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Studies of Hirano Bodies in Living Cells

$320,606R01FY2013NSNIH

University Of Georgia, Athens GA

Investigators

Linked publications, trials & patents

Abstract

DESCRIPTION (provided by applicant): Alzheimer's disease is characterized by profound progressive neurodegeneration that has devastating effects not only on patients but also on families and caregivers. At present, there is no cure for Alzheimer's disease, and current treatments provide modest delay in progression in a subset of all patients. It is essential to identify pathways that can modulate the development of toxicity in order to develop new treatments. Studies of families with genetically inherited neurodegenerative disease, mouse models of Alzheimer's disease, and cell culture models implicate the amyloid beta peptide, the amyloid precursor protein from which amyloid beta is derived, and the microtubule binding protein tau in pathways that lead to loss of cognitive function. Hirano bodies are actin-rich structures that appear in the brain in increased numbers in association with many conditions including Alzheimer's disease. The physiological function of Hirano bodies is not known. However, it is known that Hirano bodies accumulate COOH terminal regions of the amyloid precursor protein and also tau. Therefore, Hirano bodies could influence the progression of Alzheimer's disease. We have recently developed cell culture models and a transgenic mouse model for studies of Hirano bodies. The long term goal of this project is to understand the impact of Hirano bodies on the progression of disease. The goal of this proposal is to test the hypothesis that Hirano bodies either promote or protect from development of pathology in Alzheimer's disease. To achieve this objective, a mouse model of Hirano bodies will be crossed with transgenic Alzheimer's model mice that have symptoms of neurodegeneration induced either by amyloid precursor protein or tau. The outcomes will be assessed using immunohistochemistry, electrophysiology, and behavioral studies to assess the effect of Hirano bodies on development of neuropathology and cognitive decline in vivo. These studies will critically test the hypothesis that Hirano bodies can modulate neurotoxicity in Alzheimer's disease. In addition, the studies will reveal whether Hirano bodies can affect toxicity initiated by pathways involving amyloid precursor protein and/or tau. If the results show that Hirano bodies can modulate the progression of this disease, then pathways involved in formation or degradation of Hirano bodies would be identified as novel targets for drug development to treat Alzheimer's disease.

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