Metabolic Nutrient Preferences ofVibrio mimicus: Leveraging Nucleotides and Oligopeptides from Yellow Catfish for Enhanced Infectivity

Abstract

AbstractIn the context of host-microbe interactions, the microenvironment plays a critical role in facilitating microbial survival, and variations in these microenvironments may influence the pathogenicity of microorganisms.Vibrio mimicus, a major pathogen responsible for infections in aquatic animals, poses a substantial threat to yellow catfish (Pelteobagrus fulvidraco) and grass carp (Ctenopharyngodon idella), two naturally occurring hosts displaying markedly different susceptibility levels. This study aims to unravel the underlying mechanisms behind this susceptibility discrepancy in the two teleost species. Employing metabolomic analysis, we identified a distinctive microenvironment in yellow catfish, characterized by abundant purine nucleotides and oligopeptides. Furthermore, a total of 67 specific metabolites were identified from both yellow catfish and grass carp, with 33 displaying heightened expression on the body surface of yellow catfish, including nucleotides, amino acids, and gangliosides, while 34 were predominantly expressed on the body surface of grass carp, primarily comprising lipids. Subsequent investigations revealed that certain compounds related to nucleotides and oligopeptides exhibited significant growth-promoting effects and were utilized byV. mimicusas nutrients, with deoxyguanosine proving to be notably more than twice as effective as glucose. Moreover, duringV. mimicusinfection, numerous metabolites such as oligopeptides, purine nucleotides, and specific metabolites experienced considerable depletion in the skin of yellow catfish. Concurrently, several genes associated with nucleosidase and peptidase were upregulated in the skin and muscles of infected fish. These findings suggest that the microenvironment provided by different hosts plays a pivotal role in determining the infectivity of the pathogen. Additionally, our results indicate that the microenvironment on the surface of yellow catfish, characterized by an abundance of purine nucleotides and oligopeptides, indirectly enhancesV. mimicusgrowth, ultimately augmenting its infectivity.