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Usage Information

Potentiating the radiation-induced type I interferon antitumoral immune response by ATM inhibition in pancreatic cancer
Qiang Zhang, Long Jiang, Weiwei Wang, Amanda K. Huber, Victoria M. Valvo, Kassidy M. Jungles, Erin A. Holcomb, Ashley N. Pearson, Stephanie The, Zhuwen Wang, Leslie A. Parsels, Joshua D. Parsels, Daniel R. Wahl, Arvind Rao, Vaibhav Sahai, Theodore S. Lawrence, Michael D. Green, Meredith A. Morgan
Qiang Zhang, Long Jiang, Weiwei Wang, Amanda K. Huber, Victoria M. Valvo, Kassidy M. Jungles, Erin A. Holcomb, Ashley N. Pearson, Stephanie The, Zhuwen Wang, Leslie A. Parsels, Joshua D. Parsels, Daniel R. Wahl, Arvind Rao, Vaibhav Sahai, Theodore S. Lawrence, Michael D. Green, Meredith A. Morgan
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Research Article Oncology

Potentiating the radiation-induced type I interferon antitumoral immune response by ATM inhibition in pancreatic cancer

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Abstract

Radiotherapy induces a type I interferon–mediated (T1IFN-mediated) antitumoral immune response that we hypothesized could be potentiated by a first-in-class ataxia telangiectasia mutated (ATM) inhibitor, leading to enhanced innate immune signaling, T1IFN expression, and sensitization to immunotherapy in pancreatic cancer. We evaluated the effects of AZD1390 or a structurally related compound, AZD0156, on innate immune signaling and found that both inhibitors enhanced radiation-induced T1IFN expression via the POLIII/RIG-I/MAVS pathway. In immunocompetent syngeneic mouse models of pancreatic cancer, ATM inhibitor enhanced radiation-induced antitumoral immune responses and sensitized tumors to anti–PD-L1, producing immunogenic memory and durable tumor control. Therapeutic responses were associated with increased intratumoral CD8+ T cell frequency and effector function. Tumor control was dependent on CD8+ T cells, as therapeutic efficacy was blunted in CD8+ T cell–depleted mice. Adaptive immune responses to combination therapy provided systemic control of contralateral tumors outside of the radiation field. Taken together, we show that a clinical candidate ATM inhibitor enhances radiation-induced T1IFN, leading to both innate and subsequent adaptive antitumoral immune responses and sensitization of otherwise resistant pancreatic cancer to immunotherapy.

Authors

Qiang Zhang, Long Jiang, Weiwei Wang, Amanda K. Huber, Victoria M. Valvo, Kassidy M. Jungles, Erin A. Holcomb, Ashley N. Pearson, Stephanie The, Zhuwen Wang, Leslie A. Parsels, Joshua D. Parsels, Daniel R. Wahl, Arvind Rao, Vaibhav Sahai, Theodore S. Lawrence, Michael D. Green, Meredith A. Morgan

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Usage data is cumulative from July 2025 through July 2026.

Usage JCI PMC
Text version 2,046 277
PDF 265 75
Figure 684 0
Supplemental data 309 10
Citation downloads 240 0
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