The Skeletal Muscle Response to Energy Deficiency: A Life History Perspective

Energy is a finite resource that is competitively distributed among the body’s systems and biological processes. During times of scarcity, energetic “trade-offs” may arise if less energy is available than is required to optimally sustain all systems. More immediately essential functions are predicte...

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Veröffentlicht in:	Adaptive human behavior and physiology 2022-03, Vol.8 (1), p.114-129
Hauptverfasser:	Oliveira-Junior, Gersiel, Pinto, Rafaela S., Shirley, Meghan K., Longman, Daniel P., Koehler, Karsten, Saunders, Bryan, Roschel, Hamilton, Dolan, Eimear
Format:	Artikel
Sprache:	eng
Schlagworte:	Amino acids Anthropology Behavioral Sciences Biological Psychology Body composition Body fat Commentary Energy Evolutionary Biology Human Physiology Life history Metabolism Musculoskeletal system Neurosciences Nutritional status Protein synthesis Proteins Sexes Skeletal muscle Social Sciences
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creator	Oliveira-Junior, Gersiel Pinto, Rafaela S. Shirley, Meghan K. Longman, Daniel P. Koehler, Karsten Saunders, Bryan Roschel, Hamilton Dolan, Eimear
description	Energy is a finite resource that is competitively distributed among the body’s systems and biological processes. During times of scarcity, energetic “trade-offs” may arise if less energy is available than is required to optimally sustain all systems. More immediately essential functions are predicted to be prioritized, even if this necessitates the diversion of energy away from – and potential downregulation of – others. These concepts are encompassed within life history theory, an evolutionary framework with considerable potential to enhance understanding of the evolved biological response to periods of energy deficiency. Skeletal muscle is a particularly interesting tissue to investigate from this perspective, given that it is one of the largest and most energetically costly tissues within the body. It is also highly plastic, responsive to a broad range of stimuli, and contributes to many essential bodily functions, e.g., mechanical, regulatory and storage. These functions may be traded off against each other during periods of energy deficiency, with the nature of the trade-off’s dependent on the characteristics of the individual and the circumstances within which the deficit occurs. In this review, we consider the skeletal muscle response to periods of energy deficiency from a life history perspective, along with how this response may be influenced by factors including sex, age, body composition, training and nutritional status.
doi_str_mv	10.1007/s40750-021-00182-4
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subjects	Amino acids Anthropology Behavioral Sciences Biological Psychology Body composition Body fat Commentary Energy Evolutionary Biology Human Physiology Life history Metabolism Musculoskeletal system Neurosciences Nutritional status Protein synthesis Proteins Sexes Skeletal muscle Social Sciences
title	The Skeletal Muscle Response to Energy Deficiency: A Life History Perspective
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