RESUMO
Enterotoxigenic Escherichia coli (ETEC) are significant pathogen in both cattle and pigs, causing diarrhea in these animals and leading to economic losses in the livestock industry. Understanding the dissimilarity in genotype, antimicrobial resistance (AMR), and virulence between bovine and swine ETEC is crucial for development of targeted preventive and therapeutic approaches for livestock. However, a comprehensive study on this area remains lacking. Here, we performed whole-genome sequencing-based analyses of bovine (n = 554) and swine (n = 623) ETEC collected in the United States over a 53-year period. We identified distinct ETEC genotypes (fimH type, O antigen, H antigen, sequence type) in cattle and pigs. Furthermore, specific AMR and virulence profiles were associated with bovine and swine ETEC. Compared to swine ETEC, bovine ETEC were less diverse in genotypes and had a significantly (P < 0.001) lower number of AMR genes per isolate but higher co-occurrence of Shiga toxin and enterotoxin genes. Our results provide an overview of the key genomic differences between bovine and swine ETEC in the United States, which might be attributed to host adaptation and antibiotic usage practice. Ongoing surveillance and research are essential to monitor the genetic diversity and AMR patterns of ETEC in different host species. IMPORTANCE: Enterotoxigenic Escherichia coli (ETEC)-associated diarrhea represent one of the most economically important diseases in the livestock industry. By analyzing over a thousand livestock-derived ETEC samples in the United States, our study unveiled a clear distinction in ETEC's genetic traits (i.e., genotypes, antimicrobial resistance [AMR], and virulence profiles) that might be tied to the different use of antibiotics in cattle and pigs, and the bacteria's adaptation to their specific animal hosts. This understanding is crucial for tailoring preventive and therapeutic strategies. It also highlights the significance of ongoing surveillance and research into the evolution of bacterial pathogens like ETEC in livestock by using advanced techniques such as whole-genome sequencing.