4.7 Article

Combination of radiation therapy, bempegaldesleukin, and checkpoint blockade eradicates advanced solid tumors and metastases in mice

Journal

JOURNAL FOR IMMUNOTHERAPY OF CANCER
Volume 9, Issue 6, Pages -

Publisher

BMJ PUBLISHING GROUP
DOI: 10.1136/jitc-2021-002715

Keywords

radiotherapy; cytokines; combined modality therapy; translational medical research; costimulatory and inhibitory T-cell receptors

Funding

  1. Midwest Athletes Against Childhood Cancer
  2. Stand Up 2 Cancer
  3. St. Baldrick's Foundation
  4. Crawdaddy Foundation
  5. University of Wisconsin Carbone Cancer Center
  6. public health service from National Cancer Institute, the National Institutes of Health (NIH) [TR002373, U54-CA232568, R35-CA197078, 5K08CA241319, 1DP5OD024576, U01-CA2331 02, P50 DE026787, P01 CA250972]
  7. Department of Health and Human Services
  8. NIH [TL1 TR002375]
  9. NIH-NCI [F30CA228315]

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The combination of local RT and BEMPEG showed a cooperative antitumor effect in multiple immunologically 'cold' tumor models, along with increased IL-2 receptor expression on peripheral T cells. Adding immune checkpoint blockade to RT+BEMPEG further strengthened the antitumor response in some models.
Background Current clinical trials are using radiation therapy (RT) to enhance an antitumor response elicited by high-dose interleukin (IL)-2 therapy or immune checkpoint blockade (ICB). Bempegaldesleukin (BEMPEG) is an investigational CD122-preferential IL-2 pathway agonist with prolonged in vivo half-life and preferential intratumoral expansion of T effector cells over T regulatory cells. BEMPEG has shown encouraging safety and efficacy in clinical trials when used in combination with PD-1 checkpoint blockade. In this study, we investigated the antitumor effect of local RT combined with BEMPEG in multiple immunologically 'cold' tumor models. Additionally, we asked if ICB could further enhance the local and distant antitumor effect of RT+BEMPEG in the setting of advanced solid tumors or metastatic disease. Methods Mice bearing flank tumors (B78 melanoma, 4T1 breast cancer, or MOC2 head and neck squamous cell carcinoma) were treated with combinations of RT and immunotherapy (including BEMPEG, high-dose IL-2, anti(alpha)-CTLA-4, and alpha-PD-L1). Mice bearing B78 flank tumors were injected intravenously with B16 melanoma cells to mimic metastatic disease and were subsequently treated with RT and/or immunotherapy. Tumor growth and survival were monitored. Peripheral T cells and tumor-infiltrating lymphocytes were assessed via flow cytometry. Results A cooperative antitumor effect was observed in all models when RT was combined with BEMPEG, and RT increased IL-2 receptor expression on peripheral T cells. This cooperative interaction was associated with increased IL-2 receptor expression on peripheral T cells following RT. In the B78 melanoma model, RT+BEMPEG resulted in complete tumor regression in the majority of mice with a single similar to 400 mm(3) tumor. This antitumor response was T-cell dependent and supported by long-lasting immune memory. Adding ICB to RT+BEMPEG strengthened the antitumor response and cured the majority of mice with a single similar to 1000 mm(3) B78 tumor. In models with disseminated metastasis (B78 primary with B16 metastasis, 4T1, and MOC2), the triple combination of RT, BEMPEG, and ICB significantly improved primary tumor response and survival. Conclusion The combination of local RT, BEMPEG, and ICB cured mice with advanced, immunologically cold tumors and distant metastasis in a T cell-dependent manner, suggesting this triple combination warrants clinical testing.

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