Your search keyword '"Rens L. J. van Meijel"' showing total 1 results

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

Author

Kasper M.A. Rouschop, Lars M.M. Vliex, Yvonne P. G. Essers, Gijs H. Goossens, Henrike Sell, Ellen E. Blaak, Paul F.M. Schoffelen, Joey S J Smeets, M. A. A. Vogel, Joris Hoeks, Johan W. E. Jocken, Nicole Hoebers, Rens L. J. van Meijel, Sander Kersten, Humane Biologie, RS: NUTRIM - R1 - Obesity, diabetes and cardiovascular health, Promovendi NTM, RS: NUTRIM - R3 - Respiratory & Age-related Health, Nutrition and Movement Sciences, RS: GROW - R2 - Basic and Translational Cancer Biology, and Radiotherapie

Subjects

Male, RESVERATROL SUPPLEMENTATION, Hypoxia exposure, Glucose uptake, Adipose tissue, OXIDATION, Voeding, Metabolisme en Genomica, Medicine, Glucose homeostasis, TRANSCRIPTION, MACROPHAGES, Hypoxia, Internal medicine, Intermittent hypoxia, Middle Aged, Insulin sensitivity, Adaptation, Physiological, Metabolism and Genomics, Postprandial, Adipose Tissue, Metabolisme en Genomica, SKELETAL-MUSCLE, Nutrition, Metabolism and Genomics, Original Article, medicine.symptom, RCT, Adult, EXPRESSION, medicine.medical_specialty, Substrate metabolism, Inflammation, Carbohydrate metabolism, Voeding, Humans, Obesity, Muscle, Skeletal, Molecular Biology, Aged, VLAG, Nutrition, business.industry, Cell Biology, Hypoxia (medical), Overweight, RC31-1245, Oxygen, Endocrinology, GLUCOSE-TOLERANCE, TISSUE OXYGEN-TENSION, business, RESISTANCE

Abstract

Objective 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. Methods 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. Results MIH decreased systemic oxygen saturation (92.0 ± 0.5 % vs 97.1 ± 0.3, p, Highlights • MIH exposure decreases oxygen partial pressure in human adipose tissue and skeletal muscle. • MIH exposure induces a shift in substrate utilization toward glycolytic metabolism. • Hypoxia exposure increases insulin-independent glucose uptake in primary human myotubes, at least in part through AMPK. • MIH does not alter adipose tissue, hepatic and peripheral insulin sensitivity.

Published

2021