Positive Role of the MHC Class-I Antigen Presentation Regulator m04/gp34 of Murine Cytomegalovirus in Antiviral Protection by CD8 T Cells.

Murine cytomegalovirus (mCMV) codes for MHC class-I trafficking modulators m04/gp34, m06/gp48, and m152/gp40. By interacting with the MHC class-I alpha chain, these proteins disconnect peptide-loaded MHC class-I (pMHC-I) complexes from the constitutive vesicular flow to the cell surface. Based on the assumption that all three inhibit antigen presentation, and thus the recognition of infected cells by CD8 T cells, they were referred to as "immunoevasins." Improved antigen presentation mediated by m04 in the presence of m152 after infection with deletion mutant mCMV-Delta m06(W), compared to mCMV-Delta m04m06 expressing only m152, led us to propose renaming these molecules "viral regulators of antigen presentation" (vRAP) to account for both negative and positive functions. In accordance with a positive function, m04-pMHC-I complexes were found to be displayed on the cell surface, where they are primarily known as ligands for Ly49 family natural killer (NK) cell receptors. Besides the established role of m04 in NK cell silencing or activation, an anti-immunoevasive function by activation of CD8 T cells is conceivable, because the binding site of m04 to MHC class-I alpha appears not to mask the peptide binding site for T-cell receptor recognition. However, functional evidence was based on mCMV-Delta m06(W), a virus of recently doubted authenticity. Here we show that mCMV-Delta m06(W)actually represents a mixture of an authenticm06deletion mutant and a mutant with an accidental additional deletion of a genome region encompassing also genem152. Reanalysis of previously published experiments for the authentic mutant in the mixture confirms the previously concluded positive vRAP function of m04.