The increased carbapenem resistance among Pseudomonas aeruginosa has become a serious health issue worldwide. We reported an extensively drug-resistant (XDR) P. aeruginosa PA30 isolate which belonged to sequence type ST463 and contained an IncP-2 plasmid (pPA30_1) carrying two genes, namely, blaIMP-45 and blaAFM-1, which encoded the metallo-β-lactamases AFM-1 and IMP-45, respectively. Additionally, the strain had a plasmid (pPA30_2) with two copies of the blaKPC-2 genes embedded. The plasmid pPA30_1 was highly similar to the previously reported plasmid pHS17-127, which has the same genetic architecture. This plasmid contained blaIMP-45, located in a second gene cassette of the integron In786, carried by a Tn1403-derivative transposon acquiring an ISCR27n3-blaAFM-1 structure. Interestingly, the transposon in pPA30_1 acquired an extra ISCR1-qnrVC6 module and formed a novel transposon, which was subsequently annotated as Tn6485f. The blaKPC-2 genes in pPA30_2 underwent duplication due to the inversion of the IS26-blaKPC-2-IS26 element, which resulted in two copies of blaKPC-2. IMPORTANCE The ST463 clone is an emerging high-risk sequence type that is spreading with blaKPC-2-containing plasmids. The core blaKPC-2 genetic platform is ISKpn27-blaKPC-2-ISKpn6 in almost all samples, and the adjacent region beyond the core platform varies by IS26-mediated inversion or duplication events, amplifying the blaKPC-2 gene copies. The ST463 P. aeruginosa strain PA30 in our study contains another two metallo-β-lactamase genes, namely, blaIMP-45 and blaAFM-1, in a novel transposon Tn6485f that is harbored by the IncP-2 megaplasmid. The pPA30_1 carrying blaIMP-45 and blaAFM-1 is highly related to pHS17-127 from the ST369 P. aeruginosa strain, indicating the putative dissemination of the megaplasmid between different clones.
Keywords: IncP-2 plasmid; KPC-2; Pseudomonas aeruginosa; ST463; metallo-β-lactamase.