Michael Schulz, Katja Niesel, Anna Salamero Boix, Woongjoo Chae, Birgitta E. Michels, A. Schaeffer, Maja I. Strecker, T. Alekseeva, S. Stein, H. Farin, F. Roedel, P. Harter, K. Plate, L. Sevenich
{"title":"摘要:电离辐射对脑转移相关炎症的影响及其对免疫治疗的意义","authors":"Michael Schulz, Katja Niesel, Anna Salamero Boix, Woongjoo Chae, Birgitta E. Michels, A. Schaeffer, Maja I. Strecker, T. Alekseeva, S. Stein, H. Farin, F. Roedel, P. Harter, K. Plate, L. Sevenich","doi":"10.1158/2326-6074.CRICIMTEATIAACR18-A111","DOIUrl":null,"url":null,"abstract":"Brain metastases represent the most common intracranial tumor in adults associated with poor prognosis and median survival of only a few months. Despite current success in the development of targeted or immuno-therapies against different cancer entities, those strategies are ineffective against brain metastases. Hence, treatment options for brain metastasis patients largely remain limited to surgical resection and radio- and/or chemotherapy. This paucity can in part be attributed to the immune-privileged status of the brain where the blood brain-barrier restricts the entry of blood-borne immune cells. However, recent insights into the immune landscape of primary brain cancers indicate that tumor progression leads to an infiltration of blood-borne immune cells into the brain. We employ a comprehensive set of experimental brain metastasis models to characterize the immune landscape of brain metastases from different primary cancer entities at distinct disease stages and in response to radiotherapy. Our data indicate that brain metastases induce massive infiltration of myeloid and lymphoid cell populations into the central nervous system. This leads to the establishment of a dynamic and highly complex tumor microenvironment that affects tumor progression and therapy response. Fractionated whole-brain radiotherapy leads to enhanced infiltration of blood-borne myeloid and lymphoid cells. Transcriptome analysis of brain-resident and recruited myeloid cells indicate a switch from a proinflammatory towards an immune-suppressive environment at advanced disease stages. Importantly, radiotherapy was found to induce gene signatures that are associated with proinflammatory innate immune responses that could revert the establishment of an immune-suppressive environment. Consequently, radiotherapy might sensitize brain metastases towards immuno-therapies. Our goal is to identify pathways or molecular targets that are induced by radiotherapy in the tumor microenvironment to overcome resistance against immuno-therapy. In this project, we seek to test strategies to maintain or induce proinflammatory immune responses for improved targeted or immuno-therapies against brain metastasis. Citation Format: Michael Schulz, Katja Niesel, Anna Salamero Boix, Woon Hyung Chae, Birgitta Michels, Alexander Schaeffer, Maja Strecker, Tijna Alekseeva, Stefan Stein, Henner Farin, Franz Roedel, Patrick Harter, Karlheinz Plate, and Lisa Sevenich. Effects of ionizing radiation on brain metastasis-associated inflammation and its implication for immunotherapy [abstract]. In: Proceedings of the Fourth CRI-CIMT-EATI-AACR International Cancer Immunotherapy Conference: Translating Science into Survival; Sept 30-Oct 3, 2018; New York, NY. Philadelphia (PA): AACR; Cancer Immunol Res 2019;7(2 Suppl):Abstract nr A111.","PeriodicalId":22141,"journal":{"name":"Tackling the Tumor Microenvironment: Beyond T-cells","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2019-02-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Abstract A111: Effects of ionizing radiation on brain metastasis-associated inflammation and its implication for immunotherapy\",\"authors\":\"Michael Schulz, Katja Niesel, Anna Salamero Boix, Woongjoo Chae, Birgitta E. Michels, A. Schaeffer, Maja I. Strecker, T. Alekseeva, S. Stein, H. Farin, F. Roedel, P. Harter, K. Plate, L. Sevenich\",\"doi\":\"10.1158/2326-6074.CRICIMTEATIAACR18-A111\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Brain metastases represent the most common intracranial tumor in adults associated with poor prognosis and median survival of only a few months. Despite current success in the development of targeted or immuno-therapies against different cancer entities, those strategies are ineffective against brain metastases. Hence, treatment options for brain metastasis patients largely remain limited to surgical resection and radio- and/or chemotherapy. This paucity can in part be attributed to the immune-privileged status of the brain where the blood brain-barrier restricts the entry of blood-borne immune cells. However, recent insights into the immune landscape of primary brain cancers indicate that tumor progression leads to an infiltration of blood-borne immune cells into the brain. We employ a comprehensive set of experimental brain metastasis models to characterize the immune landscape of brain metastases from different primary cancer entities at distinct disease stages and in response to radiotherapy. Our data indicate that brain metastases induce massive infiltration of myeloid and lymphoid cell populations into the central nervous system. This leads to the establishment of a dynamic and highly complex tumor microenvironment that affects tumor progression and therapy response. Fractionated whole-brain