CNS SIRT3 Expression Is Altered by Reactive Oxygen Species and in Alzheimer’s Disease
Copyright policy )CNS SIRT3 Expression Is Altered by Reactive Oxygen Species and in Alzheimer’s Disease
Progressive mitochondrial dysfunction contributes to neuronal degeneration in age-mediated disease. An essential regulator of mitochondrial function is the deacetylase, sirtuin 3 (SIRT3). Here we investigate a role for CNS Sirt3 in mitochondrial responses to reactive oxygen species (ROS)- and Alzheimer's disease (AD)-mediated stress. Pharmacological augmentation of mitochondrial ROS increases Sirt3 expression in primary hippocampal culture with SIRT3 over-expression being neuroprotective. Furthermore, Sirt3 expression mirrors spatiotemporal deposition of β-amyloid in an AD mouse model and is also upregulated in AD patient temporal neocortex. Thus, our data suggest a role for SIRT3 in mechanisms sensing and tackling ROS- and AD-mediated mitochondrial stress.
- University of California, San Francisco United States
- University of Bristol United Kingdom
- Eli Lilly (United States) United States
Central Nervous System, MITOCHONDRIAL DYSFUNCTION, STRESS, Science, 610, MECHANISMS, Electron Transport, Mice, Alzheimer Disease, Sirtuin 3, name=Cerebrovascular and Dementia Research Group, LYSINE ACETYLATION, 616, Animals, Humans, RNA, Messenger, A-BETA, Neurons, Amyloid beta-Peptides, Q, Lentivirus, TRANSGENIC MOUSE, R, SIRT3-MEDIATED DEACETYLATION, Mitochondria, Rats, Up-Regulation, AMYLOID PRECURSOR PROTEIN, Disease Models, Animal, HEK293 Cells, OXIDATIVE DAMAGE, Medicine, Reactive Oxygen Species, /dk/atira/pure/core/keywords/dementia_research_group, Neuroglia, RESTRICTION, Research Article, HeLa Cells, Subcellular Fractions
Central Nervous System, MITOCHONDRIAL DYSFUNCTION, STRESS, Science, 610, MECHANISMS, Electron Transport, Mice, Alzheimer Disease, Sirtuin 3, name=Cerebrovascular and Dementia Research Group, LYSINE ACETYLATION, 616, Animals, Humans, RNA, Messenger, A-BETA, Neurons, Amyloid beta-Peptides, Q, Lentivirus, TRANSGENIC MOUSE, R, SIRT3-MEDIATED DEACETYLATION, Mitochondria, Rats, Up-Regulation, AMYLOID PRECURSOR PROTEIN, Disease Models, Animal, HEK293 Cells, OXIDATIVE DAMAGE, Medicine, Reactive Oxygen Species, /dk/atira/pure/core/keywords/dementia_research_group, Neuroglia, RESTRICTION, Research Article, HeLa Cells, Subcellular Fractions
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