突变型RNA聚合酶可通过不依赖ppGpp诱导严紧型应答样反应来降低对抗生素的敏感性。

Mutant RNA polymerase can reduce susceptibility to antibiotics via ppGpp-independent induction of a stringent-like response.

作者信息

Brandis Gerrit, Granström Susanna, Leber Anna T, Bartke Katrin, Garoff Linnéa, Cao Sha, Huseby Douglas L, Hughes Diarmaid

机构信息

Department of Medical Biochemistry and Microbiology, Box 582, Biomedical Center, Uppsala University, Sweden.

出版信息

J Antimicrob Chemother. 2021 Feb 11;76(3):606-615. doi: 10.1093/jac/dkaa469.

DOI:10.1093/jac/dkaa469

PMID:33221850

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7879142/

Abstract

BACKGROUND

Mutations in RNA polymerase (RNAP) can reduce susceptibility to ciprofloxacin in Escherichia coli, but the mechanism of transcriptional reprogramming responsible is unknown. Strains carrying ciprofloxacin-resistant (CipR) rpoB mutations have reduced growth fitness and their impact on clinical resistance development is unclear.

OBJECTIVES

To assess the potential for CipRrpoB mutations to contribute to resistance development by estimating the number of distinct alleles. To identify fitness-compensatory mutations that ameliorate the fitness costs of CipRrpoB mutations. To understand how CipRrpoB mutations reprogramme RNAP.

METHODS

E. coli strains carrying five different CipRrpoB alleles were evolved with selection for improved fitness and characterized for acquired mutations, relative fitness and MICCip. The effects of dksA mutations and a ppGpp0 background on growth and susceptibility phenotypes associated with CipRrpoB alleles were determined.

RESULTS

The number of distinct CipRrpoB mutations was estimated to be >100. Mutations in RNAP genes and in dksA can compensate for the fitness cost of CipRrpoB mutations. Deletion of dksA reduced the MICCip for strains carrying CipRrpoB alleles. A ppGpp0 phenotype had no effect on drug susceptibility.

CONCLUSIONS

CipRrpoB mutations induce an ppGpp-independent stringent-like response. Approximately half of the reduction in ciprofloxacin susceptibility is caused by an increased affinity of RNAP to DksA while the other half is independent of DksA. Stringent-like response activating mutations might be the most diverse class of mutations reducing susceptibility to antibiotics.

摘要

背景

RNA聚合酶（RNAP）的突变可降低大肠杆菌对环丙沙星的敏感性，但其导致转录重编程的机制尚不清楚。携带环丙沙星耐药（CipR）rpoB突变的菌株生长适应性降低，其对临床耐药性发展的影响尚不清楚。

目的

通过估计不同等位基因的数量来评估CipR rpoB突变对耐药性发展的潜在贡献。识别可改善CipR rpoB突变适应性代价的适应性补偿突变。了解CipR rpoB突变如何对RNAP进行重编程。

方法

携带五种不同CipR rpoB等位基因的大肠杆菌菌株在选择条件下进化以提高适应性，并对获得的突变、相对适应性和MIC环丙沙星进行表征。确定dksA突变和ppGpp0背景对与CipR rpoB等位基因相关的生长和药敏表型的影响。

结果

估计不同的CipR rpoB突变数量>100。RNAP基因和dksA中的突变可补偿CipR rpoB突变的适应性代价。删除dksA可降低携带CipR rpoB等位基因菌株的MIC环丙沙星。ppGpp0表型对药敏性无影响。

结论

CipR rpoB突变诱导一种不依赖ppGpp的严紧样反应。环丙沙星敏感性降低约一半是由于RNAP对DksA的亲和力增加，而另一半与DksA无关。严紧样反应激活突变可能是降低抗生素敏感性的最多样化的一类突变。

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突变型RNA聚合酶可通过不依赖ppGpp诱导严紧型应答样反应来降低对抗生素的敏感性。

Mutant RNA polymerase can reduce susceptibility to antibiotics via ppGpp-independent induction of a stringent-like response.

作者信息

机构信息

出版信息

BACKGROUND

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

背景

目的

方法

结果

结论

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