Open AccessJournal Article
Dietary Restriction and Glycolytic Inhibition Reduce Proteotoxicity and Extend Lifespan via NHR-49.
TLDR
Results support that PPAR-alpha-like activity mediates protective effects of dietary restriction by reducing glucose metabolism via reducing production of NADH, and corroborate and extend recent studies demonstrating that PPPAR- alpha agonists increase lifespan in C. elegans dependent on NHR-49.Abstract:
Mechanisms mediating protective effects of dietary restriction during aging are of great interest since activating such mechanisms protect against a wide range of age-related diseases. In mammals key metabolic responses to nutritional deprivation are mediated by the transcription factor PPAR-alpha, which is activated by free fatty acids and promotes lipid metabolism while inhibiting glucose metabolism. The C. elegans gene nhr-49 appears to function similarly in C. elegans. Here we report that protective effects of dietary restriction and inhibition of glucose metabolism to increase lifespan wild-type C. elegans and reduce toxicity in a polyQ model of Huntington's disease in C. elegans are dependent on NHR-49 and its co-activator CREB-Binding Protein (CBP). We have previously demonstrated that inhibition of cbp blocks protective effects of dietary restriction and blocks the molecular switch from glucose metabolism to alternative substrates. Conversely, increased glucose concentration and inhibition of cbp reduce lifespan and increase proteotoxicity. Lactate and inhibition of ETC complex II mimicked toxic effects of glucose on proteotoxicity whereas pyruvate and inhibition of ETC complex I protected against glucose-enhanced proteotoxicity. These results support that PPAR-alpha-like activity mediates protective effects of dietary restriction by reducing glucose metabolism via reducing production of NADH, and corroborate and extend recent studies demonstrating that PPPAR-alpha agonists increase lifespan in C. elegans dependent on NHR-49.read more
Citations
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p300 Interacts with the N- and C-terminal parts of PPARγ2 in a ligand-independent and dependent manner, respectively
TL;DR: It is shown here that the interaction between p300/CBP and PPARgamma is complex and involves multiple domains in each protein, which could enhance the transcriptional activities of both the activating function (AF)-1 and AF-2 domains.
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Dietary regulation in health and disease
TL;DR: In this article , different forms of dietary interventions have been extensively prescribed for healthspan improvement and disease treatment in pre-clinical or clinical settings, including metabolic regulators, nutritive metabolism pathways, epigenetic mechanisms and circadian clocks.
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Polyunsaturated fatty acids and p38-MAPK link metabolic reprogramming to cytoprotective gene expression during dietary restriction.
Manish Chamoli,Anita Goyala,Syed Shamsh Tabrez,Atif Ahmed Siddiqui,Anupama Singh,Adam Antebi,Adam Antebi,Gordon J. Lithgow,Jennifer L. Watts,Arnab Mukhopadhyay +9 more
TL;DR: This study shows that PUFAs and p38-MAPK pathway function downstream of DR to help communicate the metabolic state of an organism to regulate expression of CyTP genes, ensuring extended life span.
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Evaluating the beneficial effects of dietary restrictions: A framework for precision nutrigeroscience
Kenneth A. Wilson,Manish Chamoli,Tyler A. Hilsabeck,Tyler A. Hilsabeck,Manish K. Pandey,Sakshi Bansal,Geetanjali Chawla,Pankaj Kapahi,Pankaj Kapahi +8 more
TL;DR: Dietary restriction has long been viewed as the most robust nongenetic means to extend lifespan and healthspan as discussed by the authors, but despite the ubiquitous functions of these pathways, the benefits of DR often vary among individuals and even among tissues within an individual.
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Gluconeogenesis and PEPCK are critical components of healthy aging and dietary restriction life extension.
TL;DR: The data underscore the idea that promotion of gluconeogenesis might be an unappreciated goal for healthy aging and could constitute a novel target for pharmacological interventions that counter high glucose consequences, including diabetes.
References
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Journal ArticleDOI
Extending Healthy Life Span-From Yeast to Humans
TL;DR: Dietary restriction and reduced activity of nutrient-sensing pathways may slow aging by similar mechanisms, which have been conserved during evolution, and their potential application to prevention of age-related disease and promotion of healthy aging in humans, and the challenge of possible negative side effects.
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Specific interference by ingested dsRNA
Lisa Timmons,Andrew Fire +1 more
TL;DR: This work shows that C. elegans can respond in a gene-specific manner to dsRNA encountered in the environment, and finds that Escherichia coli bacteria expressing dsRNAs can confer specific interference effects on the nematode larvae that feed on them.
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Requirement of NAD and SIR2 for Life-Span Extension by Calorie Restriction in Saccharomyces cerevisiae
TL;DR: These findings suggest that the increased longevity induced by calorie restriction requires the activation of Sir2p by NAD, the oxidized form of nicotinamide adenine dinucleotide.
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Glucose Restriction Extends Caenorhabditis elegans Life Span by Inducing Mitochondrial Respiration and Increasing Oxidative Stress
TL;DR: It is indicated that glucose restriction promotes mitochondrial metabolism, causing increased ROS formation and cumulating in hormetic extension of life span, questioning current treatments of type 2 diabetes as well as the widespread use of antioxidant supplements.
Journal ArticleDOI
The Huntington's disease protein interacts with p53 and CREB-binding protein and represses transcription.
Joan S. Steffan,Aleksey G. Kazantsev,Olivera Spasic-Boskovic,Marilee Greenwald,Ya-Zhen Zhu,Heike Göhler,Erich E. Wanker,Gillian P. Bates,David E. Housman,Leslie M. Thompson +9 more
TL;DR: The possibility that expanded repeat htt causes aberrant transcriptional regulation through its interaction with cellular transcription factors which may result in neuronal dysfunction and cell death in HD is raised.