High Risk Clone: A Proposal of Criteria Adapted to the One Health Context with Application to Enterotoxigenic <i>Escherichia coli</i> in the Pig Population

• Main Authors: Maud de Lagarde, Ghyslaine Vanier, Julie Arsenault, John Morris Fairbrother
• Format: Article
• Language: English
• Published: MDPI AG 2021-02-01
• Series: Antibiotics
• Subjects: <i>Escherichia coli</i>; ETEC:F4; fluoroquinolones non-susceptibility; antimicrobial resistance; pigs; genomics
• Online Access: https://www.mdpi.com/2079-6382/10/3/244

The definition of a high risk clone for antibiotic resistance dissemination was initially established for human medicine. We propose a revised definition of a high risk clone adapted to the One Health context. Then, we applied our criteria to a cluster of enrofloxacin non susceptible ETEC:F4 isolates which emerged in 2013 in diseased pigs in Quebec. The whole genomes of 183 ETEC:F4 strains isolated in Quebec from 1990 to 2018 were sequenced. The presence of virulence and resistance genes and replicons was examined in 173 isolates. Maximum likelihood phylogenetic trees were constructed based on SNP data and clones were identified using a set of predefined criteria. The strains belonging to the clonal lineage ST100/O149:H10 isolated in Quebec in 2013 or later were compared to ETEC:F4 whole genome sequences available in GenBank. Prior to 2000, ETEC:F4 isolates from pigs in Quebec were mostly ST90 and belonged to several serotypes. After 2000, the isolates were mostly ST100/O149:H10. In this article, we demonstrated the presence of a ETEC:F4 high risk clone. This clone (1) emerged in 2013, (2) is multidrug resistant, (3) has a widespread distribution over North America and was able to persist several months on farms, and (4) possesses specific virulence genes. It is crucial to detect and characterize high risk clones in animal populations to increase our understanding of their emergence and their dissemination.