A single nucleotide change in the E2 glycoprotein gene of Sindbis virus affects penetration rate in cell culture and virulence in neonatal mice.

Abstract

The nucleotide sequence of the glycoprotein genes of fully virulent Sindbis virus and derived mutants that have reduced neurovirulence for neonatal mice (attenuated mutants) has been determined. A single amino acid difference, arginine instead of serine at position 114 of the mature E2 glycoprotein, distinguished the prototype attenuated mutant from its virulent wild-type parent. Virulent revertants of the attentuated mutant showed same-site reversion to wild-type sequence. An identical single amino acid substitution, an arginine for the serine at E2 position 114, was found in a second independently selected attenuated mutant. The strains are characterized by genetic linkage between attenuation, accelerated penetration of baby hamster kidney cells, and efficient neutralization by the E2-specific monoclonal antibodies R6 and R13; selection for change in one property simultaneously selected for change in the other two (Olmsted, R.A., Baric, R.S., Sawyer, B.A. and Johnston, R.E. (1984) Science 225, 424-427 and Olmsted, R.A., Meyer, W.J. and Johnston, R.E. (1986) Virology 148, 1-10). The nucleotide sequence data suggest that a single mutation in the E2 gene is sufficient to cause these coordinate phenotypic changes. These findings identify a single locus in a Sindbis virus surface glycoprotein gene that determines both efficiency of interaction with cultured baby hamster kidney cells and degree of virulence in neonatal mice.