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Oxidative stress and aberrant signaling in aging and cognitive decline
Version of Record online: 27 MAR 2007
Volume 6, Issue 3, pages 361–370, June 2007
How to Cite
Dröge, W. and Schipper, H. M. (2007), Oxidative stress and aberrant signaling in aging and cognitive decline. Aging Cell, 6: 361–370. doi: 10.1111/j.1474-9726.2007.00294.x
- Issue online: 27 MAR 2007
- Version of Record online: 27 MAR 2007
- Accepted for publication 7 March 2007
- oxidative brain aging;
- brain aging;
- cognitive aging;
- insulin signaling;
Brain aging is associated with a progressive imbalance between antioxidant defenses and intracellular concentrations of reactive oxygen species (ROS) as exemplified by increases in products of lipid peroxidation, protein oxidation, and DNA oxidation. Oxidative conditions cause not only structural damage but also changes in the set points of redox-sensitive signaling processes including the insulin receptor signaling pathway. In the absence of insulin, the otherwise low insulin receptor signaling is strongly enhanced by oxidative conditions. Autophagic proteolysis and sirtuin activity, in turn, are downregulated by the insulin signaling pathway, and impaired autophagic activity has been associated with neurodegeneration. In genetic studies, impairment of insulin receptor signaling causes spectacular lifespan extension in nematodes, fruit flies, and mice. The predicted effects of age-related oxidative stress on sirtuins and autophagic activity and the corresponding effects of antioxidants remain to be tested experimentally. However, several correlates of aging have been shown to be ameliorated by antioxidants. Oxidative damage to mitochondrial DNA and the electron transport chain, perturbations in brain iron and calcium homeostasis, and changes in plasma cysteine homeostasis may altogether represent causes and consequences of increased oxidative stress. Aging and cognitive decline thus appear to involve changes at multiple nodes within a complex regulatory network.