Mitochondria in aging and Alzheimer's disease
by
Crouch PJ, Cimdins K, Duce JA, Bush AI, Trounce IA.
Department of Pathology,
The University of Melbourne, Melbourne, Australia.
Rejuvenation Res. 2007 Sep;10(3):349-57.


ABSTRACT

Two significant risk factors are inextricably linked with Alzheimer's disease: advancing age, and accumulation of the amyloid-beta peptide. Over the age of 65 the risk of developing Alzheimer's disease increases almost exponentially with age, and the amyloid-beta rich neuritic plaques of the Alzheimer's disease brain are a histopathological hallmark of the disease. Since its identification as a major constituent of neuritic plaques amyloid-beta has attracted intense research focus as the primary causative agent in the development of Alzheimer's disease. As a result, numerous reports now exist to propose potential neurotoxic mechanisms mediated by amyloid-beta. Despite these research efforts, there is still a scarcity of information on the biologic link between aging and amyloid-beta in Alzheimer's disease, and although increasing evidence indicates that intracellular amyloid-beta is acutely toxic, there is also a paucity of information on the mechanisms of neurotoxicity mediated by intracellular amyloid-beta. Functional decline of mitochondria with aging is well established, and growing evidence attributes this decline to loss of mitochondrial DNA integrity in postmitotic cells including neurons. Oxidative stress due to mitochondrial failure may drive increased amyloidogenic processing of the amyloid-beta precursor protein, contributing to a loss of amyloid-beta precursor protein functionality and increased amyloid-beta production. Importantly, recent data show that amyloid-beta accumulates within mitochondria of the Alzheimer's disease brain. We speculate that age-related somatic mutation of mitochondrial DNA may be an important factor underlying sporadic Alzheimer's disease.

AGEs
SENS
SENSE
Male longevity
Caloric restriction
Intermittent fasting
Antiaging medicine?
Antiaging treatments
Mitochondrial enzymes
Antagonistic pleiotropy
Caloric restriction mimetics
Cryonics/negligible senescence
Lifespan-extending interventions
CR/age-related oxidative damage
Does resveratrol enhance longevity?
Resveratrol and vertebrate lifespan (PDF)


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