Citations to this article

Dynamic changes in fat oxidation in human primary myocytes mirror metabolic characteristics of the donor
Barbara Ukropcova, … , George A. Bray, Steven R. Smith
Barbara Ukropcova, … , George A. Bray, Steven R. Smith
Published July 1, 2005
Citation Information: J Clin Invest. 2005;115(7):1934-1941. https://doi.org/10.1172/JCI24332.
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Dynamic changes in fat oxidation in human primary myocytes mirror metabolic characteristics of the donor

Abstract

Metabolic flexibility of skeletal muscle, that is, the preference for fat oxidation (FOx) during fasting and for carbohydrate oxidation in response to insulin, is decreased during insulin resistance. The aim of this study was to test the hypothesis that the capacity of myotubes to oxidize fat in vitro reflects the donor’s metabolic characteristics. Insulin sensitivity (IS) and metabolic flexibility of 16 healthy, young male subjects was determined by euglycemic hyperinsulinemic clamp. Muscle samples were obtained from vastus lateralis, cultured, and differentiated into myotubes. In human myotubes in vitro, we measured suppressibility (glucose suppression of FOx) and adaptability (an increase in FOx in the presence of high palmitate concentration). We termed these dynamic changes in FOx metabolic switching. In vivo, metabolic flexibility was positively correlated with IS and maximal oxygen uptake and inversely correlated with percent body fat. In vitro suppressibility was inversely correlated with IS and metabolic flexibility and positively correlated with body fat and fasting FFA levels. Adaptability was negatively associated with percent body fat and fasting insulin and positively correlated with IS and metabolic flexibility. The interindividual variability in metabolic phenotypes was preserved in human myotubes separated from their neuroendocrine environment, which supports the hypothesis that metabolic switching is an intrinsic property of skeletal muscle.

Authors

Barbara Ukropcova, Michele McNeil, Olga Sereda, Lilian de Jonge, Hui Xie, George A. Bray, Steven R. Smith

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Citations to this article in year 2012 (5)

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N Nikolić, M Rhedin, AC Rustan, L Storlien, GH Thoresen, M Strömstedt 		Biochemistry Research International 2012
Mechanisms underlying skeletal muscle insulin resistance induced by fatty acids: importance of the mitochondrial function
AR Martins, RT Nachbar, R Gorjao, MA Vinolo, WT Festuccia, RH Lambertucci, MF Cury-Boaventura, LR Silveira, R Curi, SM Hirabara 		Lipids in Health and Disease 2012
Electrical Pulse Stimulation of Cultured Human Skeletal Muscle Cells as an In Vitro Model of Exercise
N Nikolić, SS Bakke, ET Kase, I Rudberg, IF Halle, AC Rustan, GH Thoresen, V Aas 		PloS one 2012
Proteomic analysis reveals cellular pathways regulating carbohydrate metabolism that are modulated in primary human skeletal muscle culture due to treatment with bioactives from Artemisia dracunculus L
P Scherp, N Putluri, GJ LeBlanc, ZQ Wang, XH Zhang, Y Yu, D Ribnicky, WT Cefalu, I Kheterpal 		Journal of Proteomics 2012
Regulation of skeletal muscle lipolysis and oxidative metabolism by the co-lipase CGI-58
PM Badin, C Loubière, M Coonen, K Louche, G Tavernier, V Bourlier, A Mairal, AC Rustan, SR Smith, D Langin, C Moro 		Journal of lipid research 2012

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