Macrophage Mediated Abscopal Effects of Radiation Therapy

Abstract

Radiation therapy (RT) can activate both innate and adaptive immune responses, and the combination of RT and immunotherapy is thought to be a promising strategy. We found that the "don't-eat-me" molecule CD47 is highly expressed on the surface of small cell lung cancer (SCLC) cells, a highly metastatic form of lung cancer, and that blockade of CD47 can enhance the phagocytosis of SCLC cells by macrophages. In this study, we investigated whether combining CD47 blockade and RT could synergize to inhibit the tumor growth of SCLC as well as other cancers in preclinical models. We evaluated efficacy and immune responses by RT and CD47 blockade in SCLC preclinical models as well as in colon cancer and lymphoma preclinical models. We engrafted cancer cells into both flanks of recipient mice and irradiated only one side of tumors with or without CD47 antibodies to investigate local and systemic effects of RT and CD47 blockade. We also used liver metastases models and endogenous lung tumor models to investigate anti-tumor effects and immune responses in their tumor microenvironments. In human patients, we investigated immune responses after RT using CIBERSORTx. We found CD47 blockade potently enhances the local antitumor effects of RT in all the pre-clinical models of SCLC we tested. Strikingly, CD47 blockade also stimulates systemic "abscopal" effects inhibiting non-irradiated SCLC tumors in mice receiving RT. These effects are observed in liver metastases models and endogenous lung tumor models as well as subcutaneous tumor models. Surprisingly, these abscopal effects are independent of T cells but require macrophages that migrate into non-irradiated tumor sites in response to inflammatory signals produced by RT and are locally activated by CD47 blockade to phagocytose cancer cells. Similar abscopal antitumor effects were observed in other cancer models treated with RT and CD47 blockade. We also found that RT increases tumor infiltrating macrophages in human cancer patients. Interestingly, these abscopal antitumor effects are enhanced by PD-1 blockade in some models. Our data clearly demonstrate macrophage-mediated abscopal responses of RT when combined with CD47 blockade in a range of cancer models. The systemic activation of antitumor macrophages following radiation and CD47 blockade may be particularly important in cancer patients who suffer from metastatic disease. RT is a part of standard-of-care and CD47-blocking strategies are in clinical trials, therefore our observations may be rapidly translatable to cancer patients.