Deletions in the Putative Cell Receptor-Binding Domain of Sindbis Virus Strain MRE16 E2 Glycoprotein Reduce Midgut Infectivity in Aedes aegypti

Abstract

The Sindbis virus (Alphavirus; Togaviridae) strain MRE16 efficiently infects Aedes aegypti mosquitoes that ingest a blood meal containing 8 to 9 log₁₀ PFU of virus/ml. However, a small-plaque variant of this virus, MRE16sp, poorly infects mosquitoes after oral infection with an equivalent titer. To determine the genetic differences between MRE16 and MRE16sp viruses, we have sequenced the MRE16sp structural genes and found a 90-nucleotide deletion in the E2 glycoprotein that spans the 3′ end of the coding region for the putative cell-receptor binding domain (CRBD). We examined the role of this deletion in oral infection of mosquitoes by constructing infectious clones pMRE16icΔE200-Y229 and pMRE16ic, representing MRE16 virus genomes with and without the deletion, respectively. A third infectious clone, pMRE16icΔE200-C220, was also constructed that contained a smaller deletion extending only to the 3′ terminus of the CRBD coding region. Virus derived from pMRE16ic replicated with the same efficiency as parental virus in vertebrate (BHK-21) and mosquito (C6/36) cells and orally infected A. aegypti. Viruses derived from pMRE16icΔE200-Y229 and pMRE16icΔE200-C220 replicated 10- to 100-fold less efficiently in C6/36 and BHK-21 cells than did MRE16ic virus. Each deletion mutant poorly infected A. aegypti and dramatically reduced midgut infectivity and dissemination. However, all viruses generated nearly equal titers (∼6.0 log₁₀ PFU/ml) in mosquitoes 4 days after infection by intrathoracic inoculation. These results suggest that the deleted portion of the E2 CRBD represents an important determinant of MRE16 virus midgut infectivity in A. aegypti.