Neurovirulence of influenza virus in mice I. Neurovirulence of recombinants between virulent and avirulent virus strains

The neurovirulence of influenza A/WSN (HONI) virus in mice was studied using recombinants between neurovirulent WSN and nonneurovirulent A/Hong Kong (HK, H3N2) viruses. Parental derivation of genes in recombinants were analyzed by the electrophoresis of viral RNA in urea-polyacrylamide gel. The neurovirulence was tested by intracerebral inoculation of recombinants into mice. It was found that five large genes, P₃, P₁, P₂, HA, and NP, were not essential for the virulence, because recombinants having these five genes derived from HK parent were virulent. Recombinants in which any of three remaining WSN genes, NA, M, and NS, was replaced with the one from HK parent, failed to kill mice. Therefore, these three genes were responsible for the difference of neurovirulence between the two virus strains. However, when tested in mice immunosuppressed by the administration of cyclophosphamide, recombinants containing either M or NS protein from HK parent were virulent, but viruses containing HK neuraminidase were still avirulent. Viruses containing HK neuraminidase appeared incapable of multiplying in the mouse brain, while those containing either M or NS protein derived from HK virus multiplied to a limited extent. It was suggested that WSN neuraminidase was the principal determining factor of the neurovirulence of WSN virus, without which no virus multiplication occurred, while M and probably NS proteins of WSN virus played a role of helper or accessory virulence factor(s), enabling the efficient virus replication.