Contraction-induced changes in skeletal muscle Na(+), K(+) pump mRNA expression - importance of exercise intensity and Ca(2+)-mediated signalling

Nikolai Baastrup Nordsborg; K Kusuhara; Ylva Hellsten; Anna Sophie Boutrup Lyngby; Carsten Lundby; K Madsen; H Pilegaard

Contraction-induced changes in skeletal muscle Na(+), K(+) pump mRNA expression - importance of exercise intensity and Ca(2+)-mediated signalling

Nikolai Baastrup Nordsborg, K Kusuhara, Ylva Hellsten, Anna Sophie Boutrup Lyngby, Carsten Lundby, K Madsen, H Pilegaard

Molecular Integrative Physiology

18 Citations (Scopus)

Abstract

Aim: To investigate if exercise intensity and Ca²⁺ signalling regulate Na⁺,K⁺ pump mRNA expression in skeletal muscle. Methods: The importance of exercise intensity was evaluated by having trained and untrained humans perform intense intermittent and prolonged exercise. The importance of Ca²⁺ signalling was investigated by electrical stimulation of rat soleus and extensor digitorum longus (EDL) muscles in combination with studies of cell cultures. Results: Intermittent cycling exercise at ∼85% of VO_2peak increased (P < 0.05) α1 and β1 mRNA expression ∼2-fold in untrained and trained subjects. In trained subjects, intermittent exercise at ∼70% of VO_2peak resulted in a less (P < 0.05) pronounced increase (∼1.4-fold; P < 0.05) for α1 and no change in β1 mRNA. Prolonged low intensity exercise increased (P < 0.05) mRNA expression of α1 ∼3.0-fold and α2 ∼1.8-fold in untrained but not in trained subjects. Electrical stimulation of rat soleus, but not EDL, muscle increased (P < 0.05) α1 mRNA expression, but not when combined with KN62 and cyclosporin A incubation. Ionomycin incubation of cultured primary rat skeletal muscle cells increased (P < 0.05) α1 and reduced (P < 0.001) α2 mRNA expression and these responses were abolished (P < 0.05) by co-incubation with cyclosporin A or KN62. Conclusion: (1) Exercise-induced increases in Na⁺,K ⁺ pump α1 and β1 mRNA expression in trained subjects are more pronounced after high- than after moderate- and low-intensity exercise. (2) Both prolonged low and short-duration high-intensity exercise increase α1 mRNA expression in untrained subjects. (3) Ca²⁺_i regulates α1 mRNA expression in oxidative muscles via Ca ²⁺/calmodulin-dependent protein kinase (CaMK) and calcineurin signalling pathways.

Translated title of the contribution	Contraction-induced changes in skeletal muscle Na(+), K(+) pump mRNA expression - importance of exercise intensity and Ca(2+)-mediated signalling
Original language	English
Journal	Acta Physiologica (Print)
Volume	198
Issue number	4
Pages (from-to)	487-98
ISSN	1748-1708
Publication status	Published - Apr 2010

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@article{75a5e37fbde541f6bceea4b30798ff02,

title = "Contraction-induced changes in skeletal muscle Na(+), K(+) pump mRNA expression - importance of exercise intensity and Ca(2+)-mediated signalling",

abstract = "Aim: To investigate if exercise intensity and Ca2+ signalling regulate Na+,K+ pump mRNA expression in skeletal muscle. Methods: The importance of exercise intensity was evaluated by having trained and untrained humans perform intense intermittent and prolonged exercise. The importance of Ca2+ signalling was investigated by electrical stimulation of rat soleus and extensor digitorum longus (EDL) muscles in combination with studies of cell cultures. Results: Intermittent cycling exercise at ∼85% of VO2peak increased (P < 0.05) α1 and β1 mRNA expression ∼2-fold in untrained and trained subjects. In trained subjects, intermittent exercise at ∼70% of VO2peak resulted in a less (P < 0.05) pronounced increase (∼1.4-fold; P < 0.05) for α1 and no change in β1 mRNA. Prolonged low intensity exercise increased (P < 0.05) mRNA expression of α1 ∼3.0-fold and α2 ∼1.8-fold in untrained but not in trained subjects. Electrical stimulation of rat soleus, but not EDL, muscle increased (P < 0.05) α1 mRNA expression, but not when combined with KN62 and cyclosporin A incubation. Ionomycin incubation of cultured primary rat skeletal muscle cells increased (P < 0.05) α1 and reduced (P < 0.001) α2 mRNA expression and these responses were abolished (P < 0.05) by co-incubation with cyclosporin A or KN62. Conclusion: (1) Exercise-induced increases in Na+,K + pump α1 and β1 mRNA expression in trained subjects are more pronounced after high- than after moderate- and low-intensity exercise. (2) Both prolonged low and short-duration high-intensity exercise increase α1 mRNA expression in untrained subjects. (3) Ca2+i regulates α1 mRNA expression in oxidative muscles via Ca 2+/calmodulin-dependent protein kinase (CaMK) and calcineurin signalling pathways.",

author = "Nordsborg, {Nikolai Baastrup} and K Kusuhara and Ylva Hellsten and Lyngby, {Anna Sophie Boutrup} and Carsten Lundby and K Madsen and H Pilegaard",

year = "2010",

month = apr,

language = "English",

volume = "198",

pages = "487--98",

journal = "Acta Physiologica",

issn = "1748-1708",

publisher = "Wiley-Blackwell",

number = "4",

}

TY - JOUR

T1 - Contraction-induced changes in skeletal muscle Na(+), K(+) pump mRNA expression - importance of exercise intensity and Ca(2+)-mediated signalling

