Manipulation of the flavivirus genome to accommodate and express a heterologous gene of interest has become an attractive approach for gene delivery and the development of viral-vectored vaccines. However, due to the inherent genetic instability of the flavivirus genomes, the construction of recombinant viruses carrying a foreign gene could be problematic and heavily resistant. In this study, the possibility of the Japanese encephalitis virus (JEV) as a stable flavivirus vector for the expression of a foreign gene was assessed using reverse genetics. The full-length cDNA genome of genotype I (GI) JEV inherently possessed excellent stability and manipulability in a bacterial host, while mutations and deletions accumulated in the cDNA genomes of genotype Ⅲ (GⅢ) JEV strains. Using the GI JEV as backbones, we generate a panel of recombinant viruses expressing various foreign genes. All recombinant viruses exhibited excellent genetic stability and efficiently express foreign genes for at least ten serial passages in vitro. In application, a convenient, rapid and reliable image-based assay for neutralizing antibody testing and antiviral drug discovery was established with a mCherry-reporter recombinant virus (rBJ-mCherry). Meanwhile, the recombinant viruses expressing the antigens of the African swine fever virus (ASFV) or Classical swine fever virus (CSFV) could effectively induce antibody responses to the JEV vector and foreign antigens in a mouse vaccination model. Therefore, GI JEV strains could serve as viral vectors accommodating the expression of large foreign genes.
Keywords: Antiviral drug screening; Combination vaccines; Flavivirus vector; Genotype I; Japanese encephalitis virus; Neutralization assay.
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