Unannotated proteins expand the MHC-I-restricted immunopeptidome in cancer.
Tamara OuspenskaiaTravis LawKarl R ClauserSusan KlaegerSiranush SarkizovaFrançois AguetBo LiElena ChristianBinyamin Asher KnisbacherPhuong M LeChristina R HartiganHasmik KeshishianAnnie ApffelGiacomo OliveiraWandi ZhangSarah ChenYuen Ting ChowZhe JiIrwin JungreisSachet A ShuklaSune JustesenPavan BachireddyManolis KellisGad A GetzNir HacohenDerin B KeskinSteven A CarrCatherine J WuAviv RegevPublished in: Nature biotechnology (2021)
Tumor-associated epitopes presented on MHC-I that can activate the immune system against cancer cells are typically identified from annotated protein-coding regions of the genome, but whether peptides originating from novel or unannotated open reading frames (nuORFs) can contribute to antitumor immune responses remains unclear. Here we show that peptides originating from nuORFs detected by ribosome profiling of malignant and healthy samples can be displayed on MHC-I of cancer cells, acting as additional sources of cancer antigens. We constructed a high-confidence database of translated nuORFs across tissues (nuORFdb) and used it to detect 3,555 translated nuORFs from MHC-I immunopeptidome mass spectrometry analysis, including peptides that result from somatic mutations in nuORFs of cancer samples as well as tumor-specific nuORFs translated in melanoma, chronic lymphocytic leukemia and glioblastoma. NuORFs are an unexplored pool of MHC-I-presented, tumor-specific peptides with potential as immunotherapy targets.
Keyphrases
- papillary thyroid
- immune response
- squamous cell
- mass spectrometry
- amino acid
- squamous cell carcinoma
- dendritic cells
- childhood cancer
- dna methylation
- toll like receptor
- inflammatory response
- risk assessment
- wastewater treatment
- climate change
- copy number
- high performance liquid chromatography
- electronic health record