Conformational isomers of a class II MHC-peptide complex in solution

Abstract

A number of kinetic measurements of peptide dissociation from class II MHC-peptide complexes provide compelling evidence for the existence of conformational isomers in solution. There is evidence that T-lymphocytes can distinguish such isomers. However, virtually nothing is known about the structure of these isomers. Accordingly, we have investigated a water-soluble version of the murine class II MHC molecule I-E k complexed with an antigenic peptide derived from pigeon cytochrome c residues 89-104 (PCC) by 19F-NMR. Two fluorine labels were placed on the PCC peptide; one fluorine label was placed at a MHC contact site, the other at a position involved in T-cell receptor (TCR) recognition. Introduction of these labels did not alter the observed kinetics of the PCC/I-E k complex. The NMR data show two conformational isomers of this immunogenic complex. The presence of conformational isomers at a TCR contact site suggests that these structures may be recognized differently by the TCR. The agreement between the dissociation kinetics and the 19F-NMR data demonstrate that kinetic heterogeneity is correlated with structural counterparts observed by NMR. Dissociations in the presence of dimethyl sulfoxide were used to show that the rate of interconversion of these conformational isomers at pH 7.0 is low, with a lifetime on the order of hours or more. Modification of a peptide residue of PCC occupying the minor MHC binding pocket P6 alters the 19F-NMR spectra of both labels. This demonstrates that distant changes of amino acid residues can influence the conformation of the whole antigenic peptide inside the MHC binding cleft.