Objectives: To describe the population structure, molecular epidemiology and genetic context of blaKPC-2-bearing Klebsiella pneumoniae.
Methods: Isolates (n = 157) were retrospective, phenotypically carbapenem-resistant blaKPC-positive K. pneumoniae, collected from public hospitals. WGS was performed on the Illumina platform. Phylogenomic analysis, screening of resistance and virulence genes, and comparison of the genetic environment of blaKPC were carried out.
Results: Based on core-tree phylogeny, 67.5% of the isolates were K. pneumoniae and the remainder comprised Klebsiella quasipneumoniae. No Klebsiella variicola strains were observed. Only a single K. pneumoniae carbapenemase (KPC) variant type, blaKPC-2, was seen. MLSTs were diverse and did not comprise the 'traditional' KPC clonal group (CG) 258. blaKPC-2 was associated with a non-Tn4401 element (NTE) in >99% of genomes. Screening for four key virulence loci: yersiniabactin (ybt), aerobactin (iuc), salmochelin (iro) and colibactin (clb) as well as ICEKp (virulence-associated integrative conjugative element of K. pneumoniae), revealed the lack of virulence factors and ICEKp within K. quasipneumoniae. Amongst the K. pneumoniae, there were 32 ybt+ isolates (32/106, 30.2%) and, of these, 8 isolates were also clb+ (7.5%). K. pneumoniae serotypes K1 and K2, the majority of capsular serotype seen in patients with invasive liver abscess syndrome, were detected at 4.5% (7/157).
Conclusions: Results suggest that dissemination of blaKPC-2 is driven by NTEKPC in non-ST258 isolates. The detection of blaKPC-2K. pneumoniae serotypes K1/K2 carrying virulence factors, albeit in low numbers, reflects the worrisome convergence of carbapenem resistance and hypervirulence in K. pneumoniae.
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