Tumor Microenvironment as A "Game Changer" in Cancer Radiotherapy
Radiotherapy (RT), besides cancer cells, also affects the tumor microenvironment (TME): tumor blood vessels and cells of the immune system. It damages endothelial cells and causes radiation-induced inflammation. Damaged vessels inhibit the infiltration of CD8+ T lymphocytes into tumors, and immunosu...
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| Published in: | International journal of molecular sciences Vol. 20; no. 13; p. 3212 |
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| Main Authors: | , , , |
| Format: | Journal Article |
| Language: | English |
| Published: |
Switzerland
MDPI AG
29-06-2019
MDPI |
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| Online Access: | Get full text |
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| Abstract | Radiotherapy (RT), besides cancer cells, also affects the tumor microenvironment (TME): tumor blood vessels and cells of the immune system. It damages endothelial cells and causes radiation-induced inflammation. Damaged vessels inhibit the infiltration of CD8+ T lymphocytes into tumors, and immunosuppressive pathways are activated. They lead to the accumulation of radioresistant suppressor cells, including tumor-associated macrophages (TAMs) with the M2 phenotype, myeloid-derived suppressor cells (MDSCs), and regulatory T cells (Tregs). The area of tumor hypoxia increases. Hypoxia reduces oxygen-dependent DNA damage and weakens the anti-cancer RT effect. It activates the formation of new blood vessels and leads to cancer relapse after irradiation. Irradiation may also activate the immune response through immunogenic cell death induction. This leads to the "in situ" vaccination effect. In this article, we review how changes in the TME affect radiation-induced anticancer efficacy. There is a very delicate balance between the activation of the immune system and the immunosuppression induced by RT. The effects of RT doses on immune system reactions and also on tumor vascularization remain unclear. A better understanding of these interactions will contribute to the optimization of RT treatment, which may prevent the recurrence of cancer. |
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| AbstractList | Radiotherapy (RT), besides cancer cells, also affects the tumor microenvironment (TME): tumor blood vessels and cells of the immune system. It damages endothelial cells and causes radiation-induced inflammation. Damaged vessels inhibit the infiltration of CD8+ T lymphocytes into tumors, and immunosuppressive pathways are activated. They lead to the accumulation of radioresistant suppressor cells, including tumor-associated macrophages (TAMs) with the M2 phenotype, myeloid-derived suppressor cells (MDSCs), and regulatory T cells (Tregs). The area of tumor hypoxia increases. Hypoxia reduces oxygen-dependent DNA damage and weakens the anti-cancer RT effect. It activates the formation of new blood vessels and leads to cancer relapse after irradiation. Irradiation may also activate the immune response through immunogenic cell death induction. This leads to the "in situ" vaccination effect. In this article, we review how changes in the TME affect radiation-induced anticancer efficacy. There is a very delicate balance between the activation of the immune system and the immunosuppression induced by RT. The effects of RT doses on immune system reactions and also on tumor vascularization remain unclear. A better understanding of these interactions will contribute to the optimization of RT treatment, which may prevent the recurrence of cancer. In response to proinflammatory signals (chemokine (C-C motif) ligands 2 and 5 (CCL2 and CCL5), colony-stimulating factor-1 (CSF-1), vascular endothelial growth factor (VEGF), endothelial monocyte activating polypeptide II (EMAP II), and endothelins (ET-1 and ET-2)) the cells of the immune system are recruited to the TME and undergo specific “reprogramming”, e.g., monocytes differentiate into specific tumor-associated macrophages [25,26,27,28]. The activation of an immunosuppressive environment promoting tumor growth also includes the inhibition of differentiation and maturation