Pro-inflammatory and proliferative microglia drive progression of glioblastoma

Scant understanding of the glioblastoma microenvironment and molecular bases hampers development of efficient treatment strategies. Analyses of gene signatures of human gliomas demonstrate that the SETD2 mutation is correlated with poor prognosis of IDH1/2 wild-type (IDH-WT) adult glioblastoma patients. To better understand the crosstalk between SETD2 mutant (SETD2-mut) glioblastoma cells and the tumor microenvironment, we leverage single-cell transcriptomics to comprehensively map cellular populations in glioblastoma. In this study, we identify a specific subtype of high-grade glioma-associated microglia (HGG-AM). Further analysis shows that transforming growth factor (TGF)-β1 derived from SETD2-mut/IDH-WT tumor cells activates HGG-AM, exhibiting pro-inflammation and proliferation signatures. Particularly, HGG-AM secretes interleukin (IL)-1β via the apolipoprotein E (ApoE)-mediated NLRP1 inflammasome, thereby promoting tumor progression. HGG-AM present extensive proliferation and infiltration to supplement the activated microglia pool. Notably, TGF-β1/TβRI depletion dramatically reduces HGG-AM density and suppresses tumor growth. Altogether, our studies identify a specific microglia subpopulation and establish the cellular basis of interactions between HGG-AM and glioblastoma cells. [Display omitted] •A subset of high-grade glioma-associated microglia (HGG-AM) is identified by scRNA-seq•TGF-β1 activated from SETD2-mut/IDH-WT GBM cells promotes activation of HGG-AM•HGG-AM exhibits pro-inflammation and proliferation features, promoting tumor progression Liu et al. find that high-grade glioma-associated microglia exhibit inflammasome-mediated pro-inflammatory and proliferative signatures shaping the cytokine microenvironment to promote oncogenesis.