Mild intermittent hypoxia exposure induces metabolic and molecular adaptations in men with obesity

Mild intermittent hypoxia exposure induces metabolic and molecular adaptations in men with obesity

Recent studies suggest that hypoxia exposure may improve glucose homeostasis, but well-controlled human studies are lacking. We hypothesized that mild intermittent hypoxia (MIH) exposure decreases tissue oxygen partial pressure (pO2) and induces metabolic improvements in people who are overweight/ob...

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Veröffentlicht in:Molecular metabolism (Germany) 2021-11, Vol.53, p.101287, Article 101287
Hauptverfasser: van Meijel, Rens L.J., Vogel, Max A.A., Jocken, Johan W.E., Vliex, Lars M.M., Smeets, Joey S.J., Hoebers, Nicole, Hoeks, Joris, Essers, Yvonne, Schoffelen, Paul F.M., Sell, Henrike, Kersten, Sander, M.A. Rouschop, Kasper, Blaak, Ellen E., Goossens, Gijs H.
Format: Artikel
Sprache:eng
Schlagworte:
Adaptation, Physiological
Adipose Tissue - metabolism
Adult
Aged
Humans
Hypoxia - metabolism
Hypoxia exposure
Inflammation
Insulin sensitivity
Male
Middle Aged
Muscle, Skeletal - metabolism
Obesity
Obesity - metabolism
Original
Overweight - metabolism
Oxygen - metabolism
RCT
Substrate metabolism
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Zusammenfassung:Recent studies suggest that hypoxia exposure may improve glucose homeostasis, but well-controlled human studies are lacking. We hypothesized that mild intermittent hypoxia (MIH) exposure decreases tissue oxygen partial pressure (pO2) and induces metabolic improvements in people who are overweight/obese. In a randomized, controlled, single-blind crossover study, 12 men who were overweight/obese were exposed to MIH (15 % O2, 3 × 2 h/day) or normoxia (21 % O2) for 7 consecutive days. Adipose tissue (AT) and skeletal muscle (SM) pO2, fasting/postprandial substrate metabolism, tissue-specific insulin sensitivity, SM oxidative capacity, and AT and SM gene/protein expression were determined. Furthermore, primary human myotubes and adipocytes were exposed to oxygen levels mimicking the hypoxic and normoxic AT and SM microenvironments. MIH decreased systemic oxygen saturation (92.0 ± 0.5 % vs 97.1 ± 0.3, p 
ISSN:2212-8778
2212-8778
DOI:10.1016/j.molmet.2021.101287