Anaïs Assouvie, Marine Gerbé De Thoré, Claire Torres, Véronique Ménard, Alexia Alfaro, Eric Deutsch, Michele Mondini, Germain Rousselet
{"title":"通过干扰素 beta 依赖性抗肿瘤免疫反应,删除骨髓细胞中的 Trim33 可提高放疗效率。","authors":"Anaïs Assouvie, Marine Gerbé De Thoré, Claire Torres, Véronique Ménard, Alexia Alfaro, Eric Deutsch, Michele Mondini, Germain Rousselet","doi":"10.1158/2326-6066.CIR-24-0026","DOIUrl":null,"url":null,"abstract":"<p><p>Radiotherapy (RT) triggers an immune response that contributes to anti-tumor effects. Induction of interferon beta (IFN-β) is a key event in this immunogenicity of RT. We have previously shown that TRIM33, a chromatin reader, restrains IFN-β expression in Toll-like receptor-activated myeloid cells. Here, we explored whether deleting Trim33 in myeloid cells might improve the radio-induced immune response, and subsequent efficiency of RT. We first established that Trim33-/- bone marrow-derived macrophages showed increased expression of IFN-β in response to direct irradiation, or to treatment with irradiated cancer cells, further supporting our hypothesis. We then tested the efficiency of a single dose RT in three subcutaneous and one orthotopic tumor models. In all situations, myeloid deletion of Trim33 led to a significantly improved response after RT, leading to a complete and durable response in most of the treated mice bearing orthotopic oral tumors. This effect required the IFN-I pathway, and the presence of CD8+ T lymphocytes, but not NK cells. In addition, cured mice were capable of rejecting a secondary tumor challenge, demonstrating an in situ vaccination effect. We conclude that deleting Trim33 in myeloid cells improves RT efficiency, through a mechanism involving the IFN-I pathway and the immune response. Our work suggests that myeloid Trim33 is a host factor affecting the tumor response to RT, thus representing a new potential therapeutic target for modifying RT responses.</p>","PeriodicalId":9474,"journal":{"name":"Cancer immunology research","volume":" ","pages":""},"PeriodicalIF":8.1000,"publicationDate":"2024-09-26","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Deleting Trim33 in myeloid cells improves the efficiency of radiotherapy through an interferon beta dependent anti-tumor immune response.\",\"authors\":\"Anaïs Assouvie, Marine Gerbé De Thoré, Claire Torres, Véronique Ménard, Alexia Alfaro, Eric Deutsch, Michele Mondini, Germain Rousselet\",\"doi\":\"10.1158/2326-6066.CIR-24-0026\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Radiotherapy (RT) triggers an immune response that contributes to anti-tumor effects. Induction of interferon beta (IFN-β) is a key event in this immunogenicity of RT. We have previously shown that TRIM33, a chromatin reader, restrains IFN-β expression in Toll-like receptor-activated myeloid cells. Here, we explored whether deleting Trim33 in myeloid cells might improve the radio-induced immune response, and subsequent efficiency of RT. We first established that Trim33-/- bone marrow-derived macrophages showed increased expression of IFN-β in response to direct irradiation, or to treatment with irradiated cancer cells, further supporting our hypothesis. We then tested the efficiency of a single dose RT in three subcutaneous and one orthotopic tumor models. In all situations, myeloid deletion of Trim33 led to a significantly improved response after RT, leading to a complete and durable response in most of the treated mice bearing orthotopic oral tumors. This effect required the IFN-I pathway, and the presence of CD8+ T lymphocytes, but not NK cells. In addition, cured mice were capable of rejecting a secondary tumor challenge, demonstrating an in situ vaccination effect. We conclude that deleting Trim33 in myeloid cells improves RT efficiency, through a mechanism involving the IFN-I pathway and the immune response. 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Deleting Trim33 in myeloid cells improves the efficiency of radiotherapy through an interferon beta dependent anti-tumor immune response.
Radiotherapy (RT) triggers an immune response that contributes to anti-tumor effects. Induction of interferon beta (IFN-β) is a key event in this immunogenicity of RT. We have previously shown that TRIM33, a chromatin reader, restrains IFN-β expression in Toll-like receptor-activated myeloid cells. Here, we explored whether deleting Trim33 in myeloid cells might improve the radio-induced immune response, and subsequent efficiency of RT. We first established that Trim33-/- bone marrow-derived macrophages showed increased expression of IFN-β in response to direct irradiation, or to treatment with irradiated cancer cells, further supporting our hypothesis. We then tested the efficiency of a single dose RT in three subcutaneous and one orthotopic tumor models. In all situations, myeloid deletion of Trim33 led to a significantly improved response after RT, leading to a complete and durable response in most of the treated mice bearing orthotopic oral tumors. This effect required the IFN-I pathway, and the presence of CD8+ T lymphocytes, but not NK cells. In addition, cured mice were capable of rejecting a secondary tumor challenge, demonstrating an in situ vaccination effect. We conclude that deleting Trim33 in myeloid cells improves RT efficiency, through a mechanism involving the IFN-I pathway and the immune response. Our work suggests that myeloid Trim33 is a host factor affecting the tumor response to RT, thus representing a new potential therapeutic target for modifying RT responses.
期刊介绍:
Cancer Immunology Research publishes exceptional original articles showcasing significant breakthroughs across the spectrum of cancer immunology. From fundamental inquiries into host-tumor interactions to developmental therapeutics, early translational studies, and comprehensive analyses of late-stage clinical trials, the journal provides a comprehensive view of the discipline. In addition to original research, the journal features reviews and opinion pieces of broad significance, fostering cross-disciplinary collaboration within the cancer research community. Serving as a premier resource for immunology knowledge in cancer research, the journal drives deeper insights into the host-tumor relationship, potent cancer treatments, and enhanced clinical outcomes.
Key areas of interest include endogenous antitumor immunity, tumor-promoting inflammation, cancer antigens, vaccines, antibodies, cellular therapy, cytokines, immune regulation, immune suppression, immunomodulatory effects of cancer treatment, emerging technologies, and insightful clinical investigations with immunological implications.
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