Are we better together? Addressing a combined treatment of pitavastatin and temozolomide for brain cancer
João Basso, Ana Miguel Matos, Saeid Ghavami, Ana Fortuna, Rui Vitorino, Carla Vitorino
Abstract
Pitavastatin is commonly prescribed to treat hypercholesterolemia through the regulation of cholesterol biosynthesis. Interestingly, it has also demonstrated a great potential for treating brain tumors, although the detailed cytotoxic mechanism, particularly in glioblastoma, remains incompletely understood. This work explores the activity of pitavastatin in 2D and 3D glioblastoma models, in an attempt to provide a more representative and robust overview of its anticancer potential in glioblastoma. The results show that not only is pitavastatin 10-1000 times-fold more effective in reducing tumoral metabolic activity than temozolomide, but also demonstrate a synergistic activity with this alkylating drug. In addition, low micromolar concentrations of this statin strongly impair the growth and the invasion ability of multicellular tumor spheroids. The obtained qRT-PCR and proteomics data highlight the modulation of cell death via apoptosis ( BAX/BCL2, CASP9 ) and autophagy ( BECN1, BNIP3 , BNIP3L and LC3B ), as well as an epithelial to mesenchymal transition blockage (HTRA1, SERPINE1, WNT5A, ALDH3B1 and EPHA2) and remodeling of the extracellular matrix (VCAN, SERPINE1 and TGFBI). Overall, these results lay the foundation for further investigations on the potential combinatory clinical treatment with temozolomide. • Pitavastatin impairs tumor spheroid growth at low micromolar concentrations. • Pitavastatin and temozolomide have a synergistic activity with clinically achievable concentrations. • Pitavastatin modulates glioblastoma cell death via autophagy and apoptosis. • Pitavastatin blocks the EMT and remodels the extracellular matrix.