Dose-Specific Intratumoral GM-CSF Modulates Breast Tumor Oxygenation and Antitumor Immunity

血管生成 癌症研究 肿瘤微环境 医学 肿瘤缺氧 缺氧(环境) 血管内皮生长因子 内科学 免疫系统 免疫学 化学 血管内皮生长因子受体 有机化学 放射治疗 氧气
作者
Nicole E. Mihalik,Kayla J. Steinberger,Alyson M. Stevens,Andrey A. Bobko,E. Hannah Hoblitzell,Oxana Tseytlin,Halima Akhter,Sebastian A. Dziadowicz,Lei Wang,Ryan C. O’Connell,Kelly L. Monaghan,Gangqing Hu,Xiaokui Mo,Valery V. Khramtsov,Mark Tseytlin,Benoît Driesschaert,Chi‐Keung Wan,Timothy D. Eubank
出处
期刊:Journal of Immunology [American Association of Immunologists]
卷期号:211 (10): 1589-1604 被引量:13
标识
DOI:10.4049/jimmunol.2300326
摘要

Abstract GM-CSF has been employed as an adjuvant to cancer immunotherapy with mixed results based on dosage. We previously showed that GM-CSF regulated tumor angiogenesis by stimulating soluble vascular endothelial growth factor (VEGF) receptor-1 from monocytes/macrophages in a dose-dependent manner that neutralized free VEGF, and intratumoral injections of high-dose GM-CSF ablated blood vessels and worsened hypoxia in orthotopic polyoma middle T Ag (PyMT) triple-negative breast cancer (TNBC). In this study, we assessed both immunoregulatory and oxygen-regulatory components of low-dose versus high-dose GM-CSF to compare effects on tumor oxygen, vasculature, and antitumor immunity. We performed intratumoral injections of low-dose GM-CSF or saline controls for 3 wk in FVB/N PyMT TNBC. Low-dose GM-CSF uniquely reduced tumor hypoxia and normalized tumor vasculature by increasing NG2+ pericyte coverage on CD31+ endothelial cells. Priming of “cold,” anti-PD1–resistant PyMT tumors with low-dose GM-CSF (hypoxia reduced) sensitized tumors to anti-PD1, whereas high-dose GM-CSF (hypoxia exacerbated) did not. Low-dose GM-CSF reduced hypoxic and inflammatory tumor-associated macrophage (TAM) transcriptional profiles; however, no phenotypic modulation of TAMs or tumor-infiltrating lymphocytes were observed by flow cytometry. In contrast, high-dose GM-CSF priming increased infiltration of TAMs lacking the MHC class IIhi phenotype or immunostimulatory marker expression, indicating an immunosuppressive phenotype under hypoxia. However, in anti-PD1 (programmed cell death 1)–susceptible BALB/c 4T1 tumors (considered hot versus PyMT), high-dose GM-CSF increased MHC class IIhi TAMs and immunostimulatory molecules, suggesting disparate effects of high-dose GM-CSF across PyMT versus 4T1 TNBC models. Our data demonstrate a (to our knowledge) novel role for low-dose GM-CSF in reducing tumor hypoxia for synergy with anti-PD1 and highlight why dosage and setting of GM-CSF in cancer immunotherapy regimens require careful consideration.
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