Abstract
Glioblastoma is the deadliest brain tumor in humans. Recent studies suggested that 5-aza-2-deoxycytidine (AzaC) could inhibit cell cycle progression in human glioblastoma stem cells by an indirect increase in expression of the tumor suppressor microRNA-137 (miR-137). Delphinidin (DPN), a new anthocyanidin, inhibits cell growth in different cancers. We investigated inhibition of glioblastoma growth after indirect or direct overexpression of miR-137 and then DPN treatment. The highest inhibition of cell growth occurred due to treatment with combination of 10μM AzaC and 50μM DPN in human glioblastoma U87MG and LN18 cells. The methylation sensitive-polymerase chain reaction (MS-PCR) results showed that AzaC inhibited methylation of miR-137 promoter region, which was hypermethylated in both glioblastoma cell lines, to cause indirect increase in miR-137 expression. Our results also indicated the highest miR-137 expression after direct transfection of miR-137 mimics and DPN treatment. Combination of miR-137 mimics transfection and DPN treatment caused the highest inhibition of cell invasion and prevented angiogenic network formation due to the least expression of angiogenic factor (VEGF) in human glioblastoma cells in co-culture with human microvascular endothelial cells. This combination strategy most effectively inhibited survival factors (p-Akt and NF-κB), angiogenic factors (VEGF and b-FGF), growth factor receptor (EGFR), and invasive factors (MMP-9 and MMP-2). Direct overexpression of miR-137 most effectively augmented efficacy of DPN to induce apoptosis with activation of extrinsic and intrinsic pathways. So, sequential miR-137 overexpression and DPN treatment could be a promising combination treatment to inhibit growth of human glioblastoma cells.
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