Interferon-α promotes neo-antigen formation and preferential HLA-B-restricted antigen presentation in pancreatic β-cells.
Alexia CarréZhicheng ZhouJavier Perez-HernandezFatoumata SamassaChristiana LekkaAnthony ManganaroMasaya OshimaHanqing LiaoRobert ParkerAnnalisa NicastriBarbara BrandaoMaikel L ColliDecio L EizirikMarcus GöranssonOrlando Burgos MoralesAmanda AndersonLaurie LandryFarah KobaisiRaphael ScharfmannLorella MarselliPiero MarchettiSylvaine YouMaki NakayamaSine Reker HadrupSally C KentSarah J RichardsonNicola TernetteRoberto MallonePublished in: bioRxiv : the preprint server for biology (2023)
Interferon (IFN)-α is the earliest cytokine signature observed in individuals at risk for type 1 diabetes (T1D), but its effect on the repertoire of HLA Class I (HLA-I)-bound peptides presented by pancreatic β-cells is unknown. Using immunopeptidomics, we characterized the peptide/HLA-I presentation in in-vitro resting and IFN-α-exposed β-cells. IFN-α increased HLA-I expression and peptide presentation, including neo-sequences derived from alternative mRNA splicing, post-translational modifications - notably glutathionylation - and protein cis -splicing. This antigenic landscape relied on processing by both the constitutive and immune proteasome. The resting β-cell immunopeptidome was dominated by HLA-A-restricted ligands. However, IFN-α only marginally upregulated HLA-A and largely favored HLA-B, translating into a major increase in HLA-B-restricted peptides and into an increased activation of HLA-B-restricted vs. HLA-A-restricted CD8 + T-cells. A preferential HLA-B hyper-expression was also observed in the islets of T1D vs. non-diabetic donors, and we identified islet-infiltrating CD8 + T-cells from T1D donors reactive to HLA-B-restricted granule peptides. Thus, the inflammatory milieu of insulitis may skew the autoimmune response toward epitopes presented by HLA-B, hence recruiting a distinct T-cell repertoire that may be relevant to T1D pathogenesis.
Keyphrases
- induced apoptosis
- dendritic cells
- type diabetes
- cell cycle arrest
- immune response
- poor prognosis
- binding protein
- single cell
- heart rate
- amino acid
- stem cells
- heart rate variability
- case report
- metabolic syndrome
- cardiovascular disease
- insulin resistance
- signaling pathway
- skeletal muscle
- kidney transplantation
- cell therapy
- protein protein
- weight loss