Regulation of energy metabolism may

Regulation of energy metabolism may also help stave off neurodegenerative diseases. During aging, especially during the development and progression of neurodegenerative diseases, including Alzheimer’s disease, damaged mitochondria are unable to maintain the energy demands of the cell. Interrupted energy metabolism is observed in many instances of neurodegeneration [28,11,17], including cerebral ischemia and Alzheimer’s disease [11]. Reductions in cerebral metabolic rate often occur before the development of clinical disabilities. Impairment of oxidative energy metabolism leads to increased expression of amyloid precursor protein [17] and to cytoskeletal disorganization, including the appearance of epitopes associated with paired helical filaments/tangles [16,34]. This can lead to an increased production of free radicals, which induces the interruption of oxidative phosphorylation, resulting in decreased levels of ATP that are necessary for normal energy homeostasis. Subsequently, cerebral metabolism may be unable to meet the energy demands required to restore dissipated membrane potentials, as ATP in the injured brain is significantly reduced. Furthermore, a limited energy supply is evident from the reductions in mitochondrial oxygen consumption, mitochondrial membrane potential, and mitochondrial enzymatic activity.