Chemotherapeutic induction of mitochondrial oxidative stress activates GSK-3α/β and Bax, leading to permeability transition pore opening and tumor cell death

F Chiara,M Sciacovelli,A Nicolli,L Ronconi,D Fregona,A Gambalunga,P Bernardi,A Rasola,A Trevisan

doi:10.1038/cddis.2012.184

F Chiara, M Sciacovelli + Show 7 more

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https://doi.org/10.1038/cddis.2012.184

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Journal: Cell Death & Disease	Publication Date: Dec 1, 2012
Citations: 66	License type: cc-by

Affiliation: University of Padua

Abstract

Survival of tumor cells is favored by mitochondrial changes that make death induction more difficult in a variety of stress conditions, such as exposure to chemotherapeutics. These changes are not fully characterized in tumor mitochondria, and include unbalance of the redox equilibrium, inhibition of permeability transition pore (PTP) opening through kinase signaling pathways and modulation of members of the Bcl-2 protein family. Here we show that a novel chemotherapeutic, the Gold(III)-dithiocarbamato complex AUL12, induces oxidative stress and tumor cell death both favoring PTP opening and activating the pro-apoptotic protein Bax of the Bcl-2 family. AUL12 inhibits the respiratory complex I and causes a rapid burst of mitochondrial superoxide levels, leading to activation of the mitochondrial fraction of GSK-3α/β and to the ensuing phosphorylation of the mitochondrial chaperone cyclophilin D, which in turn facilitates PTP opening. In addition, following AUL12 treatment, Bax interacts with active GSK-3α/β and translocates onto mitochondria, where it contributes to PTP induction and tumor cell death. These findings provide evidence that targeting the redox equilibrium maintained by mitochondria in tumor cells allows to hit crucial mechanisms that shield neoplasms from the toxicity of many anti-tumor strategies, and identify AUL12 as a promising chemotherapeutic compound.

Highlights

Several biochemical changes that crucially contribute to neoplastic transformation take place in mitochondria
Reduced sensitivity of mitochondrial permeability transition pore (PTP) to diverse stress stimuli was observed in neoplastic cells,[3,6] and we and others have recently found that PTP opening is enhanced by a GSK-3a/b-dependent phosphorylation of the chaperone cyclophilin D (CyP-D), a well-known regulator of the PTP, and that this pathway is inhibited in cancer cells.[7,8,9]
In order to understand the mechanism of cytotoxicity of AUL12, we first characterized its effects on viability in: (a) a model of highly aggressive cancer cells, the human osteosarcoma SAOS-2 cells, characterized by loss of p53 activity; (b) the human epithelial prostate cells RWPE-1, which are immortalized but lack any tumorigenic potential, and (c) the RWPE-2 cells, which are made tumorigenic by expression of K-Ras in RWPE-1 cells.[25,26]