Radiotherapy-exposed CD8+ and CD4+ neoantigens enhance tumor control
Claire Lhuillier, … , Silvia C. Formenti, Sandra Demaria
Claire Lhuillier, … , Silvia C. Formenti, Sandra Demaria
Published January 21, 2021
Citation Information: J Clin Invest. 2021;131(5):e138740. https://doi.org/10.1172/JCI138740.
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Research Article Immunology Oncology

Radiotherapy-exposed CD8+ and CD4+ neoantigens enhance tumor control

Abstract

Neoantigens generated by somatic nonsynonymous mutations are key targets of tumor-specific T cells, but only a small number of mutations predicted to be immunogenic are presented by MHC molecules on cancer cells. Vaccination studies in mice and patients have shown that the majority of neoepitopes that elicit T cell responses fail to induce significant antitumor activity, for incompletely understood reasons. We report that radiotherapy upregulates the expression of genes containing immunogenic mutations in a poorly immunogenic mouse model of triple-negative breast cancer. Vaccination with neoepitopes encoded by these genes elicited CD8+ and CD4+ T cells that, whereas ineffective in preventing tumor growth, improved the therapeutic efficacy of radiotherapy. Mechanistically, neoantigen-specific CD8+ T cells preferentially killed irradiated tumor cells. Neoantigen-specific CD4+ T cells were required for the therapeutic efficacy of vaccination and acted by producing Th1 cytokines, killing irradiated tumor cells, and promoting epitope spread. Such a cytotoxic activity relied on the ability of radiation to upregulate class II MHC molecules as well as the death receptors FAS/CD95 and DR5 on the surface of tumor cells. These results provide proof-of-principle evidence that radiotherapy works in concert with neoantigen vaccination to improve tumor control.

Authors

Claire Lhuillier, Nils-Petter Rudqvist, Takahiro Yamazaki, Tuo Zhang, Maud Charpentier, Lorenzo Galluzzi, Noah Dephoure, Cristina C. Clement, Laura Santambrogio, Xi Kathy Zhou, Silvia C. Formenti, Sandra Demaria

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Figure 2

Identification of immunogenic neoepitopes in 4T1 cells.

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Identification of immunogenic neoepitopes in 4T1 cells. (A) Experimental...
(A) Experimental procedure. Mice were vaccinated twice with adjuvant alone, or with a combination of 2 neoepitopes binding to different alleles of MHC-I or MHC-II to avoid competition (75 μg each), as indicated (n = 4 per group). One week after the second vaccination, spleen and vaccine-draining lymph nodes were harvested and single-cell suspensions prepared for ex vivo stimulation experiments. (BE) Flow cytometry analysis of IFN-γ+TNF-α+ cells among CD8+ (B and C) or CD4+ (D and E) T cells from mice vaccinated as indicated in A and stimulated ex vivo with each peptide individually or in combination. Representative flow cytometry plots of IFN-γ/TNF-α intracellular staining in CD8+ (C) or CD4+ (E) T cells are shown after gating on viable CD3+ T cells. *P < 0.05, with Kruskal-Wallis and Dunn’s multiple-comparison tests. (F) Dose-response MHC-I binding assay comparing mutated and nonmutated (WT) DHX58 and CAND1 epitopes. RMA-S-Kd (left) or RMA-S-Ld (right) cells were incubated with increasing concentrations of the peptides for 2 hours before determination of H2-Kd or H2-Ld MFI by flow cytometry and normalization as in Figure 1C.