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Caloric Restriction: Difference between revisions

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=== Increased Autophagy ===
=== Increased Autophagy ===
Autophagy, also known as “cellular self-digestion”, is a cellular pathway involved in the breakdown of proteins and organelles, and plays a role in various diseases. Dysfunctions in autophagy are associated with neurodegenerative diseases, microbial infections, and aging.
[[Autophagy]], also known as “cellular self-digestion”, is a cellular pathway involved in the breakdown of proteins and organelles, and plays a role in various diseases. Dysfunctions in autophagy are associated with neurodegenerative diseases, microbial infections, and aging.


Several indications suggest that autophagy is important for the effects of calorie restriction: The efficiency of autophagy decreases with age; the decline in autophagy is associated with changes in aging biomarkers; the age-dependent change in autophagy is prevented experimentally by calorie restriction; preventing a decrease in autophagy efficiency mimics the effects of calorie restriction; prolonged inhibition of autophagy accelerates the aging process; conversely, prolonged stimulation of autophagy delays the aging process in [[Rat|rats]]; stimulating autophagy can protect older cells from accumulation of altered mitochondrial DNA; stimulating autophagy alleviates age-related hypercholesterolemia in rodents.{{pmid|23331488}}
Several indications suggest that autophagy is important for the effects of calorie restriction: The efficiency of autophagy decreases with age; the decline in autophagy is associated with changes in aging biomarkers; the age-dependent change in autophagy is prevented experimentally by calorie restriction; preventing a decrease in autophagy efficiency mimics the effects of calorie restriction; prolonged inhibition of autophagy accelerates the aging process; conversely, prolonged stimulation of autophagy delays the aging process in [[Rats (Rattus Norvegicus)|rats]]; stimulating autophagy can protect older cells from accumulation of altered mitochondrial DNA; stimulating autophagy alleviates age-related hypercholesterolemia in rodents.{{pmid|23331488}}


A comparable effect was observed in plants whose lighting was reduced.{{pmid|20021367}}
A comparable effect was observed in plants whose lighting was reduced.{{pmid|20021367}}
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