MEK inhibition enhances presentation of targetable MHC-I tumor antigens in mutant melanomas

MEK inhibition enhances presentation of targetable MHC-I tumor antigens in mutant melanomas

Combining multiple therapeutic strategies in NRAS/BRAF mutant melanoma-namely MEK/BRAF kinase inhibitors, immune checkpoint inhibitors (ICIs), and targeted immunotherapies-may offer an improved survival benefit by overcoming limitations associated with any individual therapy. Still, optimal combinat...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS Vol. 119; no. 49; p. e2208900119
Main Authors: Stopfer, Lauren E, Rettko, Nicholas J, Leddy, Owen, Mesfin, Joshua M, Brown, Eric, Winski, Shannon, Bryson, Bryan, Wells, James A, White, Forest M
Format: Journal Article
Language:English
Published: United States National Academy of Sciences 06-12-2022
Subjects:
Antibodies
Antigen (tumor-associated)
Antigen presentation
Antigens
Antigens, Neoplasm - genetics
Biological Sciences
Epitopes
Humans
Immune checkpoint inhibitors
Immunotherapy
Inhibitors
Kinases
Lymphocytes
Lymphocytes T
Major histocompatibility complex
Melanoma
Melanoma - drug therapy
Melanoma - genetics
Mitogen-Activated Protein Kinase Kinases - genetics
Mutants
Proto-Oncogene Proteins B-raf - genetics
Tumor cells
ligandomics
MHC
melanoma
antigen presentation
immunopeptidomics
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Summary:Combining multiple therapeutic strategies in NRAS/BRAF mutant melanoma-namely MEK/BRAF kinase inhibitors, immune checkpoint inhibitors (ICIs), and targeted immunotherapies-may offer an improved survival benefit by overcoming limitations associated with any individual therapy. Still, optimal combination, order, and timing of administration remains under investigation. Here, we measure how MEK inhibition (MEKi) alters anti-tumor immunity by utilizing quantitative immunopeptidomics to profile changes in the peptide major histocompatibility molecules (pMHC) repertoire. These data reveal a collection of tumor antigens whose presentation levels are selectively augmented following therapy, including several epitopes present at over 1,000 copies per cell. We leveraged the tunable abundance of MEKi-modulated antigens by targeting four epitopes with pMHC-specific T cell engagers and antibody drug conjugates, enhancing cell killing in tumor cells following MEK inhibition. These results highlight drug treatment as a means to enhance immunotherapy efficacy by targeting specific upregulated pMHCs and provide a methodological framework for identifying, quantifying, and therapeutically targeting additional epitopes of interest.
Bibliography:1L.E.S. and N.J.R. contributed equally to this work.
Edited by Philippa Marrack, National Jewish Health, Denver, CO; received May 23, 2022; accepted October 28, 2022
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.2208900119