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System-wide Benefits of Intermeal Fasting by Autophagy.

Citation
Martinez-Lopez, N., et al. “System-Wide Benefits Of Intermeal Fasting By Autophagy.”. Cell Metabolism, pp. 856-871.e5.
Center Albert Einstein College of Medicine
Featured
Author Nuria Martinez-Lopez, Elena Tarabra, Miriam Toledo, Marina Garcia-Macia, Srabani Sahu, Luisa Coletto, Ana Batista-Gonzalez, Nir Barzilai, Jeffrey E Pessin, Gary J Schwartz, Sander Kersten, Rajat Singh
Keywords POMC, aging, Autophagy, caloric restriction, circadian, fatty liver, Gluconeogenesis, metabolic syndrome, myogenic progenitors, twice-a-day feeding
Abstract

Autophagy failure is associated with metabolic insufficiency. Although caloric restriction (CR) extends healthspan, its adherence in humans is poor. We established an isocaloric twice-a-day (ITAD) feeding model wherein ITAD-fed mice consume the same food amount as ad libitum controls but at two short windows early and late in the diurnal cycle. We hypothesized that ITAD feeding will provide two intervals of intermeal fasting per circadian period and induce autophagy. We show that ITAD feeding modifies circadian autophagy and glucose/lipid metabolism that correlate with feeding-driven changes in circulating insulin. ITAD feeding decreases adiposity and, unlike CR, enhances muscle mass. ITAD feeding drives energy expenditure, lowers lipid levels, suppresses gluconeogenesis, and prevents age/obesity-associated metabolic defects. Using liver-, adipose-, myogenic-, and proopiomelanocortin neuron-specific autophagy-null mice, we mapped the contribution of tissue-specific autophagy to system-wide benefits of ITAD feeding. Our studies suggest that consuming two meals a day without CR could prevent the metabolic syndrome.

Year of Publication
2017
Journal
Cell metabolism
Volume
26
Issue
6
Number of Pages
856-871.e5
Date Published
12/2017
ISSN Number
1932-7420
DOI
10.1016/j.cmet.2017.09.020
Alternate Journal
Cell Metab.
PMID
29107505
PMCID
PMC5718973
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