DinB (DNA polymerase IV), ImuBC and RpoS contribute to the generation of ciprofloxacin-resistance mutations in Pseudomonas aeruginosa

IF 1.5 4区 医学 Q4 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Declan Fahey , James O’Brien , Joanne Pagnon , Simone Page , Richard Wilson , Nic Slamen , Louise Roddam , Mark Ambrose
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引用次数: 0

Abstract

We investigated the role(s) of the damage-inducible SOS response dinB and imuBC gene products in the generation of ciprofloxacin-resistance mutations in the important human opportunistic bacterial pathogen, Pseudomonas aeruginosa. We found that the overall numbers of ciprofloxacin resistant (CipR) mutants able to be recovered under conditions of selection were significantly reduced when the bacterial cells concerned carried a defective dinB gene, but could be elevated to levels approaching wild-type when these cells were supplied with the dinB gene on a plasmid vector; in turn, firmly establishing a role for the dinB gene product, error-prone DNA polymerase IV, in the generation of CipR mutations in P. aeruginosa. Further, we report that products of the SOS-regulated imuABC gene cassette of this organism, ImuB and the error-prone ImuC DNA polymerase, are also involved in generating CipR mutations in this organism, since the yields of CipR mutations were substantially decreased in imuB- or imuC-defective cells compared to wild-type. Intriguingly, we found that the mutability of a dinB-defective strain could not be rescued by overexpression of the imuBC genes. And similarly, overexpression of the dinB gene either only modestly or else failed to restore CipR mutations in imuB- or imuC-defective cells, respectively. Combined, these results indicated that the products of the dinB and imuBC genes were acting in the same pathway leading to the generation of CipR mutations in P. aeruginosa. In addition, we provide evidence indicating that the general stress response sigma factor σs, RpoS, is required for mutagenesis in this organism and is in part at least modulating the dinB (DNA polymerase IV)-dependent mutational process. Altogether, these data provide further insight into the complexity and multifaceted control of the mutational mechanism(s) contributing to the generation of ciprofloxacin-resistance mutations in P. aeruginosa.

DinB(DNA聚合酶IV)、ImuBC和RpoS有助于铜绿假单胞菌产生环丙沙星耐药性突变
我们研究了损伤诱导型SOS反应dinB和imuBC基因产物在重要的人类机会性细菌病原体铜绿假单胞菌产生环丙沙星耐药性突变中的作用。我们发现,当相关细菌细胞携带有缺陷的dinB基因时,能够在选择条件下回收的耐环丙沙星(CipR)突变体的总数显著减少,但当在质粒载体上向这些细胞提供dinB基因后,可以提高到接近野生型的水平;反过来,坚定地确立了dinB基因产物,即易出错的DNA聚合酶IV,在铜绿假单胞菌中产生CipR突变中的作用。此外,我们报道了该生物体的SOS调节的imuABC基因盒的产物ImuB和易出错的ImuC DNA聚合酶也参与了该生物体中产生CipR突变,因为与野生型相比,在ImuB-或ImuC缺陷细胞中CipR突变的产量显著降低。有趣的是,我们发现dinB缺陷菌株的突变不能通过过度表达imuBC基因来挽救。同样,dinB基因的过度表达要么只是适度地,要么分别未能恢复imuB或imuC缺陷细胞中的CipR突变。综合起来,这些结果表明,dinB和imuBC基因的产物在同一途径中起作用,导致铜绿假单胞菌产生CipR突变。此外,我们提供的证据表明,一般应激反应西格玛因子σs,RpoS,是该生物体突变所必需的,并且至少在一定程度上调节了dinB(DNA聚合酶IV)依赖性突变过程。总之,这些数据进一步深入了解了导致铜绿假单胞菌产生环丙沙星耐药性突变的突变机制的复杂性和多方面控制。
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来源期刊
CiteScore
4.90
自引率
0.00%
发文量
24
审稿时长
51 days
期刊介绍: Mutation Research (MR) provides a platform for publishing all aspects of DNA mutations and epimutations, from basic evolutionary aspects to translational applications in genetic and epigenetic diagnostics and therapy. Mutations are defined as all possible alterations in DNA sequence and sequence organization, from point mutations to genome structural variation, chromosomal aberrations and aneuploidy. Epimutations are defined as alterations in the epigenome, i.e., changes in DNA methylation, histone modification and small regulatory RNAs. MR publishes articles in the following areas: Of special interest are basic mechanisms through which DNA damage and mutations impact development and differentiation, stem cell biology and cell fate in general, including various forms of cell death and cellular senescence. The study of genome instability in human molecular epidemiology and in relation to complex phenotypes, such as human disease, is considered a growing area of importance. Mechanisms of (epi)mutation induction, for example, during DNA repair, replication or recombination; novel methods of (epi)mutation detection, with a focus on ultra-high-throughput sequencing. Landscape of somatic mutations and epimutations in cancer and aging. Role of de novo mutations in human disease and aging; mutations in population genomics. Interactions between mutations and epimutations. The role of epimutations in chromatin structure and function. Mitochondrial DNA mutations and their consequences in terms of human disease and aging. Novel ways to generate mutations and epimutations in cell lines and animal models.
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