A new strategy to develop pseudorabies virus-based bivalent vaccine with high immunogenicity of porcine circovirus type 2.

ABSTRACT

Herpesvirus based multivalent vaccines have been extensively studied, whereas few of them have been successfully used in clinic and animal husbandry industry due to the low expression of foreign immunogens in herpesvirus. In this study, we developed a new strategy to construct herpesvirus based bivalent vaccine with high-level expression of foreign immunogen, by which the ORF2 gene encoding the major antigen protein Cap of porcine circovirus type 2 (PCV2), was highly expressed in pseudorabies virus (PRV). To obtain the high expression of PCV2 immunogen, tandem repeats of PCV2 ORF2 gene were firstly linked by protein quantitation ratioing (PQR) linker to reach equal expression of each ORF2 gene. Then, the multiple copies of ORF2 gene were respectively inserted into the gE and gG sites of PRV using CRISPR/Cas9 system, in which the expression of ORF2 gene was driven by endogenous strong promoters of PRV. Through this way, the highest yield of Cap protein was achieved in two copies of quadruple ORF2 gene insertion. Finally, in mice and pigs immunized with the bivalent vaccine candidate, we detected high titer of specific antibodies for PRV and neutralized antibodies for PCV2, and observed protective effect of the bivalent vaccine candidate against PRV challenge in immunized pigs, suggesting a potential clinical application of the bivalent vaccine candidate we constructed. Together, our strategy could be extensively applied to the generation of other multivalent vaccines, and will pave the way to construct herpesvirus based multivalent vaccines to effectively reduce the cost of vaccine.