DNA-PK inhibition enhances neoantigen diversity and increases T cell responses to immunoresistant tumors
Allison J. Nielsen, Gabriella K. Albert, Amelia Sanchez, Jiangli Chen, Jing Liu, Andres S. Davalos, Degui Geng, Xander Bradeen, Jennifer D. Hintzsche, William Robinson, Martin McCarter, Carol Amato, Richard Tobin, Kasey Couts, Breelyn A. Wilky, Eduardo Davila
Allison J. Nielsen, Gabriella K. Albert, Amelia Sanchez, Jiangli Chen, Jing Liu, Andres S. Davalos, Degui Geng, Xander Bradeen, Jennifer D. Hintzsche, William Robinson, Martin McCarter, Carol Amato, Richard Tobin, Kasey Couts, Breelyn A. Wilky, Eduardo Davila
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Research Article Immunology Oncology

DNA-PK inhibition enhances neoantigen diversity and increases T cell responses to immunoresistant tumors

Abstract

Effective antitumor T cell activity relies on the expression and MHC presentation of tumor neoantigens. Tumor cells can evade T cell detection by silencing the transcription of antigens or by altering MHC machinery, resulting in inadequate neoantigen-specific T cell activation. We identified the DNA–protein kinase inhibitor (DNA-PKi) NU7441 as a promising immunomodulator that reduced immunosuppressive proteins, while increasing MHC-I expression in a panel of human melanoma cell lines. In tumor-bearing mice, combination therapy using NU7441 and the immune adjuvants stimulator of IFN genes (STING) ligand and the CD40 agonist NU-SL40 substantially increased and diversified the neoantigen landscape, antigen-presenting machinery, and, consequently, substantially increased both the number and repertoire of neoantigen-reactive, tumor-infiltrating lymphocytes (TILs). DNA-PK inhibition or KO promoted transcription and protein expression of various neoantigens in human and mouse melanomas and induced sensitivity to immune checkpoint blockade (ICB) in resistant tumors. In patients, protein kinase, DNA-activated catalytic subunit (PRKDC) transcript levels were inversely correlated with MHC-I expression and CD8+ TILs but positively correlated with increased neoantigen loads and improved responses to ICB. These studies suggest that inhibition of DNA-PK activity can restore tumor immunogenicity by increasing neoantigen expression and presentation and broadening the neoantigen-reactive T cell population.

Authors

Allison J. Nielsen, Gabriella K. Albert, Amelia Sanchez, Jiangli Chen, Jing Liu, Andres S. Davalos, Degui Geng, Xander Bradeen, Jennifer D. Hintzsche, William Robinson, Martin McCarter, Carol Amato, Richard Tobin, Kasey Couts, Breelyn A. Wilky, Eduardo Davila

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Figure 2

NU-SL40 treatment promotes the infiltration of activated CD8+ TILs and alters the tumor myeloid cell compartment.

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NU-SL40 treatment promotes the infiltration of activated CD8+ TILs and a...
(A) Mice with established tumors were treated as described in Figure 1A. The indicated tumor lymphoid cell populations of single-cell, viable CD3+ or CD3CD45+ cells normalized to 50,000 CD45+ cells were determined by flow cytometry. (no drug [ND]: n = 6; SL40: n = 5; NU: n = 4; NU-SL40: n = 5). **P < 0.01, by 2-way ANOVA. (B) Representative flow plots with adjunct MFI histograms and (C) pie charts representing the percentage of CD8+ TILs expressing PD-1 and/or 4-1BB across treatment groups (no drug: n = 5; SL40: n = 5; NU: n = 4; NU-SL40: n = 4). (D) Ratio of CD8+/CD4+ TILs (no drug: n = 20; SL40: n = 14; NU: n = 9; NU-SL40: n = 13). ****P < 0.0001, by 2-way ANOVA. (E) UMAP analysis of the pooled single-cell, viable CD45+ TIL populations (top panel) described in AC (CD4, CD8, NK1.1, B cells) and (bottom panel) M1- or M2-like macrophages identified as CD45+F4/80+CD11c+CD206 or CD45+F4/80+CD11cCD206; F4/80+CD45+CD11cCD206+; MDSCs: CD11b+Gr1+; DC, CD45+CD11c+MHC-II+ (no drug: n = 6; SL40: n = 5; NU: n = 4; NU-SL40: n = 5).