| Literature DB >> 30038308 |
Patrick Munk1, Berith Elkær Knudsen1, Oksana Lukjancenko1, Ana Sofia Ribeiro Duarte1, Liese Van Gompel2, Roosmarijn E C Luiken2, Lidwien A M Smit2, Heike Schmitt2, Alejandro Dorado Garcia2, Rasmus Borup Hansen3, Thomas Nordahl Petersen1, Alex Bossers2,4, Etienne Ruppé5, Ole Lund1, Tine Hald1, Sünje Johanna Pamp1, Håkan Vigre1, Dick Heederik2, Jaap A Wagenaar4,6, Dik Mevius4,6, Frank M Aarestrup7.
Abstract
Antimicrobial resistance (AMR) in bacteria and associated human morbidity and mortality is increasing. The use of antimicrobials in livestock selects for AMR that can subsequently be transferred to humans. This flow of AMR between reservoirs demands surveillance in livestock and in humans. We quantified and characterized the acquired resistance gene pools (resistomes) of 181 pig and 178 poultry farms from nine European countries, sequencing more than 5,000 Gb of DNA using shotgun metagenomics. We quantified acquired AMR using the ResFinder database and a second database constructed for this study, consisting of AMR genes identified through screening environmental DNA. The pig and poultry resistomes were very different in abundance and composition. There was a significant country effect on the resistomes, more so in pigs than in poultry. We found higher AMR loads in pigs, whereas poultry resistomes were more diverse. We detected several recently described, critical AMR genes, including mcr-1 and optrA, the abundance of which differed both between host species and between countries. We found that the total acquired AMR level was associated with the overall country-specific antimicrobial usage in livestock and that countries with comparable usage patterns had similar resistomes. However, functionally determined AMR genes were not associated with total drug use.Entities:
Mesh:
Substances:
Year: 2018 PMID: 30038308 DOI: 10.1038/s41564-018-0192-9
Source DB: PubMed Journal: Nat Microbiol ISSN: 2058-5276 Impact factor: 17.745