Recent structural analysis of the peptide-MHC complex reveals that an
antigenic peptide binds to MHC in only one conformation and that side
chains anchoring in the binding pocket would not contact TCR. The iden
tification of all the MHC-anchoring residues on an antigenic peptide i
s a prerequisite to understand how a given peptide interacts with the
TCR. In a combination of binding analysis and model simulation, model
peptide lambda repressor cl 16-26 was shown to bind to I-E(k) through
four anchor residues (Leu18, ile21, Glu23 and Lys26), a pattern found
in many I-E(k)-binding peptides. TCR reactivity analysis clearly indic
ates a great variation in the interaction with cl 16-26 by T cells gen
erated from different strains of I-E(k)-bearing mice, Most of the T ce
lls generated from A/J mice reacted with the central region of cl 16-2
6, while there is a great diversity on the recognition of cl 16-26 by
T cells from C3H and B10,BR mice. Despite the diverse interactions wit
h antigenic peptide by these T cells, most TCR-I-E(k) contacts are lim
ited to the central region of the I-E(k) beta-chain. T cells recognizi
ng only the N-terminal part of cl 16-26 were found to contact I-E(k) a
t nearly the same residues as T cells interacting with the C-terminal
of cl 16-26, TCR-I-E(k) recognition was apparently independent of TCR-
cl 16-26 contact. The discordant TCR-peptide and TCR-MHC interactions
may represent a unique feature of TCR recognition.