| Literature DB >> 25645385 |
Antonia L Pritchard1, Marcus L Hastie, Michelle Neller, Jeffrey J Gorman, Chris W Schmidt, Nicholas K Hayward.
Abstract
Advancements in high-resolution HPLC and mass spectrometry have reinvigorated the application of this technology to identify peptides eluted from immunopurified MHC class I molecules. Three melanoma cell lines were assessed using w6/32 isolation, peptide elution and HPLC purification; peptides were identified by mass spectrometry. A total of 13,829 peptides were identified; 83-87% of these were 8-11 mers. Only approximately 15% have been described before. Subcellular locations of the source proteins showed even sampling; mRNA expression and total protein length were predictive of the number of peptides detected from a single protein. HLA-type binding prediction for 10,078 9/10 mer peptides assigned 88-95% to a patient-specific HLA subtype, revealing a disparity in strength of predicted binding. HLA-B*27-specific isolation successfully identified some peptides not found using w6/32. Sixty peptides were selected for immune screening, based on source protein and predicted HLA binding; no new peptides recognized by antimelanoma T cells were discovered. Additionally, mass spectrometry was unable to identify several epitopes targeted ex vivo by one patient's T cells.Entities:
Keywords: MHC class I; antigen; epitope; mass spectrometry; melanoma; peptide; proteome
Mesh:
Substances:
Year: 2015 PMID: 25645385 DOI: 10.1111/pcmr.12357
Source DB: PubMed Journal: Pigment Cell Melanoma Res ISSN: 1755-1471 Impact factor: 4.693