Evaluation of protective immune response of immersion inactivated vaccine against Singapore grouper iridovirus.

Singapore grouper iridovirus (SGIV) always causes high transmission efficiency and mortality in the larval and juvenile stages of grouper in aquaculture industry. Although inactivated virus and recombinant DNA vaccines administered via intraperitoneal injection have shown efficacy in protection against SGIV, their potential applications in field testing were limited due to the vaccine delivery methods. Here, we developed an immersion vaccine containing inactivated virus and Montanide IMS 1312 adjuvant (IMS 1312) and evaluated its protective efficacy against SGIV infection. Compared to the PBS group, fish vaccinated with immersion inactivated vaccine with or without IMS 1312 were significantly protected against SGIV, with a relative percent survival (RPS) of 57.69 % and 38.47 %, respectively. Furthermore, the transcripts of viral core genes were reduced, and the histopathological severity caused by SGIV were relatively mild in multiple tissues of the IMS + V group. The immersion vaccine activated the AKP and ACP activities and increased the mRNA levels of IFN and inflammation-associated genes. The transcriptome analysis showed that a total of 731 and 492 genes were significantly regulated in the spleen and kidney from the IMS + V group compared to the PBS group, respectively. Among them, 129 DEGs were co-regulated, and enriched in the KEGG pathways related to immune and cell proliferation, including MAPK signaling, JAK-STAT signaling and PI3K-Akt signaling pathways. Similarly, the DEGs specially regulated in the kidney and spleen upon vaccine immunization were significantly enriched in the KEGG pathways related to interferon and inflammation response. Together, our results elucidated that the immersion vaccine of inactivated SGIV with IMS 1312 induced a protective immune response of grouper against SGIV.