Abstract 7458: Inhibition of brain cancer progression via resolution of inflammation

Abstract While inflammation is a hallmark of cancer, the mechanisms that disrupt its resolution in cancer are not well understood. A paradigm shift is emerging in our understanding that the resolution of inflammation is an active process controlled by specialized pro-resolving mediators (SPMs), including protectins and resolvins, which are endogenous lipid autacoids present in multiple tissues including the brain and cerebrospinal fluid. SPMs counter-regulate pro-inflammatory cytokine production and stimulate phagocytosis of cellular debris (“pro-resolution”) without being immunosuppressive. We hypothesized treatment with pro-resolving agonists such as SPMs presents a novel debris-clearing and resolution-enhancing therapeutic approach to complement cytotoxic brain cancer therapies. Here, we demonstrate the failure of resolution of inflammation via dysregulated SPMs may be a critical risk factor for aggressive brain cancer growth. Moreover, chemotherapy and targeted therapy further disrupt inflammation resolution via a tumor cell death (“debris”)-induced cytokine storm by macrophages. The SPM receptors GPR37 (protectin D1), GPR18/DRV2 (resolvin (Rv) D2), GPR32 (RvD1), and ChemR23/ERV (RvE1) are expressed in tumor-infiltrating macrophages and endothelial cells in the brain tumor microenvironment. Plasma levels of SPMs were significantly reduced in the medulloblastoma-bearing mice, suggesting that brain cancer progression is associated with a failure of endogenous resolution of inflammation. To determine whether failed resolution in brain cancer can be rescued by lipid mediator agonists, we systemically administered SPMs to subcutaneous and orthotopic glioblastoma and medulloblastoma murine brain tumor models. Significantly, RvD1 and RvD2 each inhibited the growth of human glioblastoma tumors by 15-fold at nanogram concentrations without toxicity. Likewise, RvD2 inhibited the growth of human medulloblastoma tumors by 3-fold. Protectins, PDX and PD1n-3, each inhibited growth of human medulloblastoma in mice by approximately 5-fold. Systemic administration of PDX or RvD2 prolonged survival of mice injected with orthotopic human D556 medulloblastoma and also glioblastoma models. Flow cytometry analysis of orthotopic glioblastoma tumors revealed increased immune infiltration into the brain tumor microenvironment in the PCTR1-treatment group when compared to the tumor-bearing non-treated group. At nanogram per day doses, protectins and resolvins suppressed orthotopic debris-stimulated brain tumor growth by activating macrophage and microglial phagocytosis of tumor cell debris and counter-regulating pro-inflammatory cytokines, including TNF-α, CCL2, CXCL1, and CCL4. Thus, stimulating the resolution of inflammation via the clearance of cellular debris with pro-resolving agonists represents a novel therapeutic approach to brain cancer, including glioblastoma and medulloblastoma. Citation Format: Jacqueline Capuano, Kimberly Vasquez, Katherine Quinlivan, Rachel Bayer, Sarina Virani, Michael Gillespie, Mark Kieran, Charles Serhan, Diane Bielenberg, Dipak Panigrahy. Inhibition of brain cancer progression via resolution of inflammation [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 7458.