A One Health approach is critical to addressing the spread of antimicrobial resistance (AMR). A key source of AMR in humans is companion animals, particularly canines. Recent investigation has shown that the canine fecal microbiome is rich in antimicrobial resistant genes (ARGs), yet few studies have studied the resistome of working canines. Our objective was to investigate the resistome of working canines to elucidate associations between various exposures and demographic factors and ARG carriage. We performed resistome and microbiome analyses on previously-generated metagenomic sequence data from 126 Israeli working canines and 147 global canines. We found that the canine microbiome varied significantly with country of origin, and the resistome varied significantly with country of origin, gastrointestinal disease state, canine job type, and microbiome composition. Tetracycline resistant genes were the most dominant across all canines. Extended-spectrum beta lactamase (ESBL) genes were observed in up to 33% of canines. Genes of concern, including potential carbapenemases ( bla OXA-181 and bla OXA-347) and colistin resistance genes ( mcr-10 ) were infrequently observed in Israeli and Indian dogs, respectively. The Inc family of plasmids, typically associated with ESBL genes, were frequently detected. Altogether our research suggests that canines, including working dogs, are a potential source of ARGs and plasmids which carry ARGs. Importantly, the abundance and identity of these ARGs is associated with various potentially modifiable factors such as microbiome composition. Future work is necessary to understand the risk and transmission dynamics of ARGs between humans and their companion canines.
Craddock et al. (Sun,) studied this question.