A T6SS in the coral pathogenVibrio coralliilyticussecretes an arsenal of anti-eukaryotic effectors and contributes to virulence

Abstract

AbstractVibrio coralliilyticus(Vcor) is a pathogen of coral and shellfish, leading to devastating economic and ecological consequences worldwide. Although rising ocean temperatures correlate with increasedVcorpathogenicity, the specific molecular mechanisms and determinants contributing to virulence remain poorly understood. Here, we systematically analyzed the type VI secretion system (T6SS), a contact-dependent toxin delivery apparatus, inVcor. We identified two omnipresent T6SSs that are activated at temperatures in whichVcorbecomes virulent; T6SS1 is an antibacterial system mediating interbacterial competition, whereas T6SS2 mediates anti-eukaryotic toxicity and contributes to mortality during infection of an aquatic model organism,Artemia salina. Using comparative proteomics, we identified the T6SS1 and T6SS2 toxin arsenals of threeVcorstrains with distinct disease etiologies. Remarkably, T6SS2 secretes at least nine novel anti-eukaryotic toxins comprising core and accessory repertoires. We propose that T6SSs differently contribute toVcor’s virulence: T6SS2 plays a direct role by targeting the host, while T6SS1 plays an indirect role by eliminating competitors.Author SummaryCoral reefs are diverse ecosystems providing habitats for various fish, invertebrates, and microorganisms. Climate change, leading to rising ocean water temperatures, correlates with coral bleaching and mass mortality events. An implicated causal agent of coral disease outbreaks is the marine bacteriumVibrio coralliilyticus. Here, we found that two toxin injection systems present in allVibrio coralliilyticusstrains are regulated by temperature; we revealed the toxins that they secrete and their function in competition against rival bacteria and in the intoxication of an animal host. Our findings implicate these systems as previously unappreciated contributors toVibrio coralliilyticusvirulence, illuminating possible targets to treat or prevent coral infection.