Wyres, KL, Wick, RR, Judd, LM, Froumine, R, Tokolyi, A, Gorrie, CL, Lam, MM, Duchêne, S, Jenney, A and Holt, K. 2019. Distinct evolutionary dynamics of horizontal gene transfer in drug resistant and virulent clones of Klebsiella pneumoniae. [Online]. PLoS Genetics. Available from: https://doi.org/10.1371/journal.pgen.1008114
Wyres, KL, Wick, RR, Judd, LM, Froumine, R, Tokolyi, A, Gorrie, CL, Lam, MM, Duchêne, S, Jenney, A and Holt, K. Distinct evolutionary dynamics of horizontal gene transfer in drug resistant and virulent clones of Klebsiella pneumoniae [Internet]. PLoS Genetics; 2019. Available from: https://doi.org/10.1371/journal.pgen.1008114
Wyres, KL, Wick, RR, Judd, LM, Froumine, R, Tokolyi, A, Gorrie, CL, Lam, MM, Duchêne, S, Jenney, A and Holt, K (2019). Distinct evolutionary dynamics of horizontal gene transfer in drug resistant and virulent clones of Klebsiella pneumoniae. [Data Collection]. PLoS Genetics. https://doi.org/10.1371/journal.pgen.1008114
Description
Klebsiella pneumoniae has emerged as an important cause of two distinct public health threats: multi-drug resistant (MDR) healthcare-associated infections and drug susceptible community-acquired invasive infections. These pathotypes are generally associated with two distinct subsets of K. pneumoniae lineages or ‘clones’ that are distinguished by the presence of acquired resistance genes and several key virulence loci. Genomic evolutionary analyses of the most notorious MDR and invasive community-associated (‘hypervirulent’) clones indicate differences in terms of chromosomal recombination dynamics and capsule polysaccharide diversity, but it remains unclear if these differences represent generalised trends. Here we leverage a collection of >2200 K. pneumoniae genomes to identify 28 common clones (n ≥ 10 genomes each), and perform the first genomic evolutionary comparison. Eight MDR and 6 hypervirulent clones were identified on the basis of acquired resistance and virulence gene prevalence. Chromosomal recombination, surface polysaccharide locus diversity, pan-genome, plasmid and phage dynamics were characterised and compared. The data showed that MDR clones were highly diverse, with frequent chromosomal recombination generating extensive surface polysaccharide locus diversity. Additional pan-genome diversity was driven by frequent acquisition/loss of both plasmids and phage. In contrast, chromosomal recombination was rare in the hypervirulent clones, which also showed a significant reduction in pan-genome diversity, largely driven by a reduction in plasmid diversity. Hence the data indicate that hypervirulent clones may be subject to some sort of constraint for horizontal gene transfer that does not apply to the MDR clones. Our findings are relevant for understanding the risk of emergence of individual K. pneumoniae strains carrying both virulence and acquired resistance genes, which have been increasingly reported and cause highly virulent infections that are extremely difficult to treat. Specifically, our data indicate that MDR clones pose the greatest risk, because they are more likely to acquire virulence genes than hypervirulent clones are to acquire resistance genes.
Data capture method | Experiment |
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Date (Date published in a 3rd party system) | 15 April 2019 |
Language(s) of written materials | English |
Data Creators | Wyres, KL, Wick, RR, Judd, LM, Froumine, R, Tokolyi, A, Gorrie, CL, Lam, MM, Duchêne, S, Jenney, A and Holt, K |
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LSHTM Faculty/Department | Faculty of Infectious and Tropical Diseases |
Participating Institutions | London School of Hygiene & Tropical Medicine |
Funders |
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Date Deposited | 18 Jul 2019 10:24 |
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Last Modified | 08 Jul 2021 12:50 |
Publisher | PLoS Genetics |