Suppressing immunotherapy by organ-specific tumor microenvironments: What is in the brain?

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Abstract

Recent breakthroughs in cancer immunotherapy have led to curative efficacy and significantly prolonged survival in a subset of patients of multiple cancer types; and immunotherapy has become the newest pillar of cancer treatment in addition to surgery, chemotherapy, radiotherapy and precision targeted therapies. In the metastatic disease setting, responses to immunotherapy are heterogeneous depending on the metastatic organ sites. The tissue-specific immuno-biology in the tumor microenvironments (TMEs) contributes to the differential therapeutic responses. Herein, we review the impact of tissue-specific tumor microenvironment on the efficacy of immunotherapy, with a focus on historically under-represented central nervous system (CNS) metastasis, which was excluded from most clinical trials. Retrospective examination of patient specimens and prospective clinical studies with immune checkpoint blockade (ICB) have established that brain can harbor an "active" immune microenvironment for effective immunotherapy. Regulation by the innate immune microglial cells and remodeling of the blood-brain barrier (BBB) may contribute to immunotherapeutic responses mediated by T lymphocytes. How to convert an "inactive" (cold) brain microenvironment into an "active" (hot) brain TME should be the focus of future efforts. Thus, procurement and complete examination of clinical specimens from brain metastases as well as development of appropriate preclinical brain metastasis models susceptible to external manipulation of the TME are critical steps towards that goal. A deeper understanding of the immuno-biology in distinct organ microenvironments will help to expand the benefits of immunotherapy to more needed patients.

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Zhang, C., & Yu, D. (2019, October 7). Suppressing immunotherapy by organ-specific tumor microenvironments: What is in the brain? Cell and Bioscience. BioMed Central Ltd. https://doi.org/10.1186/s13578-019-0349-0

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