Amino Acids at Positions 156 and 332 in the E Protein of the West Nile Virus Subtype Kunjin Virus Classical Strain OR393 Are Involved in Plaque Size, Growth, and Pathogenicity in Mice.

The West Nile virus (WNV) subtype Kunjin virus (WNVKUN) is endemic to Australia. Here, we characterized the classical WNVKUN strain, OR393. The original OR393 strain contained two types of viruses: small plaque-forming virus (SP) and large plaque-forming virus (LP). The amino acid residues at positions 156 and 332 in the E protein (E156 and E332) of SP were Ser and Lys (E156S/332K), respectively, whereas those in LP were Phe and Thr (E156F/332T). SP grew slightly faster than LP in vitro. The E protein of SP was N-glycosylated, whereas that of LP was not. Analysis using two recombinant single-mutant LP viruses, rKUNV-LP-EF156S and rKUNV-LP-ET332K, indicated that E156S enlarged plaques formed by LP, but E332K potently reduced them, regardless of the amino acid at E156. rKUNV-LP-EF156S showed significantly higher neuroinvasive ability than LP, SP, and rKUNV-LP-ET332K. Our results indicate that the low-pathogenic classical WNVKUN can easily change its pathogenicity through only a few amino acid substitutions in the E protein. It was also found that Phe at E156 of the rKUNV-LP-ET332K was easily changed to Ser during replication in vitro and in vivo, suggesting that E156S is advantageous for the propagation of WNVKUN in mammalian cells. [ABSTRACT FROM AUTHOR]