Abstract
Salmonella Panama is a clinically relevant serovar isolated from food sources, particularly poultry and swine, being also reported in human gastrointestinal and extraintestinal disease globally. The emergence of broad-spectrum cephalosporin-resistant Salmonella has been considered a One Health matter that demands continuous microbiologic and genomic surveillance for a comprehensive understanding and mitigation actions. During a local surveillance study conducted to monitoring WHO priority Salmonella spp. in the Brazilian poultry food chain, a ceftriaxone-resistant Salmonella strain (PN2) exhibiting a positive extended-spectrum beta-lactamase (ESBL) phenotype was recovered from a chicken sample, in a slaughterhouse under federal inspection. Clinically relevant genomic data confirmed Salmonella Panama sequence type (ST) 48 carrying the bla (CTX-M-8) ESBL gene into the broad-host range IncM1conjugative plasmid, and displaying point mutations in the quinolone determining resistance region (QRDR), related to fluoroquinolone non-susceptibility. Phylogeographical analysis of publicly available global genomes of S. Panama ST48 revealed a potential concern for One Health issues due to its zoonotic nature, clustering PN2 (52-153 cgSNP differences) along with genomically related S. Panama strains isolated from human infections, food products, and farm animals, in the United States of America and Brazil. Interestingly, using Bayesian clustering method, the PN2 strain was grouped in the main clade C4, along with a CTX-M-55-producing S. Panama strain isolated from a human stool sample in Taiwan. In summary, we alert for the potential risk of dissemination of a neglected serovar that has contributed to the Salmonella global disease burden through the food supply chain.