Abstract
Abstract Medulloblastoma (MB), an aggressive pediatric brain malignancy, is commonly classified into four subtypes. Although survival has improved remarkably, Group 3 and Shh-driven tumors still experience high rates of recurrent and metastatic disease. Disulfiram (DSF), a safe and inexpensive drug, has shown an antitumor effect when administered with copper (Cu++) against other brain malignancies, and its repurposing to MB could benefit current standards of treatment. ONS76 (Shh-driven Tp53 wild-type), UW228 (Shh-driven Tp53-mutated), D425med and D341med (Group 3) lines were treated with DSF-Cu++and tested with viability, proliferation and clonogenic assays. Flow cytometry (FACS) with AnnexinV-PI, Ki67, PI/RNAse for necrosis and cell cycle, and CD133 and Aldefluor for cell-stemness were carried out. MB lines were tested with western blotting (WB) and immunofluorescence (IF) for NPL4(Nuclear protein localization protein 4 homolog), AIF (apoptosis-inducing factor), cleaved-PARP(Poly-ADP-ribose-polymerase), H2AX and other molecular targets. In vivo safety (n=8) and efficacy studies (n=16) were carried out on Nu/Nu athymic mice implanted intracranially (IC) with D425med cells, along with Hematoxylin/Eosin and immunohistochemistry analyses on brain samples. DSF-Cu++showed remarkable cytotoxic and anti-proliferative activity against all MB lines. In particular, NPL4, a protein involved in the ubiquitin signaling, appears to be the primary DSF target, as previously shown in other malignancies. Apoptosis quickly follows the Heat-Shock Response, as confirmed by FACS, WB and IF, and cell-stemness is decreased significantly by nanomolar doses of DSF-Cu++(p=0.002). Oral administration of DSF-Cu++was proven safe at doses of 100 mg/kg and significantly prolonged survival in IC xenografts (median 28.5 days; p=0.02) compared to controls (median 24 days). DSF, a compound used in the treatment of chronic alcoholism, has recently shown a remarkable effect in a number of malignancies when co-administered with Cu++. We provide proof of its potential as a chemotherapeutic for pediatric MB, and describe its molecular mechanism of action.
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