Development of a live vector vaccine against infectious pancreatic necrosis virus in rainbow trout

Abstract

Infectious pancreatic necrosis virus (IPNV) causes severe viral disease in salmonids, with major economic losses in the global rainbow trout aquaculture industry following from a high mortality rate. In the present study, we aimed to develop a safe and efficient vaccine to protect rainbow trout against IPNV infection. Administered via the immersion route, a live vector vaccine containing the coding region of the IPNV VP2 induced protective immune responses in rainbow trout. For best protection, juvenile rainbow trout should be immunized with a 1:100 dilution of the titer with 1 × 1010.0 ml−1 TCID50 of the live vector vaccine, via 10-min immersion. Expression of the IPNV VP2 gene was confirmed in spleens of vaccinated rainbow trout, and reached the highest level at 3 days post-vaccination (dpv) and thereafter gradually decreased between 3 and 15 dpv. The expression of TLR-3, TLR-7 and TLR-8 was upregulated after vaccination, and the highest expression levels of IFN-1, Mx-1, Mx-3, Vig-1 and Vig-2 were detected at 3 dpv. Four markers of the adaptive immune response (CD4, CD8, IgM and IgT) were continuously increased in the spleens of vaccinated fish as compared with controls, between 3 and 15 dpv. The cumulative percentage mortality differed significantly between the vaccinated fish and the controls (empty-plasmid-vaccinated). The results of the IPNV challenge showed that the live vector vaccine had a high protection rate against IPNV (relative percent survival value of 88.24), and the vaccinated rainbow trout displayed high levels of serum antibodies against IPNV infection. Taken together, our results demonstrate that this is a promising live vector vaccine that could be used to protect rainbow trout against IPNV infection.