Poxvirus Infection-Associated Downregulation of C-Type Lectin-Related-b Prevents NK Cell Inhibition by NK Receptor Protein-1B

Abstract

Innate immune recognition of virus-infected cells includes NK cell detection of changes to endogenous cell-surface proteins through inhibitory receptors. One such receptor system is the NK cell receptor protein-1B (NKR-P1B) and its ligand C-type lectin-related-b (Clr-b). NKR-P1B and Clr-b are encoded within the NK cell gene complex, a locus that has been linked to strain-dependent differences in susceptibility to infection by poxviruses. In this study, we report the impact of vaccinia virus (VV) and ectromelia virus infection on expression of Clr-b and Clr-b–mediated protection from NK cells. We observed a loss of Clr-b cell-surface protein upon VV and ectromelia virus infection of murine cell lines and bone marrow-derived macrophages. The reduction of Clr-b is more rapid than MHC class I, the prototypic ligand of NK cell inhibitory receptors. Reduction of Clr-b requires active viral infection but not expression of late viral genes, and loss of mRNA appears to lag behind loss of Clr-b surface protein. Clr-b–mediated protection from NK cells is lost following VV infection. Together, these results provide the second example of Clr-b modulation during viral infection and suggest reductions of Clr-b may be involved in sensitizing poxvirus-infected cells to NK cells.