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Detection and characterization of putative hypervirulent Klebsiella pneumoniae isolates in microbiological diagnostics

Bernd Neumann, Claudia Stürhof, Anca Rath, Bärbel Kieninger, Elias Eger, Justus U. Müller, Alexander von Poblocki, Nadja Gerlitz, Paul Wollschläger, Wulf Schneider‐Brachert, Katharina Schaufler, Kathleen Klaper, Jörg Steinmann

2023Scientific Reports32 citationsDOIOpen Access PDF

Abstract

Hypervirulent Klebsiella pneumoniae strains (hvKp) can cause invasive community-acquired infections in healthy patients of all ages. In this study, the prevalence of putative hvKp in a German tertiary center was investigated and hvKp were characterized by phenotypic and molecular assays. All K. pneumoniae isolates in routine microbiological diagnostics from a single center were screened by string-testing over a period of 6 months. String-test positive (≥ 0.5 mm) isolates were re-evaluated on different media and under various conditions (aerobe, anaerobe). For string-test positive isolates, genes (magA, iutA, rmpA and rmpA2) associated with hypermucoviscosity and hypervirulence were amplified by multiplex PCR. PCR-positive isolates were subjected to whole-genome sequencing and sedimentation and biofilm formation assays. From 1310 screened K. pneumoniae isolates in clinical routine 100 isolates (7.6%) were string test positive. From these, 9% (n = 9) were defined as putative hvKp (string-test+/PCR+). Highest rate of string-test-positive isolates was observed on MacConkey agar under aerobic conditions. Amongst these nine putative hvKp isolates, the international lineage ST23 carrying hvKp-plasmid pKpVP-1 was the most common, but also a rare ST86 with pKpVP-2 was identified. All nine isolates showed hypermucoviscosity and weak biofilm formation. In conclusion, 9% of string-positive, respectively 0.69% of all K. pneumoniae isolates from routine were defined as putative hypervirulent. MacConkey agar was the best medium for hvKp screening.

Topics & Concepts

MacConkey agarKlebsiella pneumoniaeBiologyMultiplex polymerase chain reactionMicrobiologyPlasmidGenePolymerase chain reactionVirologyGeneticsEscherichia coliAntibiotic Resistance in BacteriaEnterobacteriaceae and Cronobacter ResearchPneumonia and Respiratory Infections
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