Showing papers by "Lutz Schmitt published in 1998"

Kinetic isomers of a class II MHC-peptide complex.

Abstract: Class II major histocompatibility (MHC) molecules bind fragments of antigens and present them to T cells. The triggering of the T-cell receptor (TCR) of CD4(+) T-helper cells by these protein-peptide complexes is a key event in the generation of a cellular immune response. In the context of this interaction, it is generally assumed that class II MHC-peptide complexes adopt a single recognition structure at the cell surface. On the other hand, kinetic analysis has revealed that a number of class II MHC-peptide complexes show biphasic dissociation kinetics, indicating the presence of multiple kinetic isomers. Here, we demonstrate that a water-soluble version of the murine class II MHC molecule I-Ek complexed with an antigenic peptide derived from pigeon cytochrome c (PCC) displays monophasic as well as biphasic dissociation kinetics. While a simple monophasic dissociation curve was obtained at neutral pH, the complex showed biphasic dissociation behavior at acidic pH. This shift was independent of the ionic strength of the solution. Moreover, the short-lived isomer could be regenerated from a pool of kinetically homogeneous long-lived complexes. This demonstrates that the isomers interconvert and exist in a pH-sensitive equilibrium. Altering the peptide residue of PCC that occupies the P6 pocket of I-Ek results in a class II MHC-peptide complex that shows only monophasic dissociation, indicating that the glutamine at this position plays a key role in the kinetic heterogeneity of the complex.