Add to ORKGIt has been well documented that calorie restriction (CR) without malnutrition is an effective strategy to improve health and extend lifespan in a variety of species. The mechanisms underlying CR are unclear. We proposed that a reduction in proton leak-dependent respiration could play a central role in the action of CR by inhibiting reactive oxygen species (ROS) production. In support of this hypothesis, we found that CR resulted in a rapid and sustained reduction in both maximum leak-dependent respiration and ROS production in skeletal muscle mitochondria. We also demonstrated that CR appears to decrease ROS production by different mechanisms in the acute and chronic settings. To further pursue the mechanism governing these adaptations, we...
PMCID: PMC4138957.-- et al.Calorie restriction (CR) has been shown to decrease reactive oxygen speci...
Dietary restriction (DR) across a wide phylogenetic range increases both mean and maximal lifespan b...
The effect of caloric restriction (CR) (40%) on the rates of mitochondrial H2O2 production and oxyg...
AbstractCalorie restriction (CR), without malnutrition, consistently increases lifespan in all speci...
The 'uncoupling to survive' theory suggests that mitochondrial uncoupling protects cells from reacti...
We thank Mai Persson, Charles Ford, Jaime Gransee, and Melissa Aakre for technical expertise. We are...
SummaryCaloric restriction (CR) mitigates many detrimental effects of aging and prolongs life span. ...
The overall objective of this thesis was to examine various aspects of the metabolic significance an...
Mitochondria are chronically exposed to reactive oxygen intermediates. As a result, various tissues,...
International audienceCalorie restriction (CR) is a dietary intervention that extends lifespan and h...
Rodent skeletal muscle mitochondrial DNA has been shown to be a potential site of oxidative damage d...
Ageing causes loss of function in tissues and organs, is accompanied by a chronic inflammatory proce...
Dietary restriction (DR) is suggested to induce mitochondrial biogenesis, although recently this has...
Mitochondrial membrane potential is the major regulator of mitochondrial functions, including coupli...
Previous studies in mammalian models indicate that the rate of mitochondrial reactive oxygen species...
PMCID: PMC4138957.-- et al.Calorie restriction (CR) has been shown to decrease reactive oxygen speci...
Dietary restriction (DR) across a wide phylogenetic range increases both mean and maximal lifespan b...
The effect of caloric restriction (CR) (40%) on the rates of mitochondrial H2O2 production and oxyg...
AbstractCalorie restriction (CR), without malnutrition, consistently increases lifespan in all speci...
The 'uncoupling to survive' theory suggests that mitochondrial uncoupling protects cells from reacti...
We thank Mai Persson, Charles Ford, Jaime Gransee, and Melissa Aakre for technical expertise. We are...
SummaryCaloric restriction (CR) mitigates many detrimental effects of aging and prolongs life span. ...
The overall objective of this thesis was to examine various aspects of the metabolic significance an...
Mitochondria are chronically exposed to reactive oxygen intermediates. As a result, various tissues,...
International audienceCalorie restriction (CR) is a dietary intervention that extends lifespan and h...
Rodent skeletal muscle mitochondrial DNA has been shown to be a potential site of oxidative damage d...
Ageing causes loss of function in tissues and organs, is accompanied by a chronic inflammatory proce...
Dietary restriction (DR) is suggested to induce mitochondrial biogenesis, although recently this has...
Mitochondrial membrane potential is the major regulator of mitochondrial functions, including coupli...
Previous studies in mammalian models indicate that the rate of mitochondrial reactive oxygen species...
PMCID: PMC4138957.-- et al.Calorie restriction (CR) has been shown to decrease reactive oxygen speci...
Dietary restriction (DR) across a wide phylogenetic range increases both mean and maximal lifespan b...
The effect of caloric restriction (CR) (40%) on the rates of mitochondrial H2O2 production and oxyg...