Nature Communications (Aug 2023)

Genomic dissection of endemic carbapenem resistance reveals metallo-beta-lactamase dissemination through clonal, plasmid and integron transfer

  • Nenad Macesic,
  • Jane Hawkey,
  • Ben Vezina,
  • Jessica A. Wisniewski,
  • Hugh Cottingham,
  • Luke V. Blakeway,
  • Taylor Harshegyi,
  • Katherine Pragastis,
  • Gnei Zweena Badoordeen,
  • Amanda Dennison,
  • Denis W. Spelman,
  • Adam W. J. Jenney,
  • Anton Y. Peleg

DOI
https://doi.org/10.1038/s41467-023-39915-2
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 12

Abstract

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Abstract Infections caused by metallo-beta-lactamase-producing organisms (MBLs) are a global health threat. Our understanding of transmission dynamics and how MBLs establish endemicity remains limited. We analysed two decades of bla IMP-4 evolution in a hospital using sequence data from 270 clinical and environmental isolates (including 169 completed genomes) and identified the bla IMP-4 gene across 7 Gram-negative genera, 68 bacterial strains and 7 distinct plasmid types. We showed how an initial multi-species outbreak of conserved IncC plasmids (95 genomes across 37 strains) allowed endemicity to be established through the ability of bla IMP-4 to disseminate in successful strain-genetic setting pairs we termed propagators, in particular Serratia marcescens and Enterobacter hormaechei. From this reservoir, bla IMP-4 persisted through diversification of genetic settings that resulted from transfer of bla IMP-4 plasmids between bacterial hosts and of the integron carrying bla IMP-4 between plasmids. Our findings provide a framework for understanding endemicity and spread of MBLs and may have broader applicability to other carbapenemase-producing organisms.