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Copper Ions Facilitate the Conjugative Transfer of SXT/R391 Integrative and Conjugative Element Across Bacterial Genera

Zhou Song, Lei Zuo, Cui Li, Yiming Tian, Hongning Wang

2021Frontiers in Microbiology34 citationsDOIOpen Access PDF

Abstract

Copper can persist stably in the environment for prolonged periods. Except for inducing antibiotic resistance in bacteria, copper ions (Cu 2+ ) can facilitate the horizontal transfer of plasmid DNA. However, whether and how Cu 2+ can accelerate the conjugative transfer of SXT/R391 integrative and conjugative element (ICE) is still largely unknown. In this study, Proteus mirabilis ChSC1905, harboring an SXT/R391 ICE that carried 21 antibiotic resistance genes (ARGs), was used as a donor, and Escherichia coli EC600 was used as a recipient. Cu 2+ , at subinhibitory and environmentally relevant concentrations (1–10 μmol/L), significantly accelerated the conjugative transfer of SXT/R391 ICE across bacterial genera (from P. mirabilis to E. coli ) ( p < 0.05). The combined analyses of phenotypic tests and genome-wide sequencing indicated that reactive oxygen species (ROS) production and cell membrane permeability were critical in the enhanced conjugative transfer of SXT/R391 ICE. Furthermore, the expression of genes related to cell adhesion and ATP synthesis was also significantly upregulated on exposure to Cu 2+ at a concentration of 5 μmol/L. This study clarified the potential mechanisms of Cu 2+ to promote the conjugative transfer of SXT/R391 ICE, revealing the potential risk imposed by Cu 2+ on the horizontal transfer of SXT/R391 ICE-mediated ARGs.

Topics & Concepts

Escherichia coliProteus mirabilisBacteriaPlasmidMicrobiologyBiologyHorizontal gene transferGeneChemistryGeneticsGenomePharmaceutical and Antibiotic Environmental ImpactsAntibiotic Resistance in BacteriaBacterial biofilms and quorum sensing
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