Impact of adrenaline and metabolic stress on exercise-induced intracellular signaling and PGC-1α mRNA response in human skeletal muscle

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Impact of adrenaline and metabolic stress on exercise-induced intracellular signaling and PGC-1α mRNA response in human skeletal muscle. / Brandt, Nina; Gunnarsson, Thomas Gunnar Petursson; Hostrup, Morten; Tybirk, Jonas; Nybo, Lars; Pilegaard, Henriette; Bangsbo, Jens.

I: Physiological Reports, Bind 4, Nr. 14, e12844, 2016.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Brandt, N, Gunnarsson, TGP, Hostrup, M, Tybirk, J, Nybo, L, Pilegaard, H & Bangsbo, J 2016, 'Impact of adrenaline and metabolic stress on exercise-induced intracellular signaling and PGC-1α mRNA response in human skeletal muscle', Physiological Reports, bind 4, nr. 14, e12844. https://doi.org/10.14814/phy2.12844

APA

Brandt, N., Gunnarsson, T. G. P., Hostrup, M., Tybirk, J., Nybo, L., Pilegaard, H., & Bangsbo, J. (2016). Impact of adrenaline and metabolic stress on exercise-induced intracellular signaling and PGC-1α mRNA response in human skeletal muscle. Physiological Reports, 4(14), [e12844]. https://doi.org/10.14814/phy2.12844

Vancouver

Brandt N, Gunnarsson TGP, Hostrup M, Tybirk J, Nybo L, Pilegaard H o.a. Impact of adrenaline and metabolic stress on exercise-induced intracellular signaling and PGC-1α mRNA response in human skeletal muscle. Physiological Reports. 2016;4(14). e12844. https://doi.org/10.14814/phy2.12844

Author

Brandt, Nina ; Gunnarsson, Thomas Gunnar Petursson ; Hostrup, Morten ; Tybirk, Jonas ; Nybo, Lars ; Pilegaard, Henriette ; Bangsbo, Jens. / Impact of adrenaline and metabolic stress on exercise-induced intracellular signaling and PGC-1α mRNA response in human skeletal muscle. I: Physiological Reports. 2016 ; Bind 4, Nr. 14.

Bibtex

@article{e54a66aeed1f4a3fa43a2a5e0b36479a,
title = "Impact of adrenaline and metabolic stress on exercise-induced intracellular signaling and PGC-1α mRNA response in human skeletal muscle",
abstract = "This study tested the hypothesis that elevated plasma adrenaline or metabolic stress enhances exercise-induced PGC-1α mRNA and intracellular signaling in human muscle. Trained (VO2-max: 53.8 ± 1.8 mL min(-1) kg(-1)) male subjects completed four different exercise protocols (work load of the legs was matched): C - cycling at 171 ± 6 W for 60 min (control); A - cycling at 171 ± 6 W for 60 min, with addition of intermittent arm exercise (98 ± 4 W). DS - cycling at 171 ± 6 W interspersed by 30 sec sprints (513 ± 19 W) every 10 min (distributed sprints); and CS - cycling at 171 ± 6 W for 40 min followed by 20 min of six 30 sec sprints (clustered sprints). Sprints were followed by 3:24 min:sec at 111 ± 4 W. A biopsy was obtained from m. vastus lateralis at rest and immediately, and 2 and 5 h after exercise. Muscle PGC-1α mRNA content was elevated (P < 0.05) three- to sixfold 2 h after exercise relative to rest in C, A, and DS, with no differences between protocols. AMPK and p38 phosphorylation was higher (P < 0.05) immediately after exercise than at rest in all protocols, and 1.3- to 2-fold higher (P < 0.05) in CS than in the other protocols. CREB phosphorylation was higher (P < 0.05) 2 and 5 h after exercise than at rest in all protocols, and higher (P < 0.05) in DS than CS 2 h after exercise. This suggests that neither plasma adrenaline nor muscle metabolic stress determines the magnitude of PGC-1α mRNA response in human muscle. Furthermore, higher exercise-induced changes in AMPK, p38, and CREB phosphorylation are not associated with differences in the PGC-1α mRNA response.",
keywords = "Journal Article",
author = "Nina Brandt and Gunnarsson, {Thomas Gunnar Petursson} and Morten Hostrup and Jonas Tybirk and Lars Nybo and Henriette Pilegaard and Jens Bangsbo",
note = "CURIS 2016 NEXS 201",
year = "2016",
doi = "10.14814/phy2.12844",
language = "English",
volume = "4",
journal = "Physiological Reports",
issn = "2051-817X",
publisher = "Wiley Periodicals, Inc.",
number = "14",

