Correlation between cytosolic Ca2+ concentration and cytotoxicity in hepatocytes exposed to oxidative stress |
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Authors: | P Nicotera D McConkey S A Svensson G Bellomo S Orrenius |
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Institution: | Department of Toxicology, Karolinska Institutet, Stockholm, Sweden. |
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Abstract: | To investigate the relationship between alterations of cytosolic Ca2+ concentration and development of cytotoxicity, isolated rat hepatocytes were loaded with the fluorescent indicator Quin-2 AM and then incubated with non-toxic or toxic levels of menadione (2-methyl-1,4-naphthoquinone) or tert-butyl hydroperoxide (t-BH). The resulting changes in cytosolic Ca2+ concentration were compared to those seen upon exposure of the hepatocytes to an alpha 1-adrenergic agonist, phenylephrine, as well as to those induced by menadione and t-BH in hepatocytes pretreated with agents that modify their toxicity. Exposure of hepatocytes to phenylephrine or non-toxic levels of menadione caused a moderate and transient increase in cytosolic Ca2+ (less than or equal to 0.7 microM), whereas a toxic concentration of menadione produced a marked, sustained increase in Ca2+ which fully saturated the binding capacity of Quin-2 (greater than 1.5 microM). Treatment of the hepatocytes with the protective agent, dithiothreitol, prevented both the increase in cytosolic Ca2+ and the cytotoxicity induced by menadione. On the other hand, pretreatment of cells with diethylmaleate to deplete intracellular glutathione made otherwise non-toxic concentrations of menadione cause both a sustained increase in cytosolic Ca2+ and cytotoxicity. Similarly, toxic concentrations of t-BH also caused a sustained increase in cytosolic Ca2+. The iron chelator, desferrioxamine, and dithiothreitol (DTT), which protected the cells from t-BH toxicity, also prevented the sustained elevation of cytosolic Ca2+. Our findings provide further support for the hypothesis that a perturbation of intracellular Ca2+ homeostasis is an early and critical event in the development of toxicity in hepatocytes exposed to oxidative stress. |
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