Isolated cerebral and cerebellar mitochondria produce free radicals when exposed to elevated CA2+ and Na+: implications for neurodegeneration
The evidence is compelling that free radicals, plus increases in free cytosolic Ca2+ and Na+, figure prominently in neuronal death after exposure to glutamate and dicarboxylic excitotoxins such as NMDA and kainate. However, neither the source of these radicals nor the direct connection between Ca2+...
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| Published in | Journal of neurochemistry Vol. 63; no. 2; p. 584 |
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| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
England
01.08.1994
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| Subjects | |
| Online Access | Get more information |
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| Abstract | The evidence is compelling that free radicals, plus increases in free cytosolic Ca2+ and Na+, figure prominently in neuronal death after exposure to glutamate and dicarboxylic excitotoxins such as NMDA and kainate. However, neither the source of these radicals nor the direct connection between Ca2+ mobilization and radical production has been well defined. Electron paramagnetic resonance studies reported here indicate that intact mitochondria isolated from adult rat cerebral cortex and cerebellum generate extremely reactive hydroxyl (.OH) radicals, plus ascorbyl and other carbon-centered radicals when exposed to 2.5 microM Ca2+, 14 mM Na+, plus elevated ADP under normoxic conditions, circumstances that prevail in the cytoplasm of neurons during excitotoxin-induced neurodegeneration. In a feed-forward cycle, exposure of isolated mitochondria to .OH significantly increases subsequent radical production five- to 16-fold (average = 8.8 +/- 1.6 SE, n = 6, p > 0.01) with succinate as substrate, and also selectively impairs function of NADH-CoQ dehydrogenase activity (electron transport complex 1). These effects are also reflected by respiration rates that are reduced 48% with complex 1 substrates, but increased 27% with complex 2 substrate, after .OH exposure. Comparable complex 1 dysfunction is observed in mitochondria isolated from the substantia nigra of Parkinson's disease patients, from platelets of Huntington's disease patients, and from neocortex of Alzheimer's disease patients. Mitochondrial radical production provides a testable model, based on oxyradical toxicity, oxidative enzyme inactivation, and mitochondrial dysfunction, for the final common pathway of neuronal necrosis during excitotoxicity, and in a host of neurodegenerative disorders. |
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| AbstractList | The evidence is compelling that free radicals, plus increases in free cytosolic Ca2+ and Na+, figure prominently in neuronal death after exposure to glutamate and dicarboxylic excitotoxins such as NMDA and kainate. However, neither the source of these radicals nor the direct connection between Ca2+ mobilization and radical production has been well defined. Electron paramagnetic resonance studies reported here indicate that intact mitochondria isolated from adult rat cerebral cortex and cerebellum generate extremely reactive hydroxyl (.OH) radicals, plus ascorbyl and other carbon-centered radicals when exposed to 2.5 microM Ca2+, 14 mM Na+, plus elevated ADP under normoxic conditions, circumstances that prevail in the cytoplasm of neurons during excitotoxin-induced neurodegeneration. In a feed-forward cycle, exposure of isolated mitochondria to .OH significantly increases subsequent radical production five- to 16-fold (average = 8.8 +/- 1.6 SE, n = 6, p > 0.01) with succinate as substrate, and also selectively impairs function of NADH-CoQ dehydrogenase activity (electron transport complex 1). These effects are also reflected by respiration rates that are reduced 48% with complex 1 substrates, but increased 27% with complex 2 substrate, after .OH exposure. Comparable complex 1 dysfunction is observed in mitochondria isolated from the substantia nigra of Parkinson's disease patients, from platelets of Huntington's disease patients, and from neocortex of Alzheimer's disease patients. Mitochondrial radical production provides a testable model, based on oxyradical toxicity, oxidative enzyme inactivation, and mitochondrial dysfunction, for the final common pathway of neuronal necrosis during excitotoxicity, and in a host of neurodegenerative disorders. |
| Author | Dykens, J A |
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| SubjectTerms | Adenosine Diphosphate - pharmacology Animals Calcium - pharmacology Cell Hypoxia Cerebellum - metabolism Cerebral Cortex - metabolism Electron Spin Resonance Spectroscopy Electron Transport Free Radicals - metabolism Humans Hydroxyl Radical - metabolism Male Mitochondria - drug effects Mitochondria - metabolism NAD(P)H Dehydrogenase (Quinone) - metabolism Nerve Degeneration Neurons - metabolism Nitrogen Oxides Parkinson Disease - metabolism Pyridines Rats Rats, Wistar Sodium - pharmacology Spin Labels |
| Title | Isolated cerebral and cerebellar mitochondria produce free radicals when exposed to elevated CA2+ and Na+: implications for neurodegeneration |
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