4.8 Article

IFNγ Modulates the Immunopeptidome of Triple Negative Breast Cancer Cells by Enhancing and Diversifying Antigen Processing and Presentation

Journal

FRONTIERS IN IMMUNOLOGY
Volume 12, Issue -, Pages -

Publisher

FRONTIERS MEDIA SA
DOI: 10.3389/fimmu.2021.645770

Keywords

mass spectrometry; immunopeptidomics; triple negative breast cancer; cytokine stimulation; human leukocyte antigen; transcriptomics; proteomics

Categories

Funding

  1. Australian National Health and Medical Research Council (NHMRC) [1165490, 1084283]
  2. NHMRC Principal Research Fellowship [1137739]
  3. Victorian Government Department of Health and Human Services acting through the Victorian Cancer Agency
  4. National Health and Medical Research Council of Australia [1084283, 1165490] Funding Source: NHMRC

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Peptide vaccination is a promising strategy to induce T-cell mediated tumor killing. In this study, the effect of IFN gamma on TNBC cells was analyzed, revealing a significant remodeling of the immunopeptidome with increased diversity and abundance of peptides. The results suggest that cytokine stimulation can unveil a wider range of potential HLA-I and HLA-II vaccine targets, which has important implications for personalized cancer vaccination strategies.
Peptide vaccination remains a viable approach to induce T-cell mediated killing of tumors. To identify potential T-cell targets for Triple-Negative Breast Cancer (TNBC) vaccination, we examined the effect of the pro-inflammatory cytokine interferon-gamma (IFN gamma) on the transcriptome, proteome, and immunopeptidome of the TNBC cell line MDA-MB-231. Using high resolution mass spectrometry, we identified a total of 84,131 peptides from 9,647 source proteins presented by human leukocyte antigen (HLA)-I and HLA-II alleles. Treatment with IFN gamma resulted in a remarkable remolding of the immunopeptidome, with only a 34% overlap between untreated and treated cells across the HLA-I immunopeptidome, and expression of HLA-II only detected on treated cells. IFN gamma increased the overall number, diversity, and abundance of peptides contained within the immunopeptidome, as well increasing the coverage of individual source antigens. The suite of peptides displayed under conditions of IFN gamma treatment included many known tumor associated antigens, with the HLA-II repertoire sampling 17 breast cancer associated antigens absent from those sampled by HLA-I molecules. Quantitative analysis of the transcriptome (10,248 transcripts) and proteome (6,783 proteins) of these cells revealed 229 common proteins and transcripts that were differentially expressed. Most of these represented downstream targets of IFN gamma signaling including components of the antigen processing machinery such as tapasin and HLA molecules. However, these changes in protein expression did not explain the dramatic modulation of the immunopeptidome following IFN gamma treatment. These results demonstrate the high degree of plasticity in the immunopeptidome of TNBC cells following cytokine stimulation and provide evidence that under pro-inflammatory conditions a greater variety of potential HLA-I and HLA-II vaccine targets are unveiled to the immune system. This has important implications for the development of personalized cancer vaccination strategies.

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