Abstract

The spread of carbapenem-resistant Enterobacteriaceae (CRE) worldwide remains a major threat to public health. Notably, carbapenemase-encoding genes are usually located in plasmids harboring other resistance determinants, and isolates having multiple plasmids are often highly resistant to carbapenems. In this study, we characterized the genetic context of coproduction of KPC-2, VIM-1, and FosA3 via two plasmids in the multidrug-resistant Klebsiella pneumoniae sequence type 11 (ST11) isolate JS187, recovered during an outbreak of KPC-2-producing K. pneumoniae in a Chinese teaching hospital in 2008. Plasmid p187–1, coharboring blaVIM-1 and fosA3, consisted of a pKOX-R1-like backbone and two multidrug resistant (MDR) regions separated by pKHS1-like backbone sequences involving plasmid replication and stability. The MDR region 1 was a chimera composed of the blaVIM-1-bearing In916-like integron and Tn1721-like transposon, and was disrupted by sequential insertion of an IS26-based transposition unit carrying blaCTX-M-3 and a ΔTn3-like transposon bearing blaTEM-1. MDR region 2 was an IS26-array structure with fosA3 and blaSHV-12. Plasmid p187–2 harboring blaKPC-2 was closely related to pKP048. blaKPC-2 in p187–2 was carried by a Tn1721 variant, which differed from the prototype Tn1721-blaKPC-2 transposon observed in pKP048 by disruption of an IS26 at Tn3 and deletion of a 31-kb MDR fragment. Co-existence of the novel VIM-1- and FosA3-encoding MDR plasmid p187–1 and the KPC-2-encoding pKP048-like plasmid p187–2 made K. pneumoniae JS187 highly resistant to carbapenems. Moreover, p187–1 still carried genes conferring resistance to cephalosporins, fosfomycin, chloramphenicol, and quaternary ammonium, posing substantial challenges for the treatment of Enterobacteriaceae infections. Thus, monitoring the prevalence and evolution of these plasmids and/or strains is critical.

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