Prior exercise in humans redistributes intramuscular GLUT4 and enhances insulin-stimulated sarcolemmal and endosomal GLUT4 translocation

Jonas Roland Knudsen; Dorte Enggaard Steenberg; Janne Rasmuss Hingst; Lorna R Hodgson; Carlos Henriquez-Olguin; Zhencheng Li; Bente Kiens; Erik A. Richter; Jørgen Wojtaszewski; Paul Verkade; Thomas Elbenhardt Jensen

doi:10.1016/j.molmet.2020.100998

Prior exercise in humans redistributes intramuscular GLUT4 and enhances insulin-stimulated sarcolemmal and endosomal GLUT4 translocation

Jonas Roland Knudsen, Dorte Enggaard Steenberg, Janne Rasmuss Hingst, Lorna R Hodgson, Carlos Henriquez-Olguin, Zhencheng Li, Bente Kiens, Erik A. Richter, Jørgen Wojtaszewski, Paul Verkade, Thomas Elbenhardt Jensen

The August Krogh Section for Molecular Physiology

Research output: Contribution to journal › Journal article › Research › peer-review

32 Citations (Scopus)

87 Downloads (Pure)

Abstract

Objective: Exercise is a cornerstone in the management of skeletal muscle insulin-resistance. A well-established benefit of a single bout of exercise is increased insulin sensitivity for hours post-exercise in the previously exercised musculature. Although rodent studies suggest that the insulin-sensitization phenomenon involves enhanced insulin-stimulated GLUT4 cell surface translocation and might involve intramuscular redistribution of GLUT4, the conservation to humans is unknown.

Methods: Healthy young males underwent an insulin-sensitizing one-legged kicking exercise bout for 1 hour followed by fatigue bouts to exhaustion. Muscle biopsies were obtained 4h post-exercise before and after a 2h hyperinsulinemic-euglycemic clamp.

Results: A detailed microscopy-based analysis of GLUT4 distribution muscle specimen in 7 different myocellular compartments revealed that prior exercise increased GLUT4 localization in insulin-responsive storage vesicles and T-tubuli. Furthermore, insulin-stimulated GLUT4 localization was augmented at the sarcolemma and in the endosomal compartments.

Conclusion: An intracellular redistribution of GLUT4 post-exercise is proposed as a molecular mechanism contributing to the insulin-sensitizing effect of prior exercise in human skeletal muscle.

Original language	English
Article number	100998
Journal	Molecular Metabolism
Volume	39
Number of pages	9
ISSN	2212-8778
DOIs	https://doi.org/10.1016/j.molmet.2020.100998
Publication status	Published - 2020

Bibliographical note

Keywords

Faculty of Science
Exercise
Skeletal muscle
GLUT4
Insulin sensitivity
Insulin resistance

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Knudsen et al_Molecular Metabolism_2020_Vol 39_e100998Licence: CC BY

Cite this

Knudsen, J. R., Steenberg, D. E., Hingst, J. R., Hodgson, L. R., Henriquez-Olguin, C., Li, Z., Kiens, B., Richter, E. A., Wojtaszewski, J., Verkade, P., & Jensen, T. E. (2020). Prior exercise in humans redistributes intramuscular GLUT4 and enhances insulin-stimulated sarcolemmal and endosomal GLUT4 translocation. Molecular Metabolism, 39, [100998]. https://doi.org/10.1016/j.molmet.2020.100998

Prior exercise in humans redistributes intramuscular GLUT4 and enhances insulin-stimulated sarcolemmal and endosomal GLUT4 translocation. / Knudsen, Jonas Roland; Steenberg, Dorte Enggaard; Hingst, Janne Rasmuss; Hodgson, Lorna R; Henriquez-Olguin, Carlos; Li, Zhencheng; Kiens, Bente ; Richter, Erik A.; Wojtaszewski, Jørgen; Verkade, Paul; Jensen, Thomas Elbenhardt.

In: Molecular Metabolism, Vol. 39, 100998, 2020.

Research output: Contribution to journal › Journal article › Research › peer-review

Knudsen, JR, Steenberg, DE, Hingst, JR, Hodgson, LR, Henriquez-Olguin, C, Li, Z, Kiens, B , Richter, EA , Wojtaszewski, J, Verkade, P & Jensen, TE 2020, 'Prior exercise in humans redistributes intramuscular GLUT4 and enhances insulin-stimulated sarcolemmal and endosomal GLUT4 translocation', Molecular Metabolism, vol. 39, 100998. https://doi.org/10.1016/j.molmet.2020.100998

Knudsen, Jonas Roland ; Steenberg, Dorte Enggaard ; Hingst, Janne Rasmuss ; Hodgson, Lorna R ; Henriquez-Olguin, Carlos ; Li, Zhencheng ; Kiens, Bente ; Richter, Erik A. ; Wojtaszewski, Jørgen ; Verkade, Paul ; Jensen, Thomas Elbenhardt. / Prior exercise in humans redistributes intramuscular GLUT4 and enhances insulin-stimulated sarcolemmal and endosomal GLUT4 translocation. In: Molecular Metabolism. 2020 ; Vol. 39.

