Enhancing immunogenicity of a reporter protein by fusion to glycoprotein and nucleoprotein of viral hemorrhagic septicemia virus (VHSV) particles

Abstract

The introduction of reverse genetic technology to generate recombinant VHSVs (rVHSVs) has contributed to the uncovering of functional roles of viral genes and to the development of attenuated prophylactic vaccines. In this study, to assess the possible use of rVHSVs as a tool of combined vaccines, we newly rescued rVHSVs that harbor viral envelop-studded eGFP (rVHSV-A-SGT) or nucleoprotein-fused eGFP (rVHSV-A-NLG), and the ability of these rVHSVs to induce adaptive humoral immunity in olive flounder (Paralichthys olivaceus) was compared with that of rVHSV-A-eGFP that expresses eGFP as a soluble form in the cytoplasm of infected cells. The results showed that antibodies against eGFP were efficiently induced by the immunization of olive flounder with rVHSV-A-SGT and rVHSV-A-NLG, while rVHSV-A-eGFP was poor in the ability to induce antibody response against eGFP. These results suggest that the display of heterologous antigens on VHSV envelop is a good way to develop efficient combined vaccines and the fusion of foreign antigen with N protein can also be a way to enhance immunogenicity of a foreign antigen. The present recombinant VHSVs - rVHSV-A-SGT and rVHSV-A-NLG – not only express foreign antigens in host cell cytoplasm but also display antigens in or on the virus particles. Further researches on the availability of recombinant VHSVs as combined vaccines against multiple fish pathogens are needed.