Abstract
Abstract Glioblastoma (GBM) is the most common and lethal type of malignant brain tumor in adults. GBM cells spread extensively in the brain and disseminate into the cerebrospinal fluid space, strongly restricting multimodal therapies. Acquiring a better knowledge of molecular defects underlying GBM invasion is essential for developing effective treatments.Brain-specific Angiogenesis Inhibitor 1 (BAI1/ADGRB1) is a transmembrane receptor of the adhesion GPCR family widely expressed in the normal brain, but its expression is lost in the majority of GBM through epigenetic silencing and restoration of its expression can inhibit glioma growth. However, whether BAI1 loss is important for tumor invasion and the mesenchymal phenotype in GBM has not been investigated.Microarray analysis of the GBM TCGA dataset (restricted to IDHwt GBM; WHO 2021) revealed that low BAI1 mRNA expression correlates with elevated expression of many mesenchymal genes. Restoration of BAI1 expression in human GBM cells suppresses mesenchymal gene expression in culture and dramatically decreases brain tumor invasion in mice xenografts. Mechanistically, we found that the N-terminal thrombospondin type 1 repeat (TSR#1) of BAI1 inhibits the maturation process of TGFβ1, a key growth factor involved in EMT. BAI1 is silenced epigenetically in GBM cells by methylated CpG-binding protein MBD2, and its expression can be reactivated by KCC-07, a blood-brain barrier permeable MBD2 inhibitor. We found that restoration of BAI1 expression by KCC-07 treatment dramatically suppresses cell invasion in the brain and reduces leptomeningeal dissemination of GBM cells to the spine in mouse xenografts.These experiments demonstrate that epigenetic silencing of BAI1 is important for activating the GBM invasive phenotype through TGFβ1 pathway activation. This new tumor-suppressive pathway can be epigenetically targeted to reactivate BAI1 expression in GBM patients.
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