Cyclophosphamide enhances the antitumor potency of GITR engagement by increasing oligoclonal cytotoxic T cell fitness
Daniel Hirschhorn, Allison Betof Warner, Rachana Maniyar, Andrew Chow, Levi M.B. Mangarin, Adam D. Cohen, Linda Hamadene, Gabrielle A. Rizzuto, Sadna Budhu, Nathan Suek, Cailian Liu, Alan N. Houghton, Taha Merghoub, Jedd D. Wolchok
Daniel Hirschhorn, Allison Betof Warner, Rachana Maniyar, Andrew Chow, Levi M.B. Mangarin, Adam D. Cohen, Linda Hamadene, Gabrielle A. Rizzuto, Sadna Budhu, Nathan Suek, Cailian Liu, Alan N. Houghton, Taha Merghoub, Jedd D. Wolchok
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Research Article Immunology Oncology

Cyclophosphamide enhances the antitumor potency of GITR engagement by increasing oligoclonal cytotoxic T cell fitness

Abstract

Only a subset of cancer patients responds to checkpoint blockade inhibition in the clinic. Strategies to overcome resistance are promising areas of investigation. Targeting glucocorticoid-induced tumor necrosis factor receptor–related protein (GITR) has shown efficacy in preclinical models, but GITR engagement is ineffective in controlling advanced, poorly immunogenic tumors, such as B16 melanoma, and has not yielded benefit in clinical trials. The alkylating agent cyclophosphamide (CTX) depletes regulatory T cells (Tregs), expands tumor-specific effector T cells (Teffs) via homeostatic proliferation, and induces immunogenic cell death. GITR agonism has an inhibitory effect on Tregs and activates Teffs. We therefore hypothesized that CTX and GITR agonism would promote effective antitumor immunity. Here we show that the combination of CTX and GITR agonism controlled tumor growth in clinically relevant mouse models. Mechanistically, we show that the combination therapy caused tumor cell death, clonal expansion of highly active CD8+ T cells, and depletion of Tregs by activation-induced cell death. Control of tumor growth was associated with the presence of an expanded population of highly activated, tumor-infiltrating, oligoclonal CD8+ T cells that led to a diminished TCR repertoire. Our studies show that the combination of CTX and GITR agonism is a rational chemoimmunotherapeutic approach that warrants further clinical investigation.

Authors

Daniel Hirschhorn, Allison Betof Warner, Rachana Maniyar, Andrew Chow, Levi M.B. Mangarin, Adam D. Cohen, Linda Hamadene, Gabrielle A. Rizzuto, Sadna Budhu, Nathan Suek, Cailian Liu, Alan N. Houghton, Taha Merghoub, Jedd D. Wolchok

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Figure 5

Combination therapy decreases intratumor Tregs and increases CD8/Treg ratio.

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Combination therapy decreases intratumor Tregs and increases CD8/Treg ra...
Mice were implanted with B16 on day 0 and then treated with CTX on day 8 and anti-GITR or control IgG on day 9. Additional cohorts of mice were implanted with B16 on day 8; on day 15 mice were treated with anti-GITR or IgG. After 1 week, all cohorts of mice were sacrificed, and single-cell suspensions were prepared from tumors. Asynchronous B16 challenge was needed for the CTX groups a week apart given the lack of immune infiltrates caused by chemotherapy treatment. (A) Experiment schema. (B) Absolute number of Tregs per gram of tumor per treatment group demonstrating a reduction in Tregs in the combination treatment group. (C) Ratio of total CD8+ T cells to Tregs measured by flow cytometry demonstrating an increase in the combination treatment group. (D) scRNA-Seq of CD5+ sorted T cells pooled from 5 mice for each treatment. UMAP plots for each treatment are shown for the expression of CD8a and Foxp3, demonstrating a reduction in Foxp3+ cells in the combination treated group. (E) Representative flow cytometry plots of Foxp3 versus Live/Dead viability dye from tumor cells. Cells were pregated on CD4+ T cells (left). Percentages of Foxp3+ that are Dead+ (right). (F) Differential analysis of gene expression by Tregs on selected groups analyzed by single-cell sequencing. Ordinary 1-way ANOVA with a Tukey’s multiple-comparison test was used. Symbols represent individual mice and lines represent averages ± SEM. *P < 0.05, ****P < 0.0001. Flow cytometry experiments were repeated at least twice with similar results. Gzmb, Granzyme B; FasL, Fas ligand.