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Background: Klebsiella pneumoniae causes severe diseases including sepsis, pneumonia
and wound infections and is differentiated into hypervirulent (hvKp) and classic (cKp) pathotypes.
hvKp isolates are characterized clinically by invasive and multiple site infection and phenotypically
in particular through hypermucoviscosity and increased siderophore production, enabled by the
presence of the respective virulence genes, which are partly carried on plasmids. Methods: Here, we
analyzed two K. pneumoniae isolates of a human patient that caused severe multiple site infection.
By applying both genomic and phenotypic experiments and combining basic science with clinical
approaches, we aimed at characterizing the clinical background as well as the two isolates in-depth.
This also included bioinformatics analysis of a chromosomal virulence plasmid integration event.
Results: Our genomic analysis revealed that the two isolates were clonal and belonged to sequence
type 420, which is not only the first description of this K. pneumoniae subtype in Germany but also
suggests belonging to the hvKp pathotype. The latter was supported by the clinical appearance and
our phenotypic findings revealing increased siderophore production and hypermucoviscosity similar
to an archetypical, hypervirulent K. pneumoniae strain. In addition, our in-depth bioinformatics
analysis suggested the insertion of a hypervirulence plasmid in the bacterial chromosome, mediated
by a new IS5 family sub-group IS903 insertion sequence designated ISKpn74. Conclusion: Our study
contributes not only to the understanding of hvKp and the association between hypervirulence and
clinical outcomes but reveals the chromosomal integration of a virulence plasmid, which might lead
to tremendous public health implications.
Discrimination of Streptococcus pneumoniae from other Streptococcus mitis group (SMG) species is still challenging but very important due to their different pathogenic potential. In this study, we aimed to develop a matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS)-based optochin susceptibility test with an objective read-out. Optimal test performance was established and evaluated by testing consecutively collected respiratory isolates. Optochin in different concentrations as a potential breakpoint concentration was added to a standardized inoculum. Droplets of 6 µL with optochin and, as growth control, without optochin were spotted onto a MALDI target. Targets were incubated in a humidity chamber, followed by medium removal and on-target protein extraction with formic acid before adding matrix with an internal standard. Spectra were acquired, and results were interpreted as S. pneumoniae in the case of optochin susceptibility (no growth), or as non-S. pneumoniae in the case of optochin non-susceptibility (growth). Highest test accuracy was achieved after 20 h incubation time (95.7%). Rapid testing after 12 h incubation time (optochin breakpoint 2 µg/mL; correct classification 100%, validity 62.5%) requires improvement by optimization of assay conditions. The feasibility of the MALDI-TOF MS-based optochin susceptibility test was demonstrated in this proof-of-principle study; however, confirmation and further improvements are warranted.
Coagulase-negative staphylococci (CoNS) are common opportunistic pathogens, but also ubiquitous human and animal commensals. Infection-associated CoNS from healthcare environments are typically characterized by pronounced antimicrobial resistance (AMR) including both methicillin- and multidrug-resistant isolates. Less is known about AMR patterns of CoNS colonizing the general population. Here we report on AMR in commensal CoNS recovered from 117 non-hospitalized volunteers in a region of Germany with a high livestock density. Among the 69 individuals colonized with CoNS, 29 had reported contacts to either companion or farm animals. CoNS were selectively cultivated from nasal swabs, followed by species definition by 16S rDNA sequencing and routine antibiotic susceptibility testing. Isolates displaying phenotypic AMR were further tested by PCR for presence of selected AMR genes. A total of 127 CoNS were isolated and Staphylococcus epidermidis (75%) was the most common CoNS species identified. Nine isolates (7%) were methicillin-resistant (MR) and carried the mecA gene, with seven individuals (10%) being colonized with at least one MR-CoNS isolate. While resistance against gentamicin, phenicols and spectinomycin was rare, high resistance rates were found against tetracycline (39%), erythromycin (33%) and fusidic acid (24%). In the majority of isolates, phenotypic resistance could be associated with corresponding AMR gene detection. Multidrug-resistance (MDR) was observed in 23% (29/127) of the isolates, with 33% (23/69) of the individuals being colonized with MDR-CoNS. The combined data suggest that MR- and MDR-CoNS are present in the community, with previous animal contact not significantly influencing the risk of becoming colonized with such isolates.