Pathology
Mutations in the subunits of Complex I can cause mitochondrial diseases, including Leigh syndrome. Point mutations in various Complex I subunits derived from mitochondrial DNA (mtDNA) can also result in Leber's Hereditary Optic Neuropathy. There is some evidence that Complex I defects may play a role in the etiology of Parkinson's disease, perhaps because of reactive oxygen species (Complex I can, like Complex III, leak electrons to oxygen, forming highly toxic superoxide).
Although the exact etiology of Parkinson’s disease is unclear, it is likely that mitochondrial dysfunction, along with proteasome inhibition and environmental toxins, may play a large role. In fact, the inhibition of Complex I has been shown to cause the production of peroxides and a decrease in proteasome activity, which may lead to Parkinson’s disease. Additionally, Esteves et al. (2010) found that cell lines with Parkinson’s disease show increased proton leakage in Complex I, which causes decreased maximum respiratory capacity.
Recent studies have examined other roles of NADH dehydrogenase activity in the brain. Andreazza et al. (2010) found that the level of Complex I activity was significantly decreased in patients with bipolar disorder, but not in patients with depression or schizophrenia. They found that patients with bipolar disorder showed increased protein oxidation and nitration in their prefrontal cortex. These results suggest that future studies should target Complex I for potential therapeutic studies for bipolar disorder. Similarly, Moran et al. (2010) found that patients with severe Complex I deficiency showed decreased oxygen consumption rates and slower growth rates. However, they found that mutations in different genes in Complex I lead to different phenotypes, thereby explaining the variations of pathophysiological manifestations of Complex I deficiency.
Exposure to pesticides can also inhibit Complex I and cause disease symptoms. For example, chronic exposure to low levels of dichlorvos, an organophosphate used as a pesticide, has been shown to cause liver dysfunction. This occurs because dichlorvos alters Complex I and II activity levels, which leads to decreased mitochondrial electron transfer activities and decreased ATP synthesis.
Read more about this topic: NADH Dehydrogenase
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