Redox imbalance and metabolic defects in the context of Alzheimer disease

During aging, a progressive failure of energy metabolism occurs resulting in brain hypometabolism. This condition, combined with redox disturbance, contributes to increase neuronal cell vulnerability ultimately leading to neurodegeneration. Down syndrome and Alzheimer disease neuropathologies present several molecular similarities, among which perturbation of redox homeostasis and reduced energy production are major players that accelerate neuronal damage. Redox reactions play a critical role for intracellular processes, including pathways involved in metabolism and signaling. Reactive oxygen species (ROS) act either as second messengers or generators of protein modifications, fundamental mechanisms for signal transduction. Disturbance of redox homeostasis is associated with many disorders. Among these, Alzheimer's disease is a neurodegenerative pathology that presents hallmarks of oxidative damage such as increased ROS production, decreased activity of antioxidant enzymes, oxidative modifications of macromolecules, and changes in mitochondrial homeostasis. Interestingly, alteration of redox homeostasis is closely associated with defects of energy metabolism, involving both carbohydrates and lipids, the major energy fuels for the cell. As the brain relies exclusively on glucose metabolism, defects of glucose utilization represent a harmful event for the brain. During aging, a progressive perturbation of energy metabolism occurs resulting in brain hypometabolism. This conditio...
Source: FEBS Letters - Category: Biochemistry Authors: Tags: Review Source Type: research