of dendritic cells (DCs), NK cell cytotoxicity, inactivation of proapoptotic pathways, inhibition of antigen presentation, disorders in receptor signaling of T cells, and activation of negative co-stimulatory signals like CTLA-4 (cytotoxic T-lymphocyte-associated protein 4)/CD80 (or CD86) and PD-1 (programmed death 1)/PDL-1 (programmed death ligand 1) [33]. Innate and Adaptive Immune Response Activation Irradiation exerts an immunostimulating activity by increasing NK cell cytotoxicity and tumor infiltration by CD8+ cytotoxic T lymphocytes, the accumulation of tumor-associated M1 macrophages (inhibiting tumor growth), reducing the level of infiltrating regulatory T cell (Treg) lymphocytes [65], enhancing the expression of Fas and IFN-γ, and the inhibition of the PD-1/PDL-1 pathway [66]. [...]irradiation increases the amount of major histocompatibility complex (MHC) molecules on the surface of the cells [34], causes the translocation of calreticulin (CRT), the release of high mobility group box 1 (HMGB1) protein [67,68], and the secretion of adenosine triphosphate (ATP) and heat-shock proteins (HSPs) [34]. |
| Author | Cichoń, Tomasz Smolarczyk, Ryszard Kułach, Natalia Jarosz-Biej, Magdalena |
| AuthorAffiliation | Center for Translational Research and Molecular Biology of Cancer, Maria Skłodowska-Curie Memorial Cancer Center and Institute of Oncology, Gliwice Branch, Wybrzeże Armii Krajowej Street 15, 44-101 Gliwice, Poland |
| AuthorAffiliation_xml | – name: Center for Translational Research and Molecular Biology of Cancer, Maria Skłodowska-Curie Memorial Cancer Center and Institute of Oncology, Gliwice Branch, Wybrzeże Armii Krajowej Street 15, 44-101 Gliwice, Poland |
| Author_xml | – sequence: 1 givenname: Magdalena orcidid: 0000-0003-4023-6782 surname: Jarosz-Biej fullname: Jarosz-Biej, Magdalena email: Magdalena.Jarosz-Biej@io.gliwice.pl organization: Center for Translational Research and Molecular Biology of Cancer, Maria Skłodowska-Curie Memorial Cancer Center and Institute of Oncology, Gliwice Branch, Wybrzeże Armii Krajowej Street 15, 44-101 Gliwice, Poland. Magdalena.Jarosz-Biej@io.gliwice.pl – sequence: 2 givenname: Ryszard surname: Smolarczyk fullname: Smolarczyk, Ryszard organization: Center for Translational Research and Molecular Biology of Cancer, Maria Skłodowska-Curie Memorial Cancer Center and Institute of Oncology, Gliwice Branch, Wybrzeże Armii Krajowej Street 15, 44-101 Gliwice, Poland – sequence: 3 givenname: Tomasz surname: Cichoń fullname: Cichoń, Tomasz organization: Center for Translational Research and Molecular Biology of Cancer, Maria Skłodowska-Curie Memorial Cancer Center and Institute of Oncology, Gliwice Branch, Wybrzeże Armii Krajowej Street 15, 44-101 Gliwice, Poland – sequence: 4 givenname: Natalia surname: Kułach fullname: Kułach, Natalia organization: Center for Translational Research and Molecular Biology of Cancer, Maria Skłodowska-Curie Memorial Cancer Center and Institute of Oncology, Gliwice Branch, Wybrzeże Armii Krajowej Street 15, 44-101 Gliwice, Poland |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/31261963$$D View this record in MEDLINE/PubMed |
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| SubjectTerms | Adaptive immunity Adenosine triphosphate Angiogenesis Antigen presentation Antigens Apoptosis ATP Calreticulin Cancer therapies CD8 antigen CD80 antigen CD86 antigen CD95 antigen Cell activation Cell differentiation Cell surface Chemokines Colony-stimulating factor CTLA-4 protein Cytokines Cytotoxicity Dendritic cells Endothelin 1 Endothelin 2 Fas antigen Growth factors Heat shock proteins Hypoxia Immune system Immunology immunosuppression Inflammation Irradiation Ligands Lymphatic system Lymphocytes Lymphocytes T Macrophages Metastases Metastasis Monocyte chemoattractant protein 1 PD-1 protein Polypeptides Proteins Radiation therapy radioresistance radiotherapy Review tumor microenvironment tumor vasculature Tumors Vascular endothelial growth factor γ-Interferon “in situ” vaccination |
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| Title | Tumor Microenvironment as A "Game Changer" in Cancer Radiotherapy |
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