Specificity and degeneracy of T cells.

The extent of T cell cross-reactivity is significant, even to the point where the terms "promiscuous" and "degenerate" apply. Degeneracy is an important feature of the immune response mechanism that permits effective T cell responses to a vast number of potential peptide sequences complexed to MHC molecules with specificity sufficient to distinguish between self and foreign peptides and thus to avoid autoimmune disease. Degeneracy at the clonal level of T cells also permits the use of very large combinatorial peptide libraries to identify and optimize peptide sequences that might be used for the treatment of T cell mediated autoimmune disease and for the design of vaccines for treatment of infectious diseases and cancer. Here we explore some recent findings derived from studies involving library scans of T cell lines and clones having clinically relevant specificities. In particular, we discuss two new insights: degeneracy among CD8 T cells appears to be substantially less than among CD4 T cells, and T cell clones characterized by a high affinity TCR interaction with a given pMHC complex are less degenerate than lower avidity T cells that require higher levels of pMHC complex for their activation.

Structure of an autoimmune T cell receptor complexed with class II peptide-MHC: insights into MHC bias and antigen specificity.

T cell receptor crossreactivity with different peptide ligands and biased recognition of MHC are coupled features of antigen recognition that are necessary for the T cell's diverse functional repertoire. In the crystal structure between an autoreactive, EAE T cell clone 172.10 and myelin basic protein (1-11) presented by class II MHC I-Au, recognition of the MHC is dominated by the Vbeta domain of the TCR, which interacts with the MHC alpha chain in a manner suggestive of a germline-encoded TCR/MHC "anchor point." Strikingly, there are few specific contacts between the TCR CDR3 loops and the MBP peptide. We also find that over 1,000,000 different peptides derived from combinatorial libraries can activate 172.10, yet the TCR strongly prefers the native MBP contact residues. We suggest that while TCR scanning of pMHC may be degenerate due to the TCR germline bias for MHC, recognition of structurally distinct agonist peptides is not indicative of TCR promiscuity, but rather highly specific alternative solutions to TCR engagement.