Evolution of triclosan resistance modulates bacterial permissiveness to multidrug resistance plasmids and phages

质粒 生物 微生物学 肺炎克雷伯菌 水平基因转移 抗生素耐药性 多重耐药 群体感应 基因 宽容 遗传学 生物膜 细菌 基因组 抗药性 抗生素 大肠杆菌 病毒 病毒复制
作者
Qiue Yang,Xiaodan Ma,Minchun Li,Mengshi Zhao,Lingshuang Zeng,Minzhen He,Hui Deng,Hanpeng Liao,Christopher Rensing,Ville‐Petri Friman,Shungui Zhou,Timothy R. Walsh
出处
期刊:Nature Communications [Nature Portfolio]
卷期号:15 (1): 3654-3654 被引量:54
标识
DOI:10.1038/s41467-024-48006-9
摘要

The horizontal transfer of plasmids has been recognized as one of the key drivers for the worldwide spread of antimicrobial resistance (AMR) across bacterial pathogens. However, knowledge remain limited about the contribution made by environmental stress on the evolution of bacterial AMR by modulating horizontal acquisition of AMR plasmids and other mobile genetic elements. Here we combined experimental evolution, whole genome sequencing, reverse genetic engineering, and transcriptomics to examine if the evolution of chromosomal AMR to triclosan (TCS) disinfectant has correlated effects on modulating bacterial pathogen (Klebsiella pneumoniae) permissiveness to AMR plasmids and phage susceptibility. Herein, we show that TCS exposure increases the evolvability of K. pneumoniae to evolve TCS-resistant mutants (TRMs) by acquiring mutations and altered expression of several genes previously associated with TCS and antibiotic resistance. Notably, nsrR deletion increases conjugation permissiveness of K. pneumoniae to four AMR plasmids, and enhances susceptibility to various Klebsiella-specific phages through the downregulation of several bacterial defense systems and changes in membrane potential with altered reactive oxygen species response. Our findings suggest that unrestricted use of TCS disinfectant imposes a dual impact on bacterial antibiotic resistance by augmenting both chromosomally and horizontally acquired AMR mechanisms.
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