Outer membrane vesicles (OMVs) have been gained increasing attention in vaccinology due to their ability to induce strong protective humoral and cell-mediated immunity. The Gram-negative bacterium Tenacibaculum maritimum, the causative agent of marine tenacibaculosis, poses a significant challenge to the global aquaculture industry due to its difficult prophylaxis. In previous studies, we demonstrated that OMV production is a key virulence mechanism in T. maritimum. Building on this, the present study aimed to evaluate the efficacy of a natural, encapsulated multi-antigen vaccine made from adjuvant-free, crude T. maritimum OMVs (Tm-OMVs). A vaccination experiment using SP9.1-OMVs was conducted in juvenile turbot (Scophthalmus maximus L.), followed by a T. maritimum bath challenge. Immune responses in the turbot were assessed by measuring anti-Tm antibody levels and analyzing the expression of eight key immune-related genes (il-1β, il-8, il-22, pcna, c3, cd4-1, ifng2, cd8α). The results showed that immunization with SP9.1-OMVs provided significant protection against T. maritimum infection (RPS = 70 %). Vaccinated fish exhibited a dose-dependent increase in anti-Tm antibody titers in blood plasma, along with rapid induction of both innate (il-1β, il-8, il-22, c3) and adaptive (cd4-1, ifng2, cd8α) immune genes as early as 4 h post-bath challenge. These findings offer new insights into the early immune response of turbot following T. maritimum infection and could serve as a foundation for developing novel OMV-based vaccines.
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