Emergence of highly virulent Aeromonas dhakensis in channel catfishaquaculture: genomic insights into pathogenicity and antimicrobial resistance

Aeromonas dhakensis has emerged as a significant pathogen in aquaculture, causing severe disease outbreaks and resulting in substantial economic losses. However, its pathogenic mechanism and virulence factors remain largely unexplored. In this study, we isolated ahighly virulent strain of A. dhakensis, CWH5, from a severe disease outbreak in farmed channel catfish (Ictalurus punctatus). Through comprehensive whole-genome analysis, we elucidated its pathogenicity and the genetic basis for its high virulence and multi-antimicrobial resistance in channel catfish. Experimental infections showed that CWH5 exhibited exceptional virulence, with an LD50 of 7.94×10⁴ CFU/mL and causing 100% mortality within 72 h at a concentration of 10⁷ CFU/mL. Histopathological examinations revealed severe multi-organ damage, including extensive hepatocellular necrosis, gill epithelial destruction, and fin tissue deterioration. Whole-genome sequencing revealed a 4.92 Mb circular chromosome encoding sophisticated virulence mechanisms, such as complete Type III, IV, and VI secretion systems, and a vast arsenal of 60 antibiotic resistance genes across 15 drug classes. Comparative genomic analysis positioned CWH5 within the A. dhakensis clade, sharing the highest sequence similarity with A. dhakensis CIP 107500ᵀ. The co-localization of virulence and resistance determinants within mobile genetic elements suggests the potential for horizontal gene transfer. Our work underscored the importance of A. dhakensis CWH5 as an emerging pathogen in channel catfish aquaculture, providing crucial insights into the molecular mechanisms of its exceptional virulence and implying significant implications for disease management and antimicrobial resistance surveillance in aquaculture settings.