Bovine herpesvirus type 1 (BHV-1) UL49.5 luminal domain residues 30 to 32 are critical for MHC-I down-regulation in virus-infected cells
Abstract
Bovine herpesvirus type 1 (BHV-1) U(L)49.5 inhibits transporter associated with antigen processing (TAP) and down-regulates cell-surface expression of major histocompatibility complex (MHC) class I molecules to promote immune evasion. We have constructed a BHV-1 U(L)49.5 cytoplasmic tail (CT) null and several U(L)49.5 luminal domain mutants in the backbone of wild-type BHV-1 or BHV-1 U(L)49.5 CT- null viruses and determined their relative TAP mediated peptide transport inhibition and MHC-1 down-regulation properties compared with BHV-1 wt. Based on our results, the U(L)49.5 luminal domain residues 30-32 and U(L)49.5 CT residues, together, promote efficient TAP inhibition and MHC-I down-regulation functions. In vitro, BHV-1 U(L)49.5 Δ30-32 CT-null virus growth property was similar to that of BHV-1 wt and like the wt U(L)49.5, the mutant U(L)49.5 was incorporated in the virion envelope and it formed a complex with gM in the infected cells.