Abstract

Abstract Glioblastoma (GBM) are malignant gliomas with an average survival of less than 14 months after diagnosis, despite surgery, chemotherapy, and radiotherapy. Tumor survival is aided by the heterogeneous cell populations in the tumor microenvironment. Two crucial innate immune cells of the brain, namely microglia and macrophages, favor a tumor-promoting microenvironment IN GBM. The nucleotide-binding domain leucine-rich repeat-containing receptor (NLR) family in astrocytes and microglia cells recognizes pathogen- and damage-associated molecular patterns that induce inflammation. NLRP3, upon activation, leads to cleavage and activation of Caspase-1, causing the proteolytic cleavage-mediated activation and conversion of pro-IL-1ß and pro-IL-18 to IL-1ß and IL-18, leading to pyroptosis. NLRP12 downregulates inflammatory responses in microglia and macrophages by regulating the NF-kB pathway. NLRP3 and NLRP12 have tumor-promoting and anti-tumour functions in various cancers. NLRP12 is a prognostic marker for glioblastoma, and its increased expression correlates with poor survival in GBM patients. However, the cellular and molecular mechanisms of NLRP3 and NLRP12 in GBM pathophysiology are largely unknown. This study aims to understand the effect of NLRP3 and NLRP12 expression in GBM, to interpret the pathophysiology, and to help develop future targeted therapeutic interventions. To understand the baseline expression of NLRP3 and NLRP12 in cell lines and patient-derived GBM cells, PCR, western blotting, and Immunocytochemistry were performed comparing WT and nlrp3-/- and nlrp12-/- cells. Differential expression of NLRP3 and NLRP12 in patient-derived cells can be compared to GBM, astrocyte, and microglia cell lines. This may be the underlying cause for intra and inter-tumor heterogeneity and resultant differential therapy outcomes. To understand cell-to-cell communication in GBM-like tumor microenvironments, heterocellular 3D organoids, and patient-derived tumor organoids were developed. Cell viability in 3D patient-derived tumor organoids decreased by up to 10% with Doxorubicin and 40% with Carboplatin treatment decreases compared to untreated controls. This suggests the scope of developing drugs targeting inflammation regulatory genes.

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