Brain mitochondrial dysfunction and oxidative damage in Parkinson's disease
- PMID: 19915964
- DOI: 10.1007/s10863-009-9250-6
Brain mitochondrial dysfunction and oxidative damage in Parkinson's disease
Abstract
Complex factors contribute to the appearance of Parkinson's disease (PD), but with a constant mitochondrial involvement. There are two interdependent conditions in PD: brain mitochondrial dysfunction and brain mitochondrial oxidative damage. Mitochondrial dysfunction and reduced complex I activity are recognized in substantia nigra and in frontal cortex in PD patients. The molecular mechanism involved in the inactivation of complex I is likely accounted by the sum of ONOO(-) mediated reactions, reactions with free radical intermediates of the lipid peroxidation process and amine-aldehyde adduction reactions. The inhibitory effects on complex I lead synergistically to denaturation of the protein structure and to further increases of O(2)(-) and ONOO(-) production at the vicinity of complex I. An adaptive response in PD patients has been described with increases in mtNOS activity, mitochondrial mass and mitochondrial biogenesis. Mitochondrial dysfunction in the human frontal cortex is to be considered a factor contributing to impaired cognition in PD.
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