Mechanisms of MCMV immune evasion provide insight into MHC-I folding and assembly

As part of its strategy to evade detection by the host immune system, murine cytomegalovirus (MCMV) encodes three proteins that modulate cell surface expression of major histocompatibility complex class I (MHC-I) molecules: the MHC-I homolog m152/gp40 as well as the m02–m16 family members m04/gp34 and m06/gp48. We have explored the interaction between recombinant m06 and both full-length and truncated forms of the MHC-I molecule H2-Ld using in vitro binding assays. Previous work using solution NMR has mapped the interaction footprint of the m06 protein on MHC-I, revealing that the targeted surface area overlaps with that of the MHC-I chaperone molecule Tapasin. Furthermore, we observe enhanced binding between m06 and peptide-free forms of MHC-I, suggesting a possible chaperone-like interaction between m06 and MHC-I. Here, we express recombinant m06 in mammalian cells to explore the interplay between the viral protein and its potential targets through immunofluorescence localization experiments as well as well as binding assays. This study provides insight into the mechanism of the interaction of m06 with MHC-I, suggesting a structural manipulation of the target MHC-I molecule at an early stage of the peptide-loading pathway.