Protecting Skeletal Muscle with Protein and Amino Acid during Periods of Disuse

Protecting Skeletal Muscle with Protein and Amino Acid during Periods of Disuse

Habitual sedentary behavior increases risk of chronic disease, hospitalization and poor quality of life. Short-term bed rest or disuse accelerates the loss of muscle mass, function, and glucose tolerance. Optimizing nutritional practices and protein intake may reduce the consequences of disuse by pr...

Full description

Bibliographic Details
Main Authors: Elfego Galvan, Emily Arentson-Lantz, Séverine Lamon, Douglas Paddon-Jones
Format: Article
Language:English
Published: MDPI AG 2016-07-01
Series:Nutrients
Subjects:
leucine
bed rest
muscle health
inactivity
muscle protein synthesis
diet
Online Access:http://www.mdpi.com/2072-6643/8/7/404
id doaj-d602735af0ce4d59ac8564771252b52e
record_format Article
spelling doaj-d602735af0ce4d59ac8564771252b52e2020-11-25T01:33:57ZengMDPI AGNutrients2072-66432016-07-018740410.3390/nu8070404nu8070404Protecting Skeletal Muscle with Protein and Amino Acid during Periods of DisuseElfego Galvan0Emily Arentson-Lantz1Séverine Lamon2Douglas Paddon-Jones3Center for Rehabilitation and Physical Activity and Nutrition (CeRPAN), University of Texas Medical Branch, Galveston, TX 77555, USACenter for Rehabilitation and Physical Activity and Nutrition (CeRPAN), University of Texas Medical Branch, Galveston, TX 77555, USAInstitute for Physical Activity and Nutrition (IPAN), School of Exercise and Nutrition Sciences, Deakin University, Geelong 3125, AustraliaCenter for Rehabilitation and Physical Activity and Nutrition (CeRPAN), University of Texas Medical Branch, Galveston, TX 77555, USAHabitual sedentary behavior increases risk of chronic disease, hospitalization and poor quality of life. Short-term bed rest or disuse accelerates the loss of muscle mass, function, and glucose tolerance. Optimizing nutritional practices and protein intake may reduce the consequences of disuse by preserving metabolic homeostasis and muscle mass and function. Most modes of physical inactivity have the potential to negatively impact the health of older adults more than their younger counterparts. Mechanistically, mammalian target of rapamycin complex 1 (mTORC1) signaling and muscle protein synthesis are negatively affected by disuse. This contributes to reduced muscle quality and is accompanied by impaired glucose regulation. Simply encouraging increased protein and/or energy consumption is a well-intentioned, but often impractical strategy to protect muscle health. Emerging evidence suggests that leucine supplemented meals may partially and temporarily protect skeletal muscle during disuse by preserving anabolism and mitigating reductions in mass, function and metabolic homeostasis.http://www.mdpi.com/2072-6643/8/7/404leucinebed restmuscle healthinactivitymuscle protein synthesisdiet
collection DOAJ
language English
format Article
sources DOAJ
author Elfego Galvan
Emily Arentson-Lantz
Séverine Lamon
Douglas Paddon-Jones
spellingShingle Elfego Galvan
Emily Arentson-Lantz
Séverine Lamon
Douglas Paddon-Jones
Protecting Skeletal Muscle with Protein and Amino Acid during Periods of Disuse
Nutrients
leucine
bed rest
muscle health
inactivity
muscle protein synthesis
diet
author_facet Elfego Galvan
Emily Arentson-Lantz
Séverine Lamon
Douglas Paddon-Jones
author_sort Elfego Galvan
title Protecting Skeletal Muscle with Protein and Amino Acid during Periods of Disuse
title_short Protecting Skeletal Muscle with Protein and Amino Acid during Periods of Disuse
title_full Protecting Skeletal Muscle with Protein and Amino Acid during Periods of Disuse
title_fullStr Protecting Skeletal Muscle with Protein and Amino Acid during Periods of Disuse
title_full_unstemmed Protecting Skeletal Muscle with Protein and Amino Acid during Periods of Disuse
title_sort protecting skeletal muscle with protein and amino acid during periods of disuse
publisher MDPI AG
series Nutrients
issn 2072-6643
publishDate 2016-07-01
description Habitual sedentary behavior increases risk of chronic disease, hospitalization and poor quality of life. Short-term bed rest or disuse accelerates the loss of muscle mass, function, and glucose tolerance. Optimizing nutritional practices and protein intake may reduce the consequences of disuse by preserving metabolic homeostasis and muscle mass and function. Most modes of physical inactivity have the potential to negatively impact the health of older adults more than their younger counterparts. Mechanistically, mammalian target of rapamycin complex 1 (mTORC1) signaling and muscle protein synthesis are negatively affected by disuse. This contributes to reduced muscle quality and is accompanied by impaired glucose regulation. Simply encouraging increased protein and/or energy consumption is a well-intentioned, but often impractical strategy to protect muscle health. Emerging evidence suggests that leucine supplemented meals may partially and temporarily protect skeletal muscle during disuse by preserving anabolism and mitigating reductions in mass, function and metabolic homeostasis.
topic leucine
bed rest
muscle health
inactivity
muscle protein synthesis
diet
url http://www.mdpi.com/2072-6643/8/7/404
work_keys_str_mv AT elfegogalvan protectingskeletalmusclewithproteinandaminoacidduringperiodsofdisuse
AT emilyarentsonlantz protectingskeletalmusclewithproteinandaminoacidduringperiodsofdisuse
AT severinelamon protectingskeletalmusclewithproteinandaminoacidduringperiodsofdisuse
AT douglaspaddonjones protectingskeletalmusclewithproteinandaminoacidduringperiodsofdisuse
_version_ 1725074657801928704

Similar Items