Parks Jk scite author profile

The mitochondrial electron transport enzyme NADH:ubiquinone oxidoreductase (complex I), which is encoded by both mitochondrial DNA and nuclear DNA, is defective in multiple tissues in persons with Parkinson's disease (PD). The origin of this lesion and its role in the neurodegeneration of PD are unknown. To address these questions, we created an in vitro system in which the potential contributions of environmental toxins, complex I nuclear DNA mutations, and mitochondrial DNA mutations could be systematically analyzed. A clonal line of human neuroblastoma cells containing no mitochondrial DNA was repopulated with mitochondria derived from the platelets of PD or control subjects. After 5 to 6 weeks in culture, these cytoplasmic hybrid (cybrid) cell lines were assayed for electron transport chain activities, production of reactive oxygen species, and sensitivity to induction of apoptotic cell death by 1-methyl-4-phenyl pyridinium (MPP+). In PD cybrids we found a stable 20% decrement in complex I activity, increased oxygen radical production, and increased susceptibility to 1-methyl-4-phenyl pyridinium-induced programmed cell death. The complex I defect in PD appears to be genetic, arising from mitochondrial DNA, and may play an important role in the neurodegeneration of PD by fostering reactive oxygen species production and conferring increased neuronal susceptibility to mitochondrial toxins.

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Mitochondria in Sporadic Amyotrophic Lateral Sclerosis

Cassarino

et al. 1998

Experimental Neurology

164

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Cytochrome C Oxidase in Alzheimer's Disease Brain

Jk²

1995

Neurology

141

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Cytochrome c oxidase (COX) is deficient in both peripheral tissue and brain of Alzheimer's disease (AD) patients and may be of pathogenic significance in AD. We purified COX from AD brains (n = 3) and control brains (n = 3) and characterized the enzyme kinetically and spectrally. Purified AD brain COX displayed anomalous kinetic behavior compared with control brain COX in that the low Km binding site was kinetically unidentifiable. For purposes of comparison, we purified COX from a standard beef heart preparation and found normal kinetic behavior. AD brain COX may be structurally abnormal and may make an important contribution to the bioenergetic defect seen in AD.

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Cyclosporin A Increases Resting Mitochondrial Membrane Potential in SY5Y Cells and Reverses the Depressed Mitochondrial Membrane Potential of Alzheimer's Disease Cybrids

Cassarino

et al. 1998

Biochemical and Biophysical Research Communications

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Cytochrome Oxidase Inhibition: A Novel Animal Model of Alzheimer's Disease

et al. 1992

J Geriatr Psychiatry Neurol

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A profound decrease in activity of the mitochondrial enzyme cytochrome oxidase in blood platelets is a recently identified concomitant of Alzheimer's disease (AD). We investigated a possible pathogenic link between this finding and the symptoms of AD by mimicking this mitochondrial enzyme deficiency in rats. Rats were infused chronically with a selective inhibitor of cytochrome oxidase, sodium azide, or with saline delivered via subcutaneously implanted osmotic minipumps. The azide treatment impaired both spatial and nonspatial learning. Further, the azide treatment inhibited a low-threshold form of hippocampal long-term potentiation, primed burst potentiation. The behavioral deficits were not secondary to a sensory or motor impairment. Thus, chronic azide treatment of rats models some characteristics of AD.

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Parks Jk

Origin and functional consequences of the complex I defect in Parkinson's disease

Mitochondria in Sporadic Amyotrophic Lateral Sclerosis

Cytochrome C Oxidase in Alzheimer's Disease Brain

Cyclosporin A Increases Resting Mitochondrial Membrane Potential in SY5Y Cells and Reverses the Depressed Mitochondrial Membrane Potential of Alzheimer's Disease Cybrids

Cytochrome Oxidase Inhibition: A Novel Animal Model of Alzheimer's Disease

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