抗生素应激诱导的 RNase III 和 RNase G 的内切核酸酶活性的调节赋予大肠杆菌对氨基糖苷类抗生素的抗性。

Antibiotic stress-induced modulation of the endoribonucleolytic activity of RNase III and RNase G confers resistance to aminoglycoside antibiotics in Escherichia coli.

机构信息

Department of Life Science, Chung-Ang University, Seoul 156-756, Republic of Korea, Marine Biotechnology Research Division, Korea Institute of Ocean Science and Technology, Ansan 426-744, Republic of Korea, Department of Microbiology, Catholic University of Daegu, School of Medicine, Nam-Gu, Daegu 705-718, Republic of Korea, Department of Chemistry, KAIST, Daejeon 305-701, Republic of Korea, Department of Pharmacy, Chung-Ang University, Seoul 156-756, Republic of Korea and Department of Microbiology, Pusan National University, Busan 609-735, Republic of Korea.

出版信息

Nucleic Acids Res. 2014 Apr;42(7):4669-81. doi: 10.1093/nar/gku093. Epub 2014 Jan 30.

DOI:10.1093/nar/gku093

PMID:24489121

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3985665/

Abstract

Here, we report a resistance mechanism that is induced through the modulation of 16S ribosomal RNA (rRNA) processing on the exposure of Escherichia coli cells to aminoglycoside antibiotics. We observed decreased expression levels of RNase G associated with increased RNase III activity on rng mRNA in a subgroup of E. coli isolates that transiently acquired resistance to low levels of kanamycin or streptomycin. Analyses of 16S rRNA from the aminoglycoside-resistant E. coli cells, in addition to mutagenesis studies, demonstrated that the accumulation of 16S rRNA precursors containing 3-8 extra nucleotides at the 5' terminus, which results from incomplete processing by RNase G, is responsible for the observed aminoglycoside resistance. Chemical protection, mass spectrometry analysis and cell-free translation assays revealed that the ribosomes from rng-deleted E. coli have decreased binding capacity for, and diminished sensitivity to, streptomycin and neomycin, compared with wild-type cells. It was observed that the deletion of rng had similar effects in Salmonella enterica serovar Typhimurium strain SL1344. Our findings suggest that modulation of the endoribonucleolytic activity of RNase III and RNase G constitutes a previously uncharacterized regulatory pathway for adaptive resistance in E. coli and related gram-negative bacteria to aminoglycoside antibiotics.

摘要

在这里，我们报告了一种耐药机制，即在暴露于氨基糖苷类抗生素的情况下，通过调节 16S 核糖体 RNA（rRNA）的加工，诱导大肠杆菌细胞产生这种耐药机制。我们观察到，在一组短暂获得低水平卡那霉素或链霉素耐药性的大肠杆菌分离株中，与 rng mRNA 相关的 RNase G 的表达水平降低，而 RNase III 的活性增加。对氨基糖苷类耐药大肠杆菌细胞中的 16S rRNA 的分析，以及突变研究，表明由于 RNase G 不完全加工，在 5' 端含有 3-8 个额外核苷酸的 16S rRNA 前体的积累，是导致观察到的氨基糖苷类耐药性的原因。化学保护、质谱分析和无细胞翻译分析表明，与野生型细胞相比，rng 缺失的大肠杆菌核糖体对链霉素和新霉素的结合能力降低，敏感性降低。观察到 rng 的缺失对鼠伤寒沙门氏菌 SL1344 菌株也有类似的影响。我们的研究结果表明，调节 RNase III 和 RNase G 的内切核酸酶活性构成了大肠杆菌和相关革兰氏阴性细菌对氨基糖苷类抗生素适应性耐药的一种以前未被描述的调节途径。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a28b/3985665/45ab6ec55ea2/gku093f1p.jpg

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Antibiotic stress-induced modulation of the endoribonucleolytic activity of RNase III and RNase G confers resistance to aminoglycoside antibiotics in Escherichia coli.抗生素应激诱导的 RNase III 和 RNase G 的内切核酸酶活性的调节赋予大肠杆菌对氨基糖苷类抗生素的抗性。

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抗生素应激诱导的 RNase III 和 RNase G 的内切核酸酶活性的调节赋予大肠杆菌对氨基糖苷类抗生素的抗性。

Antibiotic stress-induced modulation of the endoribonucleolytic activity of RNase III and RNase G confers resistance to aminoglycoside antibiotics in Escherichia coli.

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