Bacteria belonging to the genus Vibrio include many known and emerging pathogens. Horizontal gene transfer of pathogenicity islands is a major contributor to the emergence of new pathogenic Vibrio strains. Here, we use the brine shrimp Artemia salina as a model and show that the marine bacterium Vibrio proteolyticus uses a horizontally shared type VI secretion system, T6SS3, to intoxicate a eukaryotic host. Two T6SS3 effectors, which were previously shown to induce inflammasome-mediated pyroptotic cell death in mammalian phagocytic cells, contribute to this toxicity. Furthermore, we find a novel T6SS3 effector that also contributes to the lethality mediated by this system against Artemia salina. Therefore, our results reveal a T6SS that is shared among diverse vibrios and mediates host lethality, indicating that it can lead to the emergence of new pathogenic strains. IMPORTANCE The rise in sea surface temperature has been linked to the spread of bacteria belonging to the genus Vibrio and the human illnesses associated with them. Since vibrios often share virulence traits horizontally, a better understanding of their virulence potential and determinants can prepare us for new emerging pathogens. In this work, we showed that a toxin delivery system found in various vibrios mediates lethality in an aquatic animal. Taken together with previous reports showing that the same system induces inflammasome-mediated cell death in mammalian phagocytic cells, our findings suggest that this delivery system and its associated toxins may contribute to the emergence of pathogenic strains.
Keywords: Artemia; Vibrio proteolyticus; effector; effector functions; host-pathogen interaction; secretion; virulence.