radiotherapy leads to enhanced infiltration of blood-borne myeloid and lymphoid cells. Transcriptome analysis of brain-resident and recruited myeloid cells indicate a switch from a proinflammatory towards an immune-suppressive environment at advanced disease stages. Importantly, radiotherapy was found to induce gene signatures that are associated with proinflammatory innate immune responses that could revert the establishment of an immune-suppressive environment. Consequently, radiotherapy might sensitize brain metastases towards immuno-therapies. Our goal is to identify pathways or molecular targets that are induced by radiotherapy in the tumor microenvironment to overcome resistance against immuno-therapy. In this project, we seek to test strategies to maintain or induce proinflammatory immune responses for improved targeted or immuno-therapies against brain metastasis. Citation Format: Michael Schulz, Katja Niesel, Anna Salamero Boix, Woon Hyung Chae, Birgitta Michels, Alexander Schaeffer, Maja Strecker, Tijna Alekseeva, Stefan Stein, Henner Farin, Franz Roedel, Patrick Harter, Karlheinz Plate, and Lisa Sevenich. Effects of ionizing radiation on brain metastasis-associated inflammation and its implication for immunotherapy [abstract]. In: Proceedings of the Fourth CRI-CIMT-EATI-AACR International Cancer Immunotherapy Conference: Translating Science into Survival; Sept 30-Oct 3, 2018; New York, NY. 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引用次数: 0
摘要
脑转移瘤是成人最常见的颅内肿瘤,预后差,中位生存期只有几个月。尽管目前在针对不同癌症实体的靶向或免疫治疗方面取得了成功,但这些策略对脑转移无效。因此,脑转移患者的治疗选择很大程度上仍然局限于手术切除和放疗和/或化疗。这种缺乏可以部分归因于大脑的免疫特权地位,其中血脑屏障限制了血源性免疫细胞的进入。然而,最近对原发性脑癌免疫景观的研究表明,肿瘤进展导致血源性免疫细胞渗入大脑。我们采用了一套全面的实验性脑转移模型来表征不同原发性肿瘤实体在不同疾病阶段和对放疗的反应的脑转移的免疫景观。我们的数据表明,脑转移诱导髓细胞和淋巴细胞群大量浸润到中枢神经系统。这导致建立一个动态和高度复杂的肿瘤微环境,影响肿瘤的进展和治疗反应。分块全脑放疗可增强血源性髓细胞和淋巴细胞的浸润。脑驻留和募集骨髓细胞的转录组分析表明,在疾病晚期,从促炎环境向免疫抑制环境转变。重要的是,研究发现放射治疗可以诱导与促炎先天免疫反应相关的基因特征,从而恢复免疫抑制环境的建立。因此,放射治疗可能使脑转移灶对免疫治疗敏感。我们的目标是确定肿瘤微环境中放疗诱导的途径或分子靶点,以克服对免疫治疗的抵抗。在这个项目中,我们试图测试维持或诱导促炎免疫反应的策略,以改善针对脑转移的靶向或免疫治疗。引文格式:Michael Schulz, Katja Niesel, Anna Salamero Boix, Woon Hyung Chae, Birgitta Michels, Alexander Schaeffer, Maja Strecker, Tijna Alekseeva, Stefan Stein, Henner Farin, Franz Roedel, Patrick Harter, Karlheinz Plate和Lisa Sevenich。电离辐射对脑转移相关炎症的影响及其对免疫治疗的启示[摘要]。第四届CRI-CIMT-EATI-AACR国际癌症免疫治疗会议:将科学转化为生存;2018年9月30日至10月3日;纽约,纽约。费城(PA): AACR;癌症免疫,2019;7(2增刊):摘要nr A111。
Abstract A111: Effects of ionizing radiation on brain metastasis-associated inflammation and its implication for immunotherapy
Brain metastases represent the most common intracranial tumor in adults associated with poor prognosis and median survival of only a few months. Despite current success in the development of targeted or immuno-therapies against different cancer entities, those strategies are ineffective against brain metastases. Hence, treatment options for brain metastasis patients largely remain limited to surgical resection and radio- and/or chemotherapy. This paucity can in part be attributed to the immune-privileged status of the brain where the blood brain-barrier restricts the entry of blood-borne immune cells. However, recent insights into the immune landscape of primary brain cancers indicate that tumor progression leads to an infiltration of blood-borne immune cells into the brain. We employ a comprehensive set of experimental brain metastasis models to characterize the immune landscape of brain metastases from different primary cancer entities at distinct disease stages and in response to radiotherapy. Our data indicate that brain metastases induce massive infiltration of myeloid and lymphoid cell populations into the central nervous system. This leads to the establishment of a dynamic and highly complex tumor microenvironment that affects tumor progression and therapy response. Fractionated whole-brain radiotherapy leads to enhanced infiltration of blood-borne myeloid and lymphoid cells. Transcriptome analysis of brain-resident and recruited myeloid cells indicate a switch from a proinflammatory towards an immune-suppressive environment at advanced disease stages. Importantly, radiotherapy was found to induce gene signatures that are associated with proinflammatory innate immune responses that could revert the establishment of an immune-suppressive environment. Consequently, radiotherapy might sensitize brain metastases towards immuno-therapies. Our goal is to identify pathways or molecular targets that are induced by radiotherapy in the tumor microenvironment to overcome resistance against immuno-therapy. In this project, we seek to test strategies to maintain or induce proinflammatory immune responses for improved targeted or immuno-therapies against brain metastasis. Citation Format: Michael Schulz, Katja Niesel, Anna Salamero Boix, Woon Hyung Chae, Birgitta Michels, Alexander Schaeffer, Maja Strecker, Tijna Alekseeva, Stefan Stein, Henner Farin, Franz Roedel, Patrick Harter, Karlheinz Plate, and Lisa Sevenich. Effects of ionizing radiation on brain metastasis-associated inflammation and its implication for immunotherapy [abstract]. In: Proceedings of the Fourth CRI-CIMT-EATI-AACR International Cancer Immunotherapy Conference: Translating Science into Survival; Sept 30-Oct 3, 2018; New York, NY. Philadelphia (PA): AACR; Cancer Immunol Res 2019;7(2 Suppl):Abstract nr A111.