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 Alzhei...

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Veröffentlicht in:	PloS one 2012-11, Vol.7 (11), p.e48225-e48225
Hauptverfasser:	Weir, Heather J M, Murray, Tracey K, Kehoe, Patrick G, Love, Seth, Verdin, Eric M, O'Neill, Michael J, Lane, Jon D, Balthasar, Nina
Format:	Artikel
Sprache:	eng
Schlagworte:	Advertising executives Age Alzheimer Disease - genetics Alzheimer Disease - metabolism Alzheimer Disease - pathology Alzheimer's disease Amyloid beta-Peptides - metabolism Analysis Animals Augmentation Biochemistry Biology Cell culture Central nervous system Central Nervous System - metabolism Central Nervous System - pathology Degeneration Dementia Disease Disease Models, Animal Electron Transport Enzymes HEK293 Cells HeLa Cells Hippocampus Humans Lentivirus Localization Medicine Mice Mitochondria Mitochondria - metabolism Neocortex Neurodegenerative diseases Neuroglia - metabolism Neuroglia - pathology Neurons Neurons - metabolism Neurons - pathology Neurophysiology Neuroprotection Neurosciences Overexpression Oxidative stress Oxygen Pharmacology Proteins Rats Reactive oxygen species Reactive Oxygen Species - metabolism RNA, Messenger - genetics RNA, Messenger - metabolism Rodents Sirtuin 3 - genetics Sirtuin 3 - metabolism Subcellular Fractions - metabolism Up-Regulation - genetics β-Amyloid
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Zusammenfassung:	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.
ISSN:	1932-6203 1932-6203
DOI:	10.1371/journal.pone.0048225