ATR kinase inhibitor AZD6738 potentiates CD8+ T cell–dependent antitumor activity following radiation
Frank P. Vendetti, Pooja Karukonda, David A. Clump, Troy Teo, Ronald Lalonde, Katriana Nugent, Matthew Ballew, Brian F. Kiesel, Jan H. Beumer, Saumendra N. Sarkar, Thomas P. Conrads, Mark J. O’Connor, Robert L. Ferris, Phuoc T. Tran, Greg M. Delgoffe, Christopher J. Bakkenist
Frank P. Vendetti, Pooja Karukonda, David A. Clump, Troy Teo, Ronald Lalonde, Katriana Nugent, Matthew Ballew, Brian F. Kiesel, Jan H. Beumer, Saumendra N. Sarkar, Thomas P. Conrads, Mark J. O’Connor, Robert L. Ferris, Phuoc T. Tran, Greg M. Delgoffe, Christopher J. Bakkenist
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Research Article Immunology Oncology

ATR kinase inhibitor AZD6738 potentiates CD8+ T cell–dependent antitumor activity following radiation

Abstract

DNA-damaging chemotherapy and radiation therapy are integrated into the treatment paradigm of the majority of cancer patients. Recently, immunotherapy that targets the immunosuppressive interaction between programmed death 1 (PD-1) and its ligand PD-L1 has been approved for malignancies including non–small cell lung cancer, melanoma, and head and neck squamous cell carcinoma. ATR is a DNA damage–signaling kinase activated at damaged replication forks, and ATR kinase inhibitors potentiate the cytotoxicity of DNA-damaging chemotherapies. We show here that the ATR kinase inhibitor AZD6738 combines with conformal radiation therapy to attenuate radiation-induced CD8+ T cell exhaustion and potentiate CD8+ T cell activity in mouse models of Kras-mutant cancer. Mechanistically, AZD6738 blocks radiation-induced PD-L1 upregulation on tumor cells and dramatically decreases the number of tumor-infiltrating Tregs. Remarkably, AZD6738 combines with conformal radiation therapy to generate immunologic memory in complete responder mice. Our work raises the possibility that a single pharmacologic agent may enhance the cytotoxic effects of radiation while concurrently potentiating radiation-induced antitumor immune responses.

Authors

Frank P. Vendetti, Pooja Karukonda, David A. Clump, Troy Teo, Ronald Lalonde, Katriana Nugent, Matthew Ballew, Brian F. Kiesel, Jan H. Beumer, Saumendra N. Sarkar, Thomas P. Conrads, Mark J. O’Connor, Robert L. Ferris, Phuoc T. Tran, Greg M. Delgoffe, Christopher J. Bakkenist

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Figure 8

AZD6738 plus radiation generates a CD8+ T cell–dependent response in KrasG12D/Twist1 lung adenocarcinoma.

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AZD6738 plus radiation generates a CD8+ T cell–dependent response in Kra...
(A) Schematic showing schedules of hemithoracic radiation (IR), AZD6738, and micro-CT scans. (B) Response of lung tumors over time. Data represent mean percentage tumor volume change from day 0 (± SEM). n (tumors/mice) = 7/3 vehicle, 8/4 AZD6738, 9/4 IR, 7/4 AZD6738 + IR (5/3 day 21). (C) Percent tumor volume change at day 35. n (tumors/mice) = 11/5 vehicle, 15/7 AZD6738, 12/6 IR, 14/8 AZD6738 + IR. (D) Percent tumor volume change at day 35 in CD8-depleted mice (250 μg anti-CD8 antibody [αCD8] administered days 3, 6, 10, and 13). n (tumors/mice) = 10/4 vehicle + αCD8, 10/5 AZD6738 + αCD8, 12/6 IR + αCD8, 13/6 AZD6738 + IR + αCD8. (C and D) Mean and SD bars shown. *P < 0.05, ***P < 0.001, ****P < 0.0001, ANOVA with Holm-Šidák multiple-comparisons test. Statistical significance shown only for comparisons with AZD6738 + IR (C) or AZD6738 + αCD8 + IR (D). (E) Schematic showing schedules of hemithoracic IR, AZD6738, and pulmonary-infiltrating lymphocyte (PIL) profiling. (F) Quantitation of splenic and PIL proliferating (Ki67+) Tregs at day 5 following AZD6738 treatment, compared with untreated control. (G) Quantitation of splenic and PIL proliferating (Ki67+) CD8+CD44+ T cells at day 9 following treatment with IR or AZD6738 plus IR, compared with untreated control. (F and G) Data from 1 (IR/AZD6738 + IR, day 9 only), 2 (AZD6738, day 5 only), or 3 (untreated) independent experiments, with 1–5 mice per arm per experiment. n = 4 untreated, 5 AZD6738, 4 IR, 5 AZD6738 + IR. Mean and SD bars shown. (F) **P < 0.01, unpaired, 2-tailed t test. (G) *P < 0.05, ANOVA with Tukey’s multiple-comparisons test. Brackets not shown for comparisons that were not statistically significant.