Benefits of higher resistance‐training volume are related to ribosome biogenesis

Benefits of higher resistance‐training volume are related to ribosome biogenesis

Key points For individuals showing suboptimal adaptations to resistance training, manipulation of training volume is a potential measure to facilitate responses. This remains unexplored. Here, 34 untrained individuals performed contralateral resistance training with moderate and low volume for 12 we...

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Published in:The Journal of physiology Vol. 598; no. 3; pp. 543 - 565
Main Authors: Hammarström, Daniel, Øfsteng, Sjur, Koll, Lise, Hanestadhaugen, Marita, Hollan, Ivana, Apró, William, Whist, Jon Elling, Blomstrand, Eva, Rønnestad, Bent R., Ellefsen, Stian
Format: Journal Article
Language:English
Published: England Wiley Subscription Services, Inc 01-02-2020
Subjects:
Adaptation
Biopsy
Biosynthesis
Exercise
Female
Gene expression
Humans
Hypertrophy
Male
Medicin/Teknik
Medicine/Technology
Muscle Strength
Muscle, Skeletal
Myc protein
Phosphorylation
Physical training
Resistance Training
ribosome biogenesis
Ribosomes
Strength training
training‐volume
Yeast
resistance-training
training-volume
ribosome biogenesis
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Summary:Key points For individuals showing suboptimal adaptations to resistance training, manipulation of training volume is a potential measure to facilitate responses. This remains unexplored. Here, 34 untrained individuals performed contralateral resistance training with moderate and low volume for 12 weeks. Moderate volume led to larger increases in muscle cross‐sectional area, strength and type II fibre‐type transitions. These changes coincided with greater activation of signalling pathways controlling muscle growth and greater induction of ribosome synthesis. Out of 34 participants, thirteen displayed clear benefit of MOD on muscle hypertrophy and sixteen showed clear benefit of MOD on muscle strength gains. This coincided with greater total RNA accumulation in the early phase of the training period, suggesting that ribosomal biogenesis regulates the dose–response relationship between training volume and muscle hypertrophy. These results demonstrate that there is a dose‐dependent relationship between training volume and outcomes. On the individual level, benefits of higher training volume were associated with increased ribosomal biogenesis. Resistance‐exercise volume is a determinant of training outcomes. However not all individuals respond in a dose‐dependent fashion. In this study, 34 healthy individuals (males n = 16, 23.6 (4.1) years; females n = 18, 22.0 (1.3) years) performed moderate‐ (3 sets per exercise, MOD) and low‐volume (1 set, LOW) resistance training in a contralateral fashion for 12 weeks (2–3 sessions per week). Muscle cross‐sectional area (CSA) and strength were assessed at Weeks 0 and 12, along with biopsy sampling (m. vastus lateralis). Muscle biopsies were also sampled before and 1 h after the fifth session (Week 2). MOD resulted in larger increases in muscle CSA (5.2 (3.8)% versus 3.7 (3.7)%, P < 0.001) and strength (3.4–7.7% difference, all P < 0.05. This coincided with greater reductions in type IIX fibres from Week 0 to Week 12 (MOD, −4.6 percentage points; LOW −3.2 percentage points), greater phosphorylation of S6‐kinase 1 (p85 S6K1Thr412, 19%; p70 S6K1Thr389, 58%) and ribosomal protein S6Ser235/236 (37%), greater rested‐state total RNA (8.8%) and greater exercise‐induced c‐Myc mRNA expression (25%; Week 2, all P < 0.05). Thirteen and sixteen participants, respectively, displayed clear benefits in response to MOD on muscle hypertrophy and strength. Benefits were associated with greater accumulation of total RNA at Week 2 in the MOD leg, with every 1% difference increasing the odds of MOD benefit by 7.0% (P = 0.005) and 9.8% (P = 0.002). In conclusion, MOD led to greater functional and biological adaptations than LOW. Associations between dose‐dependent total RNA accumulation and increases in muscle mass and strength point to ribosome biogenesis as a determinant of dose‐dependent training responses. Key points For individuals showing suboptimal adaptations to resistance training, manipulation of training volume is a potential measure to facilitate responses. This remains unexplored. Here, 34 untrained individuals performed contralateral resistance training with moderate and low volume for 12 weeks. Moderate volume led to larger increases in muscle cross‐sectional area, strength and type II fibre‐type transitions. These changes coincided with greater activation of signalling pathways controlling muscle growth and greater induction of ribosome synthesis. Out of 34 participants, thirteen displayed clear benefit of MOD on muscle hypertrophy and sixteen showed clear benefit of MOD on muscle strength gains. This coincided with greater total RNA accumulation in the early phase of the training period, suggesting that ribosomal biogenesis regulates the dose–response relationship between training volume and muscle hypertrophy. These results demonstrate that there is a dose‐dependent relationship between training volume and outcomes. On the individual level, benefits of higher training volume were associated with increased ribosomal biogenesis.
Bibliography:This article was first published as a preprint: Hammarström D, Øfsteng S, Koll L, Hanestadhaugen M, Hollan I, Apro W, Whist JE, Blomstrand E, Rønnestad BR, Ellefsen S. 2019. Benefits of higher resistance‐training volume depends on ribosome biogenesis. bioRxiv.
https://doi.org/10.1101/666347
Edited by: Michael Hogan & Troy Hornberger
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0022-3751
1469-7793
1469-7793
DOI:10.1113/JP278455