An endogenously processed self peptide and the corresponding exogenous peptide bound to the same MHC class II molecule could be distinct ligands for TCR with different kinetic stability.

Immunization with self peptides often elicits activation of CD4+ T cells in vivo. Although such peptides have been suggested to be derived from minor self determinants or self antigens sequestered from the immune system, we found that immunization with Ealpha peptide (Ealpha52-68), a major self determinant bound to I-Ab molecules, elicits an immune response in Ealpha-transgenic C57BL/6 (Ealpha-B6) mice where Ealpha52-68 is endogenously processed and presented by I-Ab molecules in the thymus and periphery. To better understand this response, a panel of T cell hybridomas raised against exogenous Ealpha52-68 were analyzed for their reactivity to spleen cells from Ealpha-B6 mice. Some hybridomas were stimulated with Ealpha-B6 spleen cells in the absence of exogenous Ealpha52-68, whereas others were not stimulated with them. The Ealpha52-68/I-Ab complex recognized by the TCR that is expressed on the hybridoma with reactivity to Ealpha-B6 spleen cells was found to be quite stable, whereas the complex recognized by the TCR on the hybridoma specific for the exogenous Ealpha52-68 lost the stimulation activity by incubation the complex at 37 degrees C for 10 min. Stimulation experiments using extensively substituted Ealpha analogue peptides suggested that amino acid residues at positions 57, 58, 60 and 62 of Ealpha52-68 are involved in the interaction with TCR recognizing the Ealpha52-68/I-Ab complex expressed on Ealpha-B6 spleen cells. While amino acid substitutions at positions 60 and 62 also affected the recognition of TCR specific for exogenous Ealpha52-68, all or many amino acid substitutions were allowed at position 58 or 57, respectively, without impairing the TCR recognition. Taken together, these results suggest that endogenously processed self peptide and the corresponding exogenous peptide bound to the same MHC class II molecule could be distinct TCR ligands with different kinetic stability and probably with different configuration.