Characterization of the global distribution and diversified plasmid reservoirs of the colistin resistance gene mcr-9
Ying Li, Xiaoyi Dai, Jing Zeng, Yan Gao, Zhikun Zhang, Luhua Zhang
Abstract
The emergence and spread of mobilized colistin resistance (mcr) genes have triggered extensive concerns worldwide. Here, we characterized the global distribution of mcr-9, a newly-identified variant of mcr, by assembling the data set of mcr-9-positive isolates from GenBank database and the literature available. Genetic features of all the mcr-9-harboring plasmids were determined by bioinformatic analysis. We showed that mcr-9 is globally distributed in 21 countries across six continents, with a wide dissemination among various species of Enterobacteriaceae strains from human, animal, food and environment. IncHI2-ST1 plasmids were found to be the predominant replicon type carrying mcr-9. Comparative genomics highlighted that IncHI2-type plasmids may also serve as a critical reservoir of mcr-9, from which different types of circulating plasmids acquired the mcr-9. Results revealed that the rcnR-rcnA-pcoE-pcoS-IS903-mcr-9-wbuC structure was consistent in most mcr-9 cassettes, suggesting a relatively unitary model involved in the mobilization of mcr-9. It is most likely that the spread of mcr-9 was mainly attributed to the conjugation and recombination events of mcr-9-carrying plasmids. In summary, our results provide a comprehensive picture of the distribution and genetic environment of mcr-9, and demonstrate the central roles played by IncHI2 plasmids in the worldwide dissemination of mcr-9.