Functional degeneracy of residues in a T cell peptide epitope contributes to its recognition by different T cell hybridomas

Abstract

Synthetic antigen Poly EYK(EYA)₅ induces T cells of narrowly defined fine specificity as represented by the two I-A^d T cell hybridomas, A.1.1. and B.1.1. Both these hybridomas recognize the minimum 15-amino-acid peptide sequence EVK(EYA)₄. We have characterized the residues involved in the recognition of EVK(EYA)₄ peptide by these hybridomas with synthetic peptides and discovered a distinct functional hierarchy for the residues in the sequence. Even with the repeating tripeptide (EVA)₅ which is recognized by B.1.1 cells, the residues that are essential cluster near the middle of the sequence but not near the N- or C-terminal region. Different MHC binding and TCR contacting residues were found for each of the hybridomas. The results suggest that different T cells either recognize different parts of the peptide MHC complex or that the peptide binds to MHC in multiple conformations. This was supported by the fact that Poly EVK(EYA)₅ is α-helical but the peptides used here showed only a slight propensity to adopt this structure and it did not correlate with their functional activity. We also found that (EVA)₅ does not compete with EYK(EVA)₄ in the stimulation of A.1.1 cells despite its obvious capacity to interact with I-A^d when it stimulates B.1.1 cells. This may be because these peptides have a low affinity for la and therefore only appropriate TCR interactions would stabilize the antigen-la complex. In conclusion, antigen-MHC–TCR interaction appears to be a dynamic process which allows recognition of different residues of a T cell determinant by different T cells.