Repurposing an Antiepileptic Drug for the Treatment of Glioblastoma.

PURPOSE: Glioblastoma multiforme (GBM) is a grade IV, highly proliferative, and malignant form of brain tumor with a 5-year survival rate at ~ 5%. Current treatment strategies for GBM include surgery, radiation, and chemotherapy. Major challenges in GBM management include difficulties in surgical resection due to brain's vital functions and GBM metastasis, development of resistance to temozolomide (TMZ), and protection of tumor by blood brain barrier (BBB). Therefore, we aimed to discover a novel therapeutic for GBM by targeting its metabolic reprogramming. METHOD: We screened metabolic inhibitors by their effects on GBM cell viability by MTT assay. We discovered an FDA-approved drug stiripentol (STP) in our screening of metabolic inhibitors in GBM cells. STP is used for Dravet syndrome (a rare epilepsy). We further tested efficacy of STP using proliferation assay, clonogenic assay, in vitro migration assay, cell cycle assay, apoptosis assay, and in U87 3D spheroids. We also tested the toxicity of STP, and combinations used in the study on normal human dermal fibroblasts. RESULTS: STP was effective in decreasing GBM cell viability, proliferation, clonogenic ability, and migration. Moreover, cell cycle changes were involved but robust apoptosis was absent in STP's anticancer effects. STP was effective in 3D spheroid models, and in TMZ-resistant cells. STP showed additive or synergistic effect with TMZ in different anticancer assays on GBM cells and was considerably less toxic in normal cells. CONCLUSION: Our results indicate that STP can be an effective GBM therapeutic that enhances the effects of TMZ on GBM cells. Importantly, STP reduced viability of TMZ-resistant cells. Our results warrant further studies in the mechanistic basis of STP's effects on GBM cells and the preclinical potential of STP in animal models.