 的染色体编码耐药性产生的机制。

方法

采用饱和转座子诱变和高浓度黏菌素和多黏菌素 B 自发突变诱导两种互补方法，筛选与多黏菌素耐药相关的突变。通过转座子定向插入序列测序或 Illumina WGS 鉴定突变体。通过 MIC 确认耐药表型，并进一步通过 RT-PCR 进行研究。采用竞争生长试验测定适应性成本。

结果

pmrB 基因第 41 个核苷酸处的转座子插入（EC958pmrB41-Tn5）提高了其转录水平，导致黏菌素和多黏菌素 B 的 MIC 分别增加了 64 倍和 32 倍。三个位于 pmrB 基因内的自发突变也赋予了对黏菌素和多黏菌素 B 的耐药性，相应地增加了 pmrCAB 基因的转录。所有三种突变在没有黏菌素和多黏菌素 B 的情况下都有适应性成本。

结论

本研究确定了 pmrB 基因是大肠杆菌中诱导黏菌素和多黏菌素 B 耐药的主要染色体靶标。

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pmrB 基因突变是尿路致病性大肠埃希菌对黏菌素耐药性的主要染色体编码机制。

Modifications in the pmrB gene are the primary mechanism for the development of chromosomally encoded resistance to polymyxins in uropathogenic Escherichia coli.

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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