Sequence flexibility of the immunodominant HLA A*0201 restricted ppUL83 CD8 T‐cell epitope of human cytomegalovirus

Abstract

The cytomegalovirus ppUL83 protein contains an immunodominant A*0201 restricted epitope between residues 495 and 503. We investigated the tolerance of this epitope to sequence variation in the context of peptide binding to HLA A*0201 and the ability to induce an Interferon gamma (IFNgamma) response through engagement with the T-cell receptor (TCR). The majority of mutations investigated resulted in a decrease in the production of IFNgamma indicating that if such variants occurred in vivo they would not be recognized by CD8 T-cell clones specific for the wild-type epitope. The mechanistic basis for the majority of the mutant peptides was their failure to bind and stabilize class I HLA cell surface expression. However, one peptide with a mutation at the P5 position (methionine to cysteine) resulted in a significant enhanced binding to HLA A*0201 and also an increase in cell surface expression over the wild-type peptide but was unable to engage with the CD8 TCR and trigger IFNgamma production. This peptide acted as a competitive inhibitor of the wild-type peptide but could not fully inhibit IFNgamma production by the latter. We subsequently investigated whether mutations of the HLA A*0201 epitope were evident in immunocompromized patients experiencing either rapid exponential or persistent cytomegalovirus replication.