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GIORGIO STASSI

Inhibition of DNA Methylation Sensitizes Glioblastoma for Tumor Necrosis Factor–Related Apoptosis-Inducing igand–Mediated Destruction.

  • Autori: Eramo, A.; Pallini, R.; Lotti, F.; Sette, G.; Patti, M.; Bartucci, M.; RICCI VITIANI, L.; Signore, M.; Stassi, G.; Larocca, L.; Crino, L.; Peschle, C.; DE MARIA, R.
  • Anno di pubblicazione: 2005
  • Tipologia: Articolo in rivista (Articolo in rivista)
  • Parole Chiave: TRAIL-INDUCED APOPTOSIS; MALIGNANT GLIOMA-CELLS; DRUG-INDUCED APOPTOSIS; CASPASE-8 EXPRESSION; DEATH RECEPTOR; IN-VIVO; CHEMOTHERAPEUTIC-AGENTS; SIGNALING COMPLEX; BRAIN-TUMORS; 5-AZA-2'-DEOXYCYTIDINE
  • OA Link: http://hdl.handle.net/10447/9251

Abstract

Life expectancy of patients affected by glioblastoma multiforme is extremely low. The therapeutic use of tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) has been proposed to treat this disease based on its ability to kill glioma cell lines in vitro and in vivo. Here, we show that, differently from glioma cell lines, glioblastoma multiforme tumors were resistant to TRAIL stimulation because they expressed low levels of caspase-8 and high levels of the death receptor inhibitor PED/PEA-15. Inhibition of methyltransferases by decitabine resulted in considerable up-regulation of TRAIL receptor-1 and caspase-8, down-regulation of PED/PEA-15, inhibition of cell growth, and sensitization of primary glioblastoma cells to TRAIL-induced apoptosis. Exogenous caspase-8 expression was the main event able to restore TRAIL sensitivity in primary glioblastoma cells. The antitumor activity of decitabine and TRAIL was confirmed in vivo in a mouse model of glioblastoma multiforme. Evaluation of tumor size, apoptosis, and caspase activation in nude mouse glioblastoma multiforme xenografts showed dramatic synergy of decitabine and TRAIL in the treatment of glioblastoma, whereas the single agents were scarcely effective in terms of reduction of tumor mass, apoptosis induction, and caspase activation. Thus, the combination of TRAIL and demethylating agents may provide a key tool to overcome glioblastoma resistance to therapeutic treatments.