}

RIS

TY - JOUR

T1 - Impact of adrenaline and metabolic stress on exercise-induced intracellular signaling and PGC-1α mRNA response in human skeletal muscle

AU - Brandt, Nina

AU - Gunnarsson, Thomas Gunnar Petursson

AU - Hostrup, Morten

AU - Tybirk, Jonas

AU - Nybo, Lars

AU - Pilegaard, Henriette

AU - Bangsbo, Jens

N1 - CURIS 2016 NEXS 201

PY - 2016

Y1 - 2016

N2 - This study tested the hypothesis that elevated plasma adrenaline or metabolic stress enhances exercise-induced PGC-1α mRNA and intracellular signaling in human muscle. Trained (VO2-max: 53.8 ± 1.8 mL min(-1) kg(-1)) male subjects completed four different exercise protocols (work load of the legs was matched): C - cycling at 171 ± 6 W for 60 min (control); A - cycling at 171 ± 6 W for 60 min, with addition of intermittent arm exercise (98 ± 4 W). DS - cycling at 171 ± 6 W interspersed by 30 sec sprints (513 ± 19 W) every 10 min (distributed sprints); and CS - cycling at 171 ± 6 W for 40 min followed by 20 min of six 30 sec sprints (clustered sprints). Sprints were followed by 3:24 min:sec at 111 ± 4 W. A biopsy was obtained from m. vastus lateralis at rest and immediately, and 2 and 5 h after exercise. Muscle PGC-1α mRNA content was elevated (P < 0.05) three- to sixfold 2 h after exercise relative to rest in C, A, and DS, with no differences between protocols. AMPK and p38 phosphorylation was higher (P < 0.05) immediately after exercise than at rest in all protocols, and 1.3- to 2-fold higher (P < 0.05) in CS than in the other protocols. CREB phosphorylation was higher (P < 0.05) 2 and 5 h after exercise than at rest in all protocols, and higher (P < 0.05) in DS than CS 2 h after exercise. This suggests that neither plasma adrenaline nor muscle metabolic stress determines the magnitude of PGC-1α mRNA response in human muscle. Furthermore, higher exercise-induced changes in AMPK, p38, and CREB phosphorylation are not associated with differences in the PGC-1α mRNA response.

AB - This study tested the hypothesis that elevated plasma adrenaline or metabolic stress enhances exercise-induced PGC-1α mRNA and intracellular signaling in human muscle. Trained (VO2-max: 53.8 ± 1.8 mL min(-1) kg(-1)) male subjects completed four different exercise protocols (work load of the legs was matched): C - cycling at 171 ± 6 W for 60 min (control); A - cycling at 171 ± 6 W for 60 min, with addition of intermittent arm exercise (98 ± 4 W). DS - cycling at 171 ± 6 W interspersed by 30 sec sprints (513 ± 19 W) every 10 min (distributed sprints); and CS - cycling at 171 ± 6 W for 40 min followed by 20 min of six 30 sec sprints (clustered sprints). Sprints were followed by 3:24 min:sec at 111 ± 4 W. A biopsy was obtained from m. vastus lateralis at rest and immediately, and 2 and 5 h after exercise. Muscle PGC-1α mRNA content was elevated (P < 0.05) three- to sixfold 2 h after exercise relative to rest in C, A, and DS, with no differences between protocols. AMPK and p38 phosphorylation was higher (P < 0.05) immediately after exercise than at rest in all protocols, and 1.3- to 2-fold higher (P < 0.05) in CS than in the other protocols. CREB phosphorylation was higher (P < 0.05) 2 and 5 h after exercise than at rest in all protocols, and higher (P < 0.05) in DS than CS 2 h after exercise. This suggests that neither plasma adrenaline nor muscle metabolic stress determines the magnitude of PGC-1α mRNA response in human muscle. Furthermore, higher exercise-induced changes in AMPK, p38, and CREB phosphorylation are not associated with differences in the PGC-1α mRNA response.

KW - Journal Article

U2 - 10.14814/phy2.12844

DO - 10.14814/phy2.12844

M3 - Journal article

C2 - 27436584

VL - 4

JO - Physiological Reports

JF - Physiological Reports

SN - 2051-817X

IS - 14

M1 - e12844

ER -

ID: 164453040