Two Type VI Secretion Systems in Vibrio coralliilyticus RE22Sm exhibit differential target specificity for bacteria prey and oyster larvae

Vibrio coralliilyticus is an extracellular bacterial pathogen and a causative agent of vibriosis in larval oysters. Host mortality rates can quickly reach 100% during vibriosis outbreaks in oyster hatcheries. Type VI Secretion Systems (T6SS) are rapidly polymerizing, contact dependent injection apparatus for prey cell intoxication and play important roles in pathogenesis. DNA sequencing of V. coralliilyticus RE22Sm indicated the likely presence of two functional T6SSs with one on each of two chromosomes. Here, we investigated the antibacterial and anti-eukaryotic roles of the two T6SSs (T6SS1 and T6SS2) against E. coli Sm10 cells and Crassostrea virginica larvae, respectively. Mutations in hcp and vgrG genes were created and characterized for their effects upon bacterial antagonism and eukaryotic host virulence. Mutations in hcp1 and hcp2 resulted in significantly reduced antagonism against E. coli Sm10, with the hcp2 mutation demonstrating the greater impact. In contrast, mutations in vgrG1 or vgrG2 had little effect on E. coli killing. In eastern oyster larval challenge assays, T6SS1 mutations in either hcp1 or vgrG1 dramatically attenuated virulence against C. virginica larvae. Strains with restored wild type hcp or vgrG genes reestablished T6SS-mediated killing to that of wild type V. coralliilyticus RE22Sm. These data suggest that the T6SS1 of V. coralliilyticus RE22Sm principally targets eukaryotes and secondarily bacteria, while the T6SS2 primarily targets bacterial cells and secondarily eukaryotes. Attenuation of pathogenicity was observed in all T6SS mutants, demonstrating the requirement for proper assembly of the T6SS systems to maintain maximal virulence. Importance Vibriosis outbreaks lead to large-scale hatchery losses of oyster larvae (product and seed) where Vibrio sp. associated losses of 80 to 100 percent are not uncommon. Practical and proactive biocontrol measures can be taken to help mitigate larval death by Vibrio sp. by better understanding the underlying mechanisms of virulence in V. coralliilyticus . In this study, we demonstrate the presence of two Type VI Secretion Systems (T6SS) in V. coralliilyticus RE22Sm and interrogate the roles of each T6SS in bacterial antagonism and pathogenesis against a eukaryotic host. Specifically, we show that the loss of T6SS1 function results in the loss of virulence against oyster larvae. ### Competing Interest Statement The authors have declared no competing interest.