Abstract
Plesiomonas shigelloides strain MS-17-188 was isolated from a deceased catfish from East Mississippi and showed resistance to florfenicol, tetracyclines and a sulphonamide. WGS of strain MS-17-188 revealed three plasmids (pPSMS-171881, pPSMS-171882 and pPSMS-171883). To accurately determine the impact of three plasmids found in P. shigelloides strain MS-17-188 on the dissemination of antibiotic resistance genes and to provide insights into the molecular structure of these plasmids. The genetic features of these plasmids in terms of genes associated with antimicrobial resistance (AMR), virulence, transfer, maintenance and replication were identified using bioinformatic tools. Additionally, we investigated the in vitro mobilization and stability of plasmid-mediated resistance. The Comprehensive Antibiotic Resistance Database and Virulence Factors Database were used to detect the AMR genes and virulence genes of P. shigelloides plasmids. Moreover, plasmid mobility was evaluated by a filter-mating assay using strain MS-17-188 as a donor and azide-resistant Escherichia coli J53 as a recipient strain. A stability experiment was conducted to explore the persistence of plasmid-mediated antibiotic resistance in strain MS-17-188 in the absence and presence of selection. pPSMS-171881 harboured multidrug efflux complex (adeF) and two genes responsible for arsenic resistance (arsB and arsC). pPSMS-171882 had a region of 7085 bp encoding type IV secretion system proteins. pPSMS-171883 carried the tetracycline resistance genes tet(A) and tet(R), and a phenicol resistance gene (floR), which were flanked by two transposable elements and mobilization proteins, suggesting that there is a conjugative mechanism by which this plasmid can be mobilized. Results from the stability experiment indicated that pPSMS-171883 is lost over time in the absence of selective pressure. Moreover, pPSMS-171883 is more stable in P. shigelloides at growth temperatures of 30°C and 37°C compared with 40°C and 43°C. After intraperitoneal injection in catfish, P. shigelloides strain MS-17-188 resulted in no mortalities. This is the first study to report plasmid-mediated AMR in Plesiomonas isolated from cultured fish, which needs continued monitoring. This study will provide an understanding of the genetic mechanisms of AMR and virulence of P. shigelloides.
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