Distribution of dietary protein intake in daily meals influences skeletal muscle hypertrophy via the muscle clock

The meal distribution of proteins throughout the day is usually skewed. However, its physiological implications and the effects of better protein distribution on muscle volume are largely unknown. Here, using the two-meals-per-day feeding model, we find that protein intake at the early active phase...

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Published inCell reports (Cambridge) Vol. 36; no. 1; p. 109336
Main Authors Aoyama, Shinya, Kim, Hyeon-Ki, Hirooka, Rina, Tanaka, Mizuho, Shimoda, Takeru, Chijiki, Hanako, Kojima, Shuichi, Sasaki, Keisuke, Takahashi, Kengo, Makino, Saneyuki, Takizawa, Miku, Takahashi, Masaki, Tahara, Yu, Shimba, Shigeki, Shinohara, Kazuyuki, Shibata, Shigenobu
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 06.07.2021
Subjects
Aged
Amino Acids, Branched-Chain - administration & dosage
Amino Acids, Branched-Chain - blood
Animals
ARNTL Transcription Factors - deficiency
ARNTL Transcription Factors - metabolism
autophagy
Autophagy - drug effects
BCAA
Bmal1
breakfast
Circadian Clocks - drug effects
Circadian Clocks - physiology
circadian rhythm
Circadian Rhythm - drug effects
Circadian Rhythm - physiology
clock
dietary protein
Dietary Proteins - pharmacology
Disease Models, Animal
Feeding Behavior
Female
Gene Expression Regulation - drug effects
Humans
Hypertrophy
Male
Meals
Mice, Inbred C57BL
Mice, Knockout
Muscle, Skeletal - drug effects
Muscle, Skeletal - pathology
Muscle, Skeletal - physiopathology
protein distribution
skeletal muscle
Time Factors
autophagy
hypertrophy
protein distribution
circadian rhythm
dietary protein
clock
skeletal muscle
breakfast
BCAA
Bmal1
Online AccessGet full text

