Abstract
Objectives The objective of this study was to investigate effects of large CTX-M-15-encoding IncF plasmids on the fitness of their native E. coli ST131 H30Rx hosts in order to understand possible plasmid-host coevolution.
Methods We selected five E. coli ST131 H30Rx strains of diverse origin, each carrying a multireplicon IncF plasmid encoding the gene blaCTX-M-15. The plasmid was eliminated from each isolate by displacement using an incompatible plasmid vector pMDP5_cureEC958. Whole-genome sequencing (WGS) was performed to obtain complete chromosome and plasmid sequences of wild-type isolates and to detect chromosomal mutations in plasmid-free strains. Competition assays were conducted to determine the relative fitness of plasmid-free clones compared to the corresponding wild-type isolates.
Results We were able to successfully eliminate the IncF plasmids from all of the wild-type strains using the curing vector pMDP5_cureEC958. The chromosomes of plasmid-free clones contained zero to six point mutations. Plasmid-free strains of three isolates showed no significant difference in relative fitness compared to the corresponding plasmid-free strains. In the two remaining isolates, the plasmids produced a small but significant fitness cost.
Conclusion We conclude that IncF plasmids produce moderate fitness effects in their E. coli ST131 H30Rx hosts. This fitness compatibility is likely to promote the maintenance of antibiotic resistance in this worrisome E. coli lineage.
Competing Interest Statement
The authors have declared no competing interest.