Mitochondrial disease in superoxide dismutase 2 mutant mice
Copyright policy )Mitochondrial disease in superoxide dismutase 2 mutant mice
Oxidative stress has been implicated in many diseases. The chief source of reactive oxygen species within the cell is the mitochondrion. We have characterized a variety of the biochemical and metabolic effects of inactivation of the mouse gene for the mitochondrial superoxide dismutase (CD1- Sod2 tm1Cje ). The Sod2 mutant mice exhibit a tissue-specific inhibition of the respiratory chain enzymes NADH-dehydrogenase (complex I) and succinate dehydrogenase (complex II), inactivation of the tricarboxylic acid cycle enzyme aconitase, development of a urine organic aciduria in conjunction with a partial defect in 3-hydroxy-3-methylglutaryl-CoA lyase, and accumulation of oxidative DNA damage. These results indicate that the increase in mitochondrial reactive oxygen species can result in biochemical aberrations with features reminiscent of mitochondrial myopathy, Friedreich ataxia, and 3-hydroxy-3-methylglutaryl-CoA lyase deficiency.
- University of Colorado Denver United States
- University of Colorado Cancer Center United States
- Emory University United States
- National Jewish Health United States
- National Institute of Standards and Technology United States
Aconitate Hydratase, Male, Superoxide Dismutase, Carboxylic Acids, Brain, Mitochondrial Myopathies, Oxo-Acid-Lyases, Mice, Mutant Strains, Mitochondria, Heart, Oxidative Phosphorylation, Fumarate Hydratase, Mitochondria, Mitochondria, Muscle, Mice, Animals, Female, Reactive Oxygen Species, Crosses, Genetic, DNA Damage
Aconitate Hydratase, Male, Superoxide Dismutase, Carboxylic Acids, Brain, Mitochondrial Myopathies, Oxo-Acid-Lyases, Mice, Mutant Strains, Mitochondria, Heart, Oxidative Phosphorylation, Fumarate Hydratase, Mitochondria, Mitochondria, Muscle, Mice, Animals, Female, Reactive Oxygen Species, Crosses, Genetic, DNA Damage
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