Type III secretion systems (T3SS) are common virulence factors that facilitate the injection of anti-eukaryotic effector toxins that damage and kill target host cells. The sequence and function of the structural and regulatory proteins of these systems are conserved across Gram-negative pathogens, including Pseudomonas, Yersinia, and Salmonella. However, the identity and function of effector proteins are not conserved and are unknown in several relevant human and animal pathogens. Here, we used comparative genomics to identify and characterize the effectors encoded by Vibrio campbellii BB120, a crustacean and fish pathogen. We showed that most sequenced Vibrio strains belonging to the Harveyi clade, including V. campbellii, encode a full set of structural and regulatory genes comprising the T3SS1 of V. parahaemolyticus; the exception is V. natriegens. Transcriptomics and proteomics analyses identified four V. campbellii effectors that are secreted by the T3SS. Among these, two effectors are encoded outside the T3SS island, and all effector genes were co-regulated by both the master T3SS regulator ExsA and by the master quorum sensing regulator LuxR. Three effectors - VopS, CopA, and VIBHAR_06684 - exhibited toxic activity in yeast cells or bone marrow-derived macrophages, and the toxicity phenotypes were dependent on a functional T3SS. Conservation of the effectors was limited to the Harveyi clade for VopS and only to V. campbellii species for CopA; no other Vibrio strains queried in our analyses encoded VIBHAR_06684 or VIBHAR_05674 homologs. These findings demonstrate that T3SSs in bacteria from the same clade have conserved structural secretion apparatuses but exhibit variance in effector repertoires. We postulate that the functions of effectors differ between species to impart roles in host specificity.
Paul, P., Mass, S., Cohen, H., Bochman, M. L., Podicheti, R., Rusch, D. B., gerlic, m., Salomon, D., van Kessel, J.
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