Role of conserved glycosylation site unique to murine class I MHC in recognition by Ly-49 NK cell receptor.

The recognition of class I MHC molecules on target cells by the Ly-49 family of receptors regulates NK cytotoxicity. Previous studies have suggested that carbohydrates are involved in the recognition of class I MHC by Ly-49, although their precise role remains unclear. Here, we examined the role of asparagine-linked carbohydrates of the murine class I MHC in the binding to Ly-49A and Ly-49C. We have generated H-2Dd mutants that lack the highly conserved glycosylation sites at amino acid residues 86 in the alpha1 domain and 176 in the alpha2 domain, respectively. These mutant Dd cDNAs were transfected into leukemic cell lines, and the binding of the transfected cells to COS cells expressing Ly-49A or Ly-49C, as well as their susceptibility to lysis by Ly-49A+ NK cells, was examined. Only the mutation of the alpha2 domain glycosylation site significantly reduced the binding of Dd to Ly-49A and Ly-49C. Cells expressing Dd with the mutation at this site were partially resistant to killing by Ly-49A+ NK cells. These results suggest that, while carbohydrates linked to residue 176 seem to function as a part of the ligand structure for the Ly-49 family of NK receptors, there are additional structural features involved in this recognition. This glycosylation site is highly conserved among murine class I MHC but is not found among those of other species, suggesting that its role is unique to the murine immune system. It further suggests that murine class I MHC and Ly-49 gene families may have evolved in concert.