AU - Nordsborg, Nikolai Baastrup

AU - Kusuhara, K

AU - Hellsten, Ylva

AU - Lyngby, Anna Sophie Boutrup

AU - Lundby, Carsten

AU - Madsen, K

AU - Pilegaard, H

PY - 2010/4

Y1 - 2010/4

N2 - Aim: To investigate if exercise intensity and Ca2+ signalling regulate Na+,K+ pump mRNA expression in skeletal muscle. Methods: The importance of exercise intensity was evaluated by having trained and untrained humans perform intense intermittent and prolonged exercise. The importance of Ca2+ signalling was investigated by electrical stimulation of rat soleus and extensor digitorum longus (EDL) muscles in combination with studies of cell cultures. Results: Intermittent cycling exercise at ∼85% of VO2peak increased (P < 0.05) α1 and β1 mRNA expression ∼2-fold in untrained and trained subjects. In trained subjects, intermittent exercise at ∼70% of VO2peak resulted in a less (P < 0.05) pronounced increase (∼1.4-fold; P < 0.05) for α1 and no change in β1 mRNA. Prolonged low intensity exercise increased (P < 0.05) mRNA expression of α1 ∼3.0-fold and α2 ∼1.8-fold in untrained but not in trained subjects. Electrical stimulation of rat soleus, but not EDL, muscle increased (P < 0.05) α1 mRNA expression, but not when combined with KN62 and cyclosporin A incubation. Ionomycin incubation of cultured primary rat skeletal muscle cells increased (P < 0.05) α1 and reduced (P < 0.001) α2 mRNA expression and these responses were abolished (P < 0.05) by co-incubation with cyclosporin A or KN62. Conclusion: (1) Exercise-induced increases in Na+,K + pump α1 and β1 mRNA expression in trained subjects are more pronounced after high- than after moderate- and low-intensity exercise. (2) Both prolonged low and short-duration high-intensity exercise increase α1 mRNA expression in untrained subjects. (3) Ca2+i regulates α1 mRNA expression in oxidative muscles via Ca 2+/calmodulin-dependent protein kinase (CaMK) and calcineurin signalling pathways.

AB - Aim: To investigate if exercise intensity and Ca2+ signalling regulate Na+,K+ pump mRNA expression in skeletal muscle. Methods: The importance of exercise intensity was evaluated by having trained and untrained humans perform intense intermittent and prolonged exercise. The importance of Ca2+ signalling was investigated by electrical stimulation of rat soleus and extensor digitorum longus (EDL) muscles in combination with studies of cell cultures. Results: Intermittent cycling exercise at ∼85% of VO2peak increased (P < 0.05) α1 and β1 mRNA expression ∼2-fold in untrained and trained subjects. In trained subjects, intermittent exercise at ∼70% of VO2peak resulted in a less (P < 0.05) pronounced increase (∼1.4-fold; P < 0.05) for α1 and no change in β1 mRNA. Prolonged low intensity exercise increased (P < 0.05) mRNA expression of α1 ∼3.0-fold and α2 ∼1.8-fold in untrained but not in trained subjects. Electrical stimulation of rat soleus, but not EDL, muscle increased (P < 0.05) α1 mRNA expression, but not when combined with KN62 and cyclosporin A incubation. Ionomycin incubation of cultured primary rat skeletal muscle cells increased (P < 0.05) α1 and reduced (P < 0.001) α2 mRNA expression and these responses were abolished (P < 0.05) by co-incubation with cyclosporin A or KN62. Conclusion: (1) Exercise-induced increases in Na+,K + pump α1 and β1 mRNA expression in trained subjects are more pronounced after high- than after moderate- and low-intensity exercise. (2) Both prolonged low and short-duration high-intensity exercise increase α1 mRNA expression in untrained subjects. (3) Ca2+i regulates α1 mRNA expression in oxidative muscles via Ca 2+/calmodulin-dependent protein kinase (CaMK) and calcineurin signalling pathways.

M3 - Journal article

SN - 1748-1708

VL - 198

SP - 487

EP - 498

JO - Acta Physiologica

JF - Acta Physiologica

IS - 4

ER -

Contraction-induced changes in skeletal muscle Na(+), K(+) pump mRNA expression - importance of exercise intensity and Ca(2+)-mediated signalling

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