Processing Of Oxidative Stress In Alzheimer
National Institute On Aging
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Abstract
We are testing the hypothesis that the accumulation of oxidative DNA damage contributes to neuronal dysfunction seen in neurodegenerative diseases by utilizing multiple model systems like transgenic mice, cultured cells and C. elegans. We are focusing on Alzheimer's disease (AD) since this is the most prevalent form of dementia in people 65 years or older. The base excision repair (BER) pathway repairs oxidative DNA damage, such as base modifications, which occur spontaneously or from attack by reactive oxygen species (ROS). DNA polymerase Beta (PolB) is responsible for the DNA synthesis step in the BER pathway, which can be rate limiting. Previously we bred the 3xTg AD mouse to our DNA Polymerase Beta heterozygous mouse (PolB) to create a new mouse model, 3xTgAD/PolB+/- that displayed several important new features that the parental AD mouse model did not. We observed elevated cell death markers, altered ABeta deposition, greater mitochondrial dysfunction, worse memory and learning and worse smelling defects. These added features make the new mouse model more similar to the AD presentation seen in humans. Together, our work and others suggest that deficiencies in BER enzymes might contribute to the accumulation of oxidative damage in both nuclear and mitochondria DNA of AD patients and contribute to disease progression.
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