Resveratrol Directly Binds to Mitochondrial Complex I and Increases Oxidative Stress in Brain Mitochondria of Aged Mice.

Resveratrol Directly Binds to Mitochondrial Complex I and Increases Oxidative Stress in Brain Mitochondria of Aged Mice.

Resveratrol is often described as a promising therapeutic molecule for numerous diseases, especially in metabolic and neurodegenerative disorders. While the mechanism of action is still debated, an increasing literature reports that resveratrol regulates the mitochondrial respiratory chain function....

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Main Authors: Naïg Gueguen, Valérie Desquiret-Dumas, Géraldine Leman, Stéphanie Chupin, Stéphanie Baron, Valérie Nivet-Antoine, Emilie Vessières, Audrey Ayer, Daniel Henrion, Guy Lenaers, Pascal Reynier, Vincent Procaccio
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2015-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4694087?pdf=render
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spelling doaj-21d2f539206b4222ac57ee05cafe96272020-11-25T00:04:27ZengPublic Library of Science (PLoS)PLoS ONE1932-62032015-01-011012e014429010.1371/journal.pone.0144290Resveratrol Directly Binds to Mitochondrial Complex I and Increases Oxidative Stress in Brain Mitochondria of Aged Mice.Naïg GueguenValérie Desquiret-DumasGéraldine LemanStéphanie ChupinStéphanie BaronValérie Nivet-AntoineEmilie VessièresAudrey AyerDaniel HenrionGuy LenaersPascal ReynierVincent ProcaccioResveratrol is often described as a promising therapeutic molecule for numerous diseases, especially in metabolic and neurodegenerative disorders. While the mechanism of action is still debated, an increasing literature reports that resveratrol regulates the mitochondrial respiratory chain function. In a recent study we have identified mitochondrial complex I as a direct target of this molecule. Nevertheless, the mechanisms and consequences of such an interaction still require further investigation. In this study, we identified in silico by docking study a binding site for resveratrol at the nucleotide pocket of complex I. In vitro, using solubilized complex I, we demonstrated a competition between NAD+ and resveratrol. At low doses (<5μM), resveratrol stimulated complex I activity, whereas at high dose (50 μM) it rather decreased it. In vivo, in brain mitochondria from resveratrol treated young mice, we showed that complex I activity was increased, whereas the respiration rate was not improved. Moreover, in old mice with low antioxidant defenses, we demonstrated that complex I activation by resveratrol led to oxidative stress. These results bring new insights into the mechanism of action of resveratrol on mitochondria and highlight the importance of the balance between pro- and antioxidant effects of resveratrol depending on its dose and age. These parameters should be taken into account when clinical trials using resveratrol or analogues have to be designed.http://europepmc.org/articles/PMC4694087?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Naïg Gueguen
Valérie Desquiret-Dumas
Géraldine Leman
Stéphanie Chupin
Stéphanie Baron
Valérie Nivet-Antoine
Emilie Vessières
Audrey Ayer
Daniel Henrion
Guy Lenaers
Pascal Reynier
Vincent Procaccio
spellingShingle Naïg Gueguen
Valérie Desquiret-Dumas
Géraldine Leman
Stéphanie Chupin
Stéphanie Baron
Valérie Nivet-Antoine
Emilie Vessières
Audrey Ayer
Daniel Henrion
Guy Lenaers
Pascal Reynier
Vincent Procaccio
Resveratrol Directly Binds to Mitochondrial Complex I and Increases Oxidative Stress in Brain Mitochondria of Aged Mice.
PLoS ONE
author_facet Naïg Gueguen
Valérie Desquiret-Dumas
Géraldine Leman
Stéphanie Chupin
Stéphanie Baron
Valérie Nivet-Antoine
Emilie Vessières
Audrey Ayer
Daniel Henrion
Guy Lenaers
Pascal Reynier
Vincent Procaccio
author_sort Naïg Gueguen
title Resveratrol Directly Binds to Mitochondrial Complex I and Increases Oxidative Stress in Brain Mitochondria of Aged Mice.
title_short Resveratrol Directly Binds to Mitochondrial Complex I and Increases Oxidative Stress in Brain Mitochondria of Aged Mice.
title_full Resveratrol Directly Binds to Mitochondrial Complex I and Increases Oxidative Stress in Brain Mitochondria of Aged Mice.
title_fullStr Resveratrol Directly Binds to Mitochondrial Complex I and Increases Oxidative Stress in Brain Mitochondria of Aged Mice.
title_full_unstemmed Resveratrol Directly Binds to Mitochondrial Complex I and Increases Oxidative Stress in Brain Mitochondria of Aged Mice.
title_sort resveratrol directly binds to mitochondrial complex i and increases oxidative stress in brain mitochondria of aged mice.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2015-01-01
description Resveratrol is often described as a promising therapeutic molecule for numerous diseases, especially in metabolic and neurodegenerative disorders. While the mechanism of action is still debated, an increasing literature reports that resveratrol regulates the mitochondrial respiratory chain function. In a recent study we have identified mitochondrial complex I as a direct target of this molecule. Nevertheless, the mechanisms and consequences of such an interaction still require further investigation. In this study, we identified in silico by docking study a binding site for resveratrol at the nucleotide pocket of complex I. In vitro, using solubilized complex I, we demonstrated a competition between NAD+ and resveratrol. At low doses (<5μM), resveratrol stimulated complex I activity, whereas at high dose (50 μM) it rather decreased it. In vivo, in brain mitochondria from resveratrol treated young mice, we showed that complex I activity was increased, whereas the respiration rate was not improved. Moreover, in old mice with low antioxidant defenses, we demonstrated that complex I activation by resveratrol led to oxidative stress. These results bring new insights into the mechanism of action of resveratrol on mitochondria and highlight the importance of the balance between pro- and antioxidant effects of resveratrol depending on its dose and age. These parameters should be taken into account when clinical trials using resveratrol or analogues have to be designed.
url http://europepmc.org/articles/PMC4694087?pdf=render
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