Abstract
The presentation of post-translationally modified (PTM) peptides by cell surface HLA molecules has the potential to increase the diversity of targets for surveilling T cells. Although immunopeptidomics studies routinely identify thousands of HLA-bound peptides from cell lines and tissue samples, in-depth analyses of the proportion and nature of peptides bearing one or more PTMs remains challenging. Here we have analyzed HLA-bound peptides from a variety of allotypes and assessed the distribution of mass spectrometry-detected PTMs, finding deamidation of asparagine or glutamine to be highly prevalent. Given that asparagine deamidation may arise either spontaneously or through enzymatic reaction, we assessed allele-specific and global motifs flanking the modified residues. Notably, we found that the N-linked glycosylation motif NX(S/T) was highly abundant across asparagine-deamidated HLA-bound peptides. This finding, demonstrated previously for a handful of deamidated T cell epitopes, implicates a more global role for the retrograde transport of nascently N-glycosylated polypeptides from the ER and their subsequent degradation within the cytosol to form HLA-ligand precursors. Chemical inhibition of Peptide:N-Glycanase (PNGase), the endoglycosidase responsible for the removal of glycans from misfolded and retrotranslocated glycoproteins, greatly reduced presentation of this subset of deamidated HLA-bound peptides. Importantly, there was no impact of PNGase inhibition on peptides not containing a consensus NX(S/T) motif. This indicates that a large proportion of HLA-I bound asparagine deamidated peptides are generated from formerly glycosylated proteins that have undergone deglycosylation via the ER-associated protein degradation (ERAD) pathway. The information herein will help train deamidation prediction models for HLA-peptide repertoires and aid in the design of novel T cell therapeutic targets derived from glycoprotein antigens.
Highlights
The presentation of post-translationally modified (PTM) peptides by cell surface human leukocyte antigen (HLA) molecules has the potential to increase the diversity of targets for surveilling T cells
PTM Profile of Peptides Presented by Various HLA Allotypes—We investigated the prevalence of PTMs presented by three common HLA-A allotypes using C1R cell lines expressing HLA-A*01:01, -A*02:01 or -A*24:02
HLA-peptide complexes were purified by immunoaffinity capture, bound peptides eluted by mild acid treatment and sequenced by liquid chromatography coupled to high-resolution mass spectrometry
Summary
A predominance of HLA-I bound Asn deamidated peptides have been found to be generated through the ERAD pathway by quantitative MS-based proteomics. Subsequent blocking of PNGase activity confirmed the prevalent role of deglycosylation of NX(S/T)-bearing antigenic precursors in the generation of asparagine-deamidated HLA ligands This mechanism is known for a handful of deamidated T cell epitopes [6, 7, 27,28,29,30,31], these data indicate that the immunopeptidome is substantially enriched for peptides derived from formerly glycosylated proteins and those that have been retro-translocated from the ER and targeted for deglycosylation and degradation in the cytoplasm. Our data highlights a relatively unappreciated surveillance mechanism for glycoprotein antigens via the HLA-I antigen presentation pathway
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