Identification of the Receptor Used by the Ecotropic Mouse GLN Endogenous Retrovirus.

Approximately 10% of the mouse genome is composed of endogenous retroviruses belonging to different families. In contrast to the situation in the human genome, several of these families correspond to recent, still-infectious elements capable of encoding complete viral particles. The mouse GLN endogenous retrovirus is one of these active families. We previously identified one fully functional provirus from the sequenced genome of the C57BL/6 mouse strain. The GLN envelope protein gives the infectious viral particles an ecotropic host range, and we had demonstrated that the receptor was neither CAT1 nor SMIT1, the two previously identified receptors for mouse ecotropic retroviral envelope proteins. In this study, we have identified SLC19A1, the reduced folate carrier, as the cellular protein used as a receptor by the GLN retrovirus. The ecotropic tropism exhibited by this envelope is due to the presence or absence of an N-linked glycosylation site in the first extracellular loop as well as the specific amino acid sequence of the extracellular domains of the receptor. Like all the other retroviral envelope proteins from the gammaretrovirus genus whose receptors have been identified, the GLN envelope protein uses a member of the solute carrier superfamily as a receptor.IMPORTANCE Endogenous retroviruses are genomic traces of past infections present in all vertebrates. Most of these elements degenerate over time and become nonfunctional, but the mouse genome still contains several families with full infection abilities. The GLN retrovirus is one of them, and its members encode particles that are able to infect only mouse cells. Here, we identified the cellular protein used as a receptor by GLN for cell entry. It is SLC19A1, the reduced folate carrier. We show that GLN infection is limited to mouse cells due to both a mutation in the mouse gene preventing the glycosylation of SLC19A1 and also other residues conserved within the rat but not in the hamster and human proteins. Like all other gammaretroviruses whose receptors have been identified, GLN uses a member of the solute carrier superfamily for cell entry, highlighting the role of these proteins for retroviral infection in mammals.