Development of rapid neutralization assay of viral hemorrhagic septicemia virus (VHSV) based on chimeric rhabdovirus expressing heterologous glycoprotein

The titer of neutralizing antibodies (NAbs) against viral hemorrhagic septicemia virus (VHSV) has been deter-mined by conventional neutralization assay based on the observation of cytopathic effect (CPE) and plaque formation in cultured cells. However, this method requires several days for the determination and can be affected by operator bias. To develop a rapid and high-throughput neutralization assay against VHSV, we rescued a surrogate chimeric snakehead rhabdovirus, rSHRV-Gvhsv-eGFP, which has the enhanced green fluorescent protein (eGFP) gene between N and P genes and has VHSV G gene instead of SHRV G gene in the genome. The efficacy of rSHRV-Gvhsv-eGFP to determine serum neutralization activity was evaluated using various serum samples derived from New Zealand white rabbits and olive flounder (Paralichthys oliavaceus). Although neutralization titers analyzed using rSHRV-Gvhsv-eGFP were similar to the titers measured using rVHSV-A-eGFP, the time needed for the determination of neutralization titer was much shortened (24 h for rSHRV-Gvhsv-eGFP and 48 h for rVHSV-A-eGFP), proving the usefulness of rSHRV-Gvhsv-eGFP for the neutralization assay against VHSV. In addition, as the neutralization activities using rSHRV-Gvhsv-eGFP could be well-observed without adding fresh serum as a complement source, no preparation is required for the optimization of control fresh serum from naive fish. The present results suggest that the rapid neutralization assay using rSHRV-Gvhsv-eGFP can be used to investigate neutralization activities against VHSV.