[HTML][HTML] Real time detection of peptide–MHC dissociation reveals that improvement of primary MHC-binding residues can have a minimal, or no, effect on stability

KM Miles, JJ Miles, F Madura, AK Sewell, DK Cole - Molecular immunology, 2011 - Elsevier
KM Miles, JJ Miles, F Madura, AK Sewell, DK Cole
Molecular immunology, 2011Elsevier
The majority of known major histocompatibility complex class I (MHCI)-associated tumor-
derived peptide antigens do not contain an optimal motif for MHCI binding. As a result,
anchor residue-modified 'heteroclitic'peptides have been widely used in therapeutic cancer
vaccination trials in order to enhance immune responsiveness. In general, the improved
stability of these heteroclitic complexes has been inferred from their improved
immunogenicity but has not been formally assessed. Here, we investigated the binding of 4 …
The majority of known major histocompatibility complex class I (MHCI)-associated tumor-derived peptide antigens do not contain an optimal motif for MHCI binding. As a result, anchor residue-modified ‘heteroclitic’ peptides have been widely used in therapeutic cancer vaccination trials in order to enhance immune responsiveness. In general, the improved stability of these heteroclitic complexes has been inferred from their improved immunogenicity but has not been formally assessed. Here, we investigated the binding of 4 HLA A*0201-restricted tumor-derived peptides and their commonly used heteroclitic variants. We utilized a cell surface binding assay and a novel robust method for testing the durability of soluble recombinant pMHCI in real time by surface plasmon resonance. Surprisingly, we show that heteroclitic peptides designed with optimal MHC binding motifs do not always form pMHCs that are substantially more stable than their wildtype progenitors. These findings, combined with our recent discovery that TCRs can distinguish between wildtype peptides and those altered at a primary buried MHC anchor residue, suggest that altered TCR binding may account for a large part of the increased immune response that can be generated by anchor residue-modified ligands. Our results further highlight the fact that heteroclitic peptide-based immune interventions require careful evaluation to ensure that wildtype antigen specificity is maintained in vivo.
Elsevier