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abstract = "Objective: Exercise is a cornerstone in the management of skeletal muscle insulin-resistance. A well-established benefit of a single bout of exercise is increased insulin sensitivity for hours post-exercise in the previously exercised musculature. Although rodent studies suggest that the insulin-sensitization phenomenon involves enhanced insulin-stimulated GLUT4 cell surface translocation and might involve intramuscular redistribution of GLUT4, the conservation to humans is unknown.Methods: Healthy young males underwent an insulin-sensitizing one-legged kicking exercise bout for 1 hour followed by fatigue bouts to exhaustion. Muscle biopsies were obtained 4h post-exercise before and after a 2h hyperinsulinemic-euglycemic clamp.Results: A detailed microscopy-based analysis of GLUT4 distribution muscle specimen in 7 different myocellular compartments revealed that prior exercise increased GLUT4 localization in insulin-responsive storage vesicles and T-tubuli. Furthermore, insulin-stimulated GLUT4 localization was augmented at the sarcolemma and in the endosomal compartments.Conclusion: An intracellular redistribution of GLUT4 post-exercise is proposed as a molecular mechanism contributing to the insulin-sensitizing effect of prior exercise in human skeletal muscle.",

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author = "Knudsen, {Jonas Roland} and Steenberg, {Dorte Enggaard} and Hingst, {Janne Rasmuss} and Hodgson, {Lorna R} and Carlos Henriquez-Olguin and Zhencheng Li and Bente Kiens and Richter, {Erik A.} and J{\o}rgen Wojtaszewski and Paul Verkade and Jensen, {Thomas Elbenhardt}",

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T1 - Prior exercise in humans redistributes intramuscular GLUT4 and enhances insulin-stimulated sarcolemmal and endosomal GLUT4 translocation

AU - Knudsen, Jonas Roland

AU - Steenberg, Dorte Enggaard

AU - Hingst, Janne Rasmuss

AU - Hodgson, Lorna R

AU - Henriquez-Olguin, Carlos

AU - Li, Zhencheng

AU - Kiens, Bente

AU - Richter, Erik A.

AU - Wojtaszewski, Jørgen

AU - Verkade, Paul

AU - Jensen, Thomas Elbenhardt

PY - 2020

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N2 - Objective: Exercise is a cornerstone in the management of skeletal muscle insulin-resistance. A well-established benefit of a single bout of exercise is increased insulin sensitivity for hours post-exercise in the previously exercised musculature. Although rodent studies suggest that the insulin-sensitization phenomenon involves enhanced insulin-stimulated GLUT4 cell surface translocation and might involve intramuscular redistribution of GLUT4, the conservation to humans is unknown.Methods: Healthy young males underwent an insulin-sensitizing one-legged kicking exercise bout for 1 hour followed by fatigue bouts to exhaustion. Muscle biopsies were obtained 4h post-exercise before and after a 2h hyperinsulinemic-euglycemic clamp.Results: A detailed microscopy-based analysis of GLUT4 distribution muscle specimen in 7 different myocellular compartments revealed that prior exercise increased GLUT4 localization in insulin-responsive storage vesicles and T-tubuli. Furthermore, insulin-stimulated GLUT4 localization was augmented at the sarcolemma and in the endosomal compartments.Conclusion: An intracellular redistribution of GLUT4 post-exercise is proposed as a molecular mechanism contributing to the insulin-sensitizing effect of prior exercise in human skeletal muscle.

AB - Objective: Exercise is a cornerstone in the management of skeletal muscle insulin-resistance. A well-established benefit of a single bout of exercise is increased insulin sensitivity for hours post-exercise in the previously exercised musculature. Although rodent studies suggest that the insulin-sensitization phenomenon involves enhanced insulin-stimulated GLUT4 cell surface translocation and might involve intramuscular redistribution of GLUT4, the conservation to humans is unknown.Methods: Healthy young males underwent an insulin-sensitizing one-legged kicking exercise bout for 1 hour followed by fatigue bouts to exhaustion. Muscle biopsies were obtained 4h post-exercise before and after a 2h hyperinsulinemic-euglycemic clamp.Results: A detailed microscopy-based analysis of GLUT4 distribution muscle specimen in 7 different myocellular compartments revealed that prior exercise increased GLUT4 localization in insulin-responsive storage vesicles and T-tubuli. Furthermore, insulin-stimulated GLUT4 localization was augmented at the sarcolemma and in the endosomal compartments.Conclusion: An intracellular redistribution of GLUT4 post-exercise is proposed as a molecular mechanism contributing to the insulin-sensitizing effect of prior exercise in human skeletal muscle.

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