Edgar I Campos-Madueno1, Aline I Moser2, Géraldine Jost3, Carola Maffioli4, Thomas Bodmer5, Vincent Perreten6, Andrea Endimiani7. 1. Institute for Infectious Diseases, University of Bern, Bern, Switzerland; Graduate School of Cellular and Biomedical Sciences, University of Bern, Bern, Switzerland. 2. Institute for Infectious Diseases, University of Bern, Bern, Switzerland. 3. Dianalabs, Geneva, Switzerland. 4. MCL Medizinische Laboratorien, Niederwangen, Switzerland. 5. Medical Microbiology, Dr Risch Medical Laboratories, Bern-Liebefeld, Switzerland. 6. Institute of Veterinary Bacteriology, University of Bern, Bern, Switzerland. 7. Institute for Infectious Diseases, University of Bern, Bern, Switzerland. Electronic address: andrea.endimiani@ifik.unibe.
Abstract
BACKGROUND: The spread of carbapenemase-producing Klebsiella pneumoniae (CP-Kp) strains belonging to high-risk sequence types (STs) is a concern. For Switzerland, national data about the molecular features (especially the STs) of CP-Kp of human origin is not available. In veterinary clinics, ST11 and ST307 blaOXA-48-possessing K. pneumoniae strains have been recently reported. METHODS: We analysed a collection of 285 K. pneumoniae genomes (170 were CP-Kp) isolated in Switzerland from human and non-human sources during 2006-2020. Whole-genome sequencing, core genome phylogenies and public databases were used to present a detailed overview regarding carbapenemases, STs and plasmids. RESULTS: The top five STs were (main carbapenemase gene) ST512 (blaKPC-3), ST258 (blaKPC-2) and ST101 (blaOXA-48), consisting of strains of human origin only, and ST11 (blaOXA-48) and ST307 (blaOXA-48) strains isolated from human, animal and environmental sources. However, during 2016-2020, the main STs for CP-Kp were ST11 (17.6%), ST307 and ST101 (both 14.7%), whereas ST258 (5.9%) and ST512 (4.4%) significantly declined. Most carbapenemase genes were carried on plasmids already described. Core genome analysis revealed that ST11 K. pneumoniae of animal and human origin were closely related, whereas those of ST307 were distant. CONCLUSIONS: We described, for the first time, the features of the CP-Kp circulating in Switzerland in human and non-human settings. Our genomic analysis revealed that the emerging high-risk ST11 and ST307 lineages were often isolated from non-human settings. This study provided a baseline for further whole-genome sequencing-based One-Health surveillance of CP-Kp and emphasized the need for metadata to track dissemination routes between the different settings.
BACKGROUND: The spread of carbapenemase-producing Klebsiella pneumoniae (CP-Kp) strains belonging to high-risk sequence types (STs) is a concern. For Switzerland, national data about the molecular features (especially the STs) of CP-Kp of human origin is not available. In veterinary clinics, ST11 and ST307 blaOXA-48-possessing K. pneumoniae strains have been recently reported. METHODS: We analysed a collection of 285 K. pneumoniae genomes (170 were CP-Kp) isolated in Switzerland from human and non-human sources during 2006-2020. Whole-genome sequencing, core genome phylogenies and public databases were used to present a detailed overview regarding carbapenemases, STs and plasmids. RESULTS: The top five STs were (main carbapenemase gene) ST512 (blaKPC-3), ST258 (blaKPC-2) and ST101 (blaOXA-48), consisting of strains of human origin only, and ST11 (blaOXA-48) and ST307 (blaOXA-48) strains isolated from human, animal and environmental sources. However, during 2016-2020, the main STs for CP-Kp were ST11 (17.6%), ST307 and ST101 (both 14.7%), whereas ST258 (5.9%) and ST512 (4.4%) significantly declined. Most carbapenemase genes were carried on plasmids already described. Core genome analysis revealed that ST11 K. pneumoniae of animal and human origin were closely related, whereas those of ST307 were distant. CONCLUSIONS: We described, for the first time, the features of the CP-Kp circulating in Switzerland in human and non-human settings. Our genomic analysis revealed that the emerging high-risk ST11 and ST307 lineages were often isolated from non-human settings. This study provided a baseline for further whole-genome sequencing-based One-Health surveillance of CP-Kp and emphasized the need for metadata to track dissemination routes between the different settings.
Authors: Sara E Boyd; Alison Holmes; Richard Peck; David M Livermore; William Hope Journal: Antimicrob Agents Chemother Date: 2022-07-20 Impact factor: 5.938