Mutational analysis and glycosylation sensitivity of restrictive XPR1 gammaretrovirus receptors in six mammalian species

Abstract

Most viruses infect only a few hosts, but the xenotropic and polytropic mouse leukemia viruses (X/P-MLVs) are broadly infectious in mammalian species. X/P-MLVs use the XPR1 receptor for cell entry, and tropism differences are due to polymorphisms in XPR1 and the viral envelope. To characterize these receptor variants and identify blocks to cross-species transmission, we examined the XPR1 receptors in six mammalian species that restrict different subsets of X/P-MLVs. These restrictive receptors have replacement mutations in regions implicated in receptor function, and some entry restrictions can be relieved by glycosylation inhibitors. Mutation of the cow and hamster XPR1 genes identified a shared, previously unrecognized receptor-critical site. This G/Q503N replacement dramatically improves receptor function. While this substitution introduces an N-linked glycosylation site, XPR1 receptors are not glycosylated indicating that this replacement alters the virus-receptor interface independently of glycosylation. Our data also suggest that an unidentified glycosylated cofactor may influence X/P-MLV entry.