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Genomic insights into the diversity, virulence and resistance of Klebsiella pneumoniae extensively drug resistant clinical isolates

Amy Huei‐Yi Lee, William F. Porto, Célio Faria-Junior, Simoni Campos Dias, Sérgio Amorim de Alencar, Derek Pickard, Robert E. W. Hancock, Octávio Luiz Franco

2021Microbial Genomics20 citationsDOIOpen Access PDF

Abstract

Klebsiella pneumoniae has been implicated in wide-ranging nosocomial outbreaks, causing severe infections without effective treatments due to antibiotic resistance. Here, we performed genome sequencing of 70 extensively drug resistant clinical isolates, collected from Brasília’s hospitals (Brazil) between 2010 and 2014. The majority of strains (60 out of 70) belonged to a single clonal complex (CC), CC258, which has become distributed worldwide in the last two decades. Of these CC258 strains, 44 strains were classified as sequence type 11 (ST11) and fell into two distinct clades, but no ST258 strains were found. These 70 strains had a pan-genome size of 10 366 genes, with a core-genome size of ~4476 genes found in 95 % of isolates. Analysis of sequences revealed diverse mechanisms of resistance, including production of multidrug efflux pumps, enzymes with the same target function but with reduced or no affinity to the drug, and proteins that protected the drug target or inactivated the drug. β-Lactamase production provided the most notable mechanism associated with K. pneumoniae . Each strain presented two or three different β-lactamase enzymes, including class A (SHV, CTX-M and KPC), class B and class C AmpC enzymes, although no class D β-lactamase was identified. Strains carrying the NDM enzyme involved three different ST types, suggesting that there was no common genetic origin.

Topics & Concepts

Klebsiella pneumoniaeBiologyDrug resistanceVirulenceMicrobiologyMultiple drug resistanceGeneGenomeEffluxAntibiotic resistanceAntibioticsWhole genome sequencingCladeGeneticsEscherichia coliPhylogeneticsAntibiotic Resistance in BacteriaBacterial biofilms and quorum sensingMycobacterium research and diagnosis