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Abstract The meal distribution of proteins throughout the day is usually skewed. However, its physiological implications and the effects of better protein distribution on muscle volume are largely unknown. Here, using the two-meals-per-day feeding model, we find that protein intake at the early active phase promotes overloading-induced muscle hypertrophy, in a manner dependent on the local muscle clock. Mice fed branched-chain amino acid (BCAA)-supplemented diets at the early active phase demonstrate skeletal muscle hypertrophy. However, distribution-dependent effects are not observed in ClockΔ19 or muscle-specific Bmal1 knockout mice. Additionally, we examined the relationship between the distribution of proteins in meals and muscle functions, such as skeletal muscle index and grip strength in humans. Higher muscle functions were observed in subjects who ingested dietary proteins mainly at breakfast than at dinner. These data suggest that protein intake at breakfast may be better for the maintenance of skeletal muscle mass. [Display omitted] •Distribution of dietary protein across meals influences muscle hypertrophy•BCAAs are involved in hypertrophic effects of protein feeding distribution•Hypertrophic effects of protein feeding distribution require the muscle clock•Breakfast protein intake is correlated with skeletal muscle functions in older women Aoyama et al. show that the distribution of protein intake across meals affects muscle hypertrophy. The distribution-dependent effects require a muscle clock. A higher skeletal muscle index and grip strength were observed in older women who habitually consume a high-protein diet at breakfast.
AbstractList The meal distribution of proteins throughout the day is usually skewed. However, its physiological implications and the effects of better protein distribution on muscle volume are largely unknown. Here, using the two-meals-per-day feeding model, we find that protein intake at the early active phase promotes overloading-induced muscle hypertrophy, in a manner dependent on the local muscle clock. Mice fed branched-chain amino acid (BCAA)-supplemented diets at the early active phase demonstrate skeletal muscle hypertrophy. However, distribution-dependent effects are not observed in ClockΔ19 or muscle-specific Bmal1 knockout mice. Additionally, we examined the relationship between the distribution of proteins in meals and muscle functions, such as skeletal muscle index and grip strength in humans. Higher muscle functions were observed in subjects who ingested dietary proteins mainly at breakfast than at dinner. These data suggest that protein intake at breakfast may be better for the maintenance of skeletal muscle mass.The meal distribution of proteins throughout the day is usually skewed. However, its physiological implications and the effects of better protein distribution on muscle volume are largely unknown. Here, using the two-meals-per-day feeding model, we find that protein intake at the early active phase promotes overloading-induced muscle hypertrophy, in a manner dependent on the local muscle clock. Mice fed branched-chain amino acid (BCAA)-supplemented diets at the early active phase demonstrate skeletal muscle hypertrophy. However, distribution-dependent effects are not observed in ClockΔ19 or muscle-specific Bmal1 knockout mice. Additionally, we examined the relationship between the distribution of proteins in meals and muscle functions, such as skeletal muscle index and grip strength in humans. Higher muscle functions were observed in subjects who ingested dietary proteins mainly at breakfast than at dinner. These data suggest that protein intake at breakfast may be better for the maintenance of skeletal muscle mass.
The meal distribution of proteins throughout the day is usually skewed. However, its physiological implications and the effects of better protein distribution on muscle volume are largely unknown. Here, using the two-meals-per-day feeding model, we find that protein intake at the early active phase promotes overloading-induced muscle hypertrophy, in a manner dependent on the local muscle clock. Mice fed branched-chain amino acid (BCAA)-supplemented diets at the early active phase demonstrate skeletal muscle hypertrophy. However, distribution-dependent effects are not observed in Clock or muscle-specific Bmal1 knockout mice. Additionally, we examined the relationship between the distribution of proteins in meals and muscle functions, such as skeletal muscle index and grip strength in humans. Higher muscle functions were observed in subjects who ingested dietary proteins mainly at breakfast than at dinner. These data suggest that protein intake at breakfast may be better for the maintenance of skeletal muscle mass.
The meal distribution of proteins throughout the day is usually skewed. However, its physiological implications and the effects of better protein distribution on muscle volume are largely unknown. Here, using the two-meals-per-day feeding model, we find that protein intake at the early active phase promotes overloading-induced muscle hypertrophy, in a manner dependent on the local muscle clock. Mice fed branched-chain amino acid (BCAA)-supplemented diets at the early active phase demonstrate skeletal muscle hypertrophy. However, distribution-dependent effects are not observed in ClockΔ19 or muscle-specific Bmal1 knockout mice. Additionally, we examined the relationship between the distribution of proteins in meals and muscle functions, such as skeletal muscle index and grip strength in humans. Higher muscle functions were observed in subjects who ingested dietary proteins mainly at breakfast than at dinner. These data suggest that protein intake at breakfast may be better for the maintenance of skeletal muscle mass. [Display omitted] •Distribution of dietary protein across meals influences muscle hypertrophy•BCAAs are involved in hypertrophic effects of protein feeding distribution•Hypertrophic effects of protein feeding distribution require the muscle clock•Breakfast protein intake is correlated with skeletal muscle functions in older women Aoyama et al. show that the distribution of protein intake across meals affects muscle hypertrophy. The distribution-dependent effects require a muscle clock. A higher skeletal muscle index and grip strength were observed in older women who habitually consume a high-protein diet at breakfast.
ArticleNumber 109336
Author Tanaka, Mizuho
Chijiki, Hanako
Shibata, Shigenobu
Kim, Hyeon-Ki
Shinohara, Kazuyuki
Hirooka, Rina
Shimoda, Takeru
Tahara, Yu
Takahashi, Masaki
Shimba, Shigeki
Aoyama, Shinya
Takizawa, Miku
Kojima, Shuichi
Sasaki, Keisuke
Makino, Saneyuki
Takahashi, Kengo
Author_xml – sequence: 1
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  fullname: Kim, Hyeon-Ki
  organization: Laboratory of Physiology and Pharmacology, School of Advanced Science and Engineering, Waseda University, Tokyo 162-8480, Japan
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  organization: Institute for Liberal Arts, Tokyo Institute of Technology, Tokyo 152-8550, Japan
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  givenname: Kazuyuki
  surname: Shinohara
  fullname: Shinohara, Kazuyuki
  organization: Department of Neurobiology & Behavior, Graduate School of Biomedical Sciences, Nagasaki University, Nagasaki 852-8523, Japan
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  surname: Shibata
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  email: shibatas@waseda.jp
  organization: Laboratory of Physiology and Pharmacology, School of Advanced Science and Engineering, Waseda University, Tokyo 162-8480, Japan
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Issue 1
Keywords autophagy
hypertrophy
protein distribution
circadian rhythm
dietary protein
clock
skeletal muscle
breakfast
BCAA
Bmal1
Language English
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Copyright © 2021 The Author(s). Published by Elsevier Inc. All rights reserved.
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SubjectTerms Aged
Amino Acids, Branched-Chain - administration & dosage
Amino Acids, Branched-Chain - blood
Animals
ARNTL Transcription Factors - deficiency
ARNTL Transcription Factors - metabolism
autophagy
Autophagy - drug effects
BCAA
Bmal1
breakfast
Circadian Clocks - drug effects
Circadian Clocks - physiology
circadian rhythm
Circadian Rhythm - drug effects
Circadian Rhythm - physiology
clock
dietary protein
Dietary Proteins - pharmacology
Disease Models, Animal
Feeding Behavior
Female
Gene Expression Regulation - drug effects
Humans
Hypertrophy
Male
Meals
Mice, Inbred C57BL
Mice, Knockout
Muscle, Skeletal - drug effects
Muscle, Skeletal - pathology
Muscle, Skeletal - physiopathology
protein distribution
skeletal muscle
Time Factors
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Title Distribution of dietary protein intake in daily meals influences skeletal muscle hypertrophy via the muscle clock
URI https://dx.doi.org/10.1016/j.celrep.2021.109336
https://www.ncbi.nlm.nih.gov/pubmed/34233179
https://www.proquest.com/docview/2549692234
Volume 36
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