Abstract
Class II MHC molecules display peptides on the cell surface for the surveillance by CD4+ T cells. To ensure that these ligands accurately reflect the content of the intracellular MHC loading compartment, a complex processing pathway has evolved that delivers only stable peptide/MHC complexes to the surface. As additional safeguard, MHC molecules quickly acquire a ‘non-receptive’ state once they have lost their ligand. Here we show now that amino acid side chains of short peptides can bypass these safety mechanisms by triggering the reversible ligand-exchange. The catalytic activity of dipeptides such as Tyr-Arg was stereo-specific and could be enhanced by modifications addressing the conserved H-bond network near the P1 pocket of the MHC molecule. It affected both antigen-loading and ligand-release and strictly correlated with reported anchor preferences of P1, the specific target site for the catalytic side chain of the dipeptide. The effect was evident also in CD4+ T cell assays, where the allele-selective influence of the dipeptides translated into increased sensitivities of the antigen-specific immune response. Molecular dynamic calculations support the hypothesis that occupation of P1 prevents the ‘closure’ of the empty peptide binding site into the non-receptive state. During antigen-processing and -presentation P1 may therefore function as important “sensor” for peptide-load. While it regulates maturation and trafficking of the complex, on the cell surface, short protein fragments present in blood or lymph could utilize this mechanism to alter the ligand composition on antigen presenting cells in a catalytic way.
Highlights
The endosomal route is considered to be the default pathway for the loading of class II MHC molecules
Our experimental data show that short peptide fragments can influence the ligand composition of class II MHC molecules in a catalytic way
Mutational analysis indicated already that the occupation of pocket P1 is crucial for the catalytic effect of organic MHC-loading enhancers’ (MLE) compounds [12]
Summary
The endosomal route is considered to be the default pathway for the loading of class II MHC molecules. Experiments with fixed cells or MHC expressing cells lacking key components of the processing pathway indicate that MHC loading can take place directly on the cell surface. This applies for optimally sized peptides and for larger polypeptide chains or even full-length proteins [3,4,5]. In particular immature dendritic cells (DC) could utilize this pathway These DC contain a large fraction of ‘empty’ class II MHC molecules on the cell surface, which may allow the direct capturing of antigens from the extracellular space [6,7]
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