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      Amyloid beta: the alternate hypothesis.

      Current Alzheimer Research

      Alzheimer Disease, genetics, metabolism, pathology, Amyloid beta-Peptides, biosynthesis, physiology, toxicity, Animals, Down Syndrome, Humans, Mice, Mice, Transgenic, Neurofibrils, Oxidative Stress

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          Alzheimer disease (AD) is a devastating condition and patients, caregivers, clinicians, and scientists are eager to decipher the underlying disease mechanism and, thereafter, target this therapeutically. Most investigators studying the underlying cause of AD have focused on amyloid-beta (Abeta) such that the Amyloid Cascade Hypothesis is the predominant mechanism thought to be responsible for the disease. However, a number of caveats have led us to seriously question the validity of this hypothesis. First, in addition to increases in Abeta, genetic mutations in AD lead to increased vulnerability to oxidative/apoptotic insults indicating that the mutated protein disturbs redox balance. Whether mutations result in Abeta deposition that then causes oxidative stress or whether mutations cause oxidative stress that results in Abeta deposition is unclear. Indeed, while in vitro experiments show that Abeta can directly cause oxidative stress to cells in culture, it is apparent from other studies that the reverse is also true, namely that oxidative stress leads to increases in Abeta. Notably, in vivo studies in both sporadic and genetic forms of the disease show that oxidative stress temporally precedes increases in Abeta and that increases in Abeta are associated with a decrease in oxidative stress. Based on these findings, we herein propose an Alternate Amyloid Hypothesis in which pathogenic factors for disease lead to increased oxidative stress that then leads to increases in Abeta. Further, we propose that Abeta serves as a redox sensor and that oxidatively-induced Abeta serves to attenuate oxidative stress. Obviously, whether Abeta is the culprit, as argued by the Amyloid Cascade Hypothesis, or a much maligned protector, as argued by the Alternate Amyloid Hypothesis, is clearly important to decipher to advance our understanding and design efficacious therapeutics for this disease.

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