Exercise, fasting, and mimetics: toward beneficial combinations?

RT Jaspers, MC Zillikens, ECH Friesema… - The FASEB …, 2017 - Wiley Online Library
RT Jaspers, MC Zillikens, ECH Friesema, G delli Paoli, W Bloch, AG Uitterlinden, F Goglia
The FASEB Journal, 2017Wiley Online Library
Obesity and type 2 diabetes are associated disorders that involve a multiplicity of tissues.
Both fasting and physical exercise are known to counteract dyslipidemia/hyperglycemia.
Skeletal muscle plays a key role in the control of blood glucose levels, and the metabolic
changes and related signaling pathways in skeletal muscle induced by fasting overlap with
those induced by exercise. The reduction of fat disposal has been shown to extend to the
liver and to white and brown adipose tissue and to involve an increase in their metabolic …
Obesity and type 2 diabetes are associated disorders that involve a multiplicity of tissues. Both fasting and physical exercise are known to counteract dyslipidemia/hyperglycemia. Skeletal muscle plays a key role in the control of blood glucose levels, and the metabolic changes and related signaling pathways in skeletal muscle induced by fasting overlap with those induced by exercise. The reduction of fat disposal has been shown to extend to the liver and to white and brown adipose tissue and to involve an increase in their metabolic activities. In recent years signal transduction pathways related to exercise and fasting/food withdrawal in muscle have been intensively studied, both in animals and in humans. Combining fasting/food withdrawal with exercise in animals as well as in humans causes changes unlike those seen during fasting/food withdrawal or exercise alone, which favor repair of muscle over autophagy. In addition, compounds that mimic exercise have been studied in combination with exercise or fasting/food withdrawal. This review addresses our current knowledge of the mechanisms that underlie the individual and combined effects of fasting/food withdrawal, endurance or resistance exercise, and their mimetics, in muscle vs. other organs in rodents and humans, and highlights which combinations may improve metabolic disorders.—Jaspers, R. T., Zillikens, M. C., Friesema, E. C. H., delli Paoli, G., Bloch, W., Uitterlinden, A. G., Goglia, F., Lanni, A., de Lange, P. Exercise, fasting, and mimetics: toward beneficial combinations. FASEB J. 31, 14–28 (2017) www.fasebj.org
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