This study was concerned with the role of copper (Cu) and Cu-metallothionein (Cu-MT) in oxidative stress. Hydrogen peroxide (H(2)O(2))-induced oxidative injury was examined in Ehrlich ascites tumour cells isolated from host mice pretreated with 0, 1 or 2mg of CuSO(4) (ip) 24h earlier. Control Ehrlich cells contained low levels of Cu and Cu treatment produced dose-related increases in cellular Cu and Cu-MT levels and corresponding increases in sensitivity to oxidative toxicity of H(2)O(2) (LC(50), cell blebbing, lipid peroxidation, GSH depletion, and increase in intracellular free [Ca(2+)](i)). Hydrogen peroxide treatment also resulted in the oxidation of MT thiolates, reduction in the binding of Cu to MT resulting in translocation of Cu to other subcellular sites. d-penicillamine, a Cu-chelating agent, obliterated the sensitization effect of Cu-pretreatment and reduced the redistribution of MT-bound Cu, suggesting the participation of Cu ions derived from MT in promoting oxidant stress. Additional experiments with desferoxamine and mannitol have revealed the involvement of a Cu-dependent Fenton reaction in the mediation of the prooxidative effect of Cu-MT. These data suggest that cells with high levels of Cu-MT may be particularly susceptible to oxidative stress.
- Animals,
- Calcium,
- Carcinoma,
- Ehrlich Tumor,
- Cell Survival,
- Copper,
- Copper Sulfate,
- Deferoxamine,
- Dose-Response Relationship,
- Drug,
- Glutathione Disulfide,
- Hydrogen Peroxide,
- Injections,
- Intraperitoneal,
- Iron,
- Lipid Peroxidation,
- Mannitol,
- Metallothionein,
- Mice,
- Oxidative Stress,
- Penicillamine,
- Pinocytosis,
- Time Factors,
- Tumor Cells,
- Zinc
Available at: http://works.bepress.com/ed_lui/1/