PURPOSE: To investigate how acute environmental hypoxia regulates blood glucose and downstream intramuscular insulin signaling after a meal in healthy humans. METHODS:Fifteen subjects were exposed for 4 h to normoxia (NOR) or to normobaric hypoxia (HYP, FiO2 = 0.11) in a randomized order 40 min after consumption of a high glycemic meal. A muscle biopsy from m. vastus lateralis and a blood sample were taken before (T0), after 1 h (T60) and 4 h (T240) in NOR or HYP and blood glucose levels were measured before exposure and every 30 min. RESULTS: In HYP, blood glucose was reduced 100 min (110.1 ± 5.4 in NOR vs 89.5 ± 4.7 mg dl(-1) in HYP) and 130 min (98.7 ± 3.8 in NOR vs 85.6 ± 4.9 mg dl(-1) in HYP) after completion of a meal, which resulted in an 83 % lower AUC in HYP compared to NOR (p = 0.006). This coincided with 40 % lower GLUT4 protein in the cytosolic fraction (p = 0.013) and a tendency to increase in the crude membrane fraction (p = 0.070) in HYP compared to NOR. At T240, blood glucose concentration was similar between HYP and NOR, whereas plasma insulin as well as phosphorylation of muscle Akt and GSK-3 was ~2-fold higher in HYP compared to NOR (p < 0.05). In contrast, Rac1 protein was less abundant in the membrane fraction in HYP compared to NOR (p = 0.003), reflecting lower activation. CONCLUSION: Acute environmental hypoxia initially reduced blood glucose response to a meal, possibly via an increase in GLUT4 abundance at the sarcolemmal membrane. Later on, whole body insulin intolerance developed independently of defects in conventional insulin signaling in skeletal muscle.
RCT Entities:
PURPOSE: To investigate how acute environmental hypoxia regulates blood glucose and downstream intramuscular insulin signaling after a meal in healthy humans. METHODS: Fifteen subjects were exposed for 4 h to normoxia (NOR) or to normobaric hypoxia (HYP, FiO2 = 0.11) in a randomized order 40 min after consumption of a high glycemic meal. A muscle biopsy from m. vastus lateralis and a blood sample were taken before (T0), after 1 h (T60) and 4 h (T240) in NOR or HYP and blood glucose levels were measured before exposure and every 30 min. RESULTS: In HYP, blood glucose was reduced 100 min (110.1 ± 5.4 in NOR vs 89.5 ± 4.7 mg dl(-1) in HYP) and 130 min (98.7 ± 3.8 in NOR vs 85.6 ± 4.9 mg dl(-1) in HYP) after completion of a meal, which resulted in an 83 % lower AUC in HYP compared to NOR (p = 0.006). This coincided with 40 % lower GLUT4 protein in the cytosolic fraction (p = 0.013) and a tendency to increase in the crude membrane fraction (p = 0.070) in HYP compared to NOR. At T240, blood glucose concentration was similar between HYP and NOR, whereas plasma insulin as well as phosphorylation of muscle Akt and GSK-3 was ~2-fold higher in HYP compared to NOR (p < 0.05). In contrast, Rac1 protein was less abundant in the membrane fraction in HYP compared to NOR (p = 0.003), reflecting lower activation. CONCLUSION: Acute environmental hypoxia initially reduced blood glucose response to a meal, possibly via an increase in GLUT4 abundance at the sarcolemmal membrane. Later on, whole body insulin intolerance developed independently of defects in conventional insulin signaling in skeletal muscle.
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