Flexibility in T-cell receptor ligand repertoires depends on MHC and T-cell receptor clonotype.

T-cell receptors (TCR) recognize peptides complexed to self-major histocompatibility complex (MHC) molecules. Recognition of peptide/MHC ligands by the TCR is highly peptide specific. However, certain TCRs can also recognize sequence-related and -unrelated ('mimicry') epitopes presented by homologous MHC molecules. Using two human, human leucocyte antigen-DR1 (HLA-DR1)-restricted T-cell clones specific for HA p307-319, we identified several diverse combinations of peptide-MHC complexes that are functionally equivalent in their ability to trigger T-cell stimulation. These findings demonstrate that a single TCR can productively interact with different peptides complexed to self- as well as non-self-MHC molecules. This extended reactivity is human leucocyte antigen (HLA) allele and TCR clonotype dependent, as the peptide repertoire recognized depends on the presenting HLA-DR molecule and varies among different TCRs that both recognize the HA p307-319/DR1 complex. Importantly, certain peptide analogues can completely change the HLA-restriction pattern of the TCR: T-cell recognition of the wild-type peptide that was absent in the context of a non-self HLA-DR molecule, was restored by complementing substitutions in altered peptide ligands, that could not be presented by the original restriction element. This mechanism may play an important role in allorecognition.