sub.2]-Agonist Induces Net Leg Glucose Uptake and Free Fatty Acid Release at Rest but Not During Exercise in Young Men

Objective: The role of selective [[beta] sub.2]-adrenergic stimulation in regulation of leg glucose uptake and free fatty acid (FFA) balance is inadequately explored in humans. The objective of this study was to investigate [[beta] sub.2]-adrenergic effects on net leg glucose uptake and clearance, a...

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Published in:The journal of clinical endocrinology and metabolism 2019-03, Vol.104 (3), p.647
Main Authors: Onslev, Johan, Jensen, Jorgen, Bangsbo, Jens, Wojtaszewski, Jorgen, Hostrup, Morten
Format: Article
Language:English
Subjects:
Dextrose
Fatty acids
Glucose
Glucose metabolism
Terbutaline
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Summary:Objective: The role of selective [[beta] sub.2]-adrenergic stimulation in regulation of leg glucose uptake and free fatty acid (FFA) balance is inadequately explored in humans. The objective of this study was to investigate [[beta] sub.2]-adrenergic effects on net leg glucose uptake and clearance, as well as FFA balance at rest and during exercise. Design: The study was a randomized, placebo-controlled crossover trial where 10 healthy men received either infusion of [[beta] sub.2]-agonist terbutaline (0.2 to 0.4 mg) or placebo. Net leg glucose uptake and clearance and FFA balance were determined at rest and during 8 minutes of knee extensor exercise using Fick's principle. Vastus lateralis muscle biopsies were collected at rest and at cessation of exercise. The primary outcome measure was net leg glucose uptake. Results: At rest, net leg glucose uptake and clearance were 0.35 ([+ or -]0.16) mmol/min and 41 ([+ or -]17) mL/min (mean [+ or -] 95% CI) higher (P < 0.001) for terbutaline than placebo, corresponding to increases of 84% and 70%. During exercise, no treatment differences were observed in net leg glucose uptake, whereas clearance was 101 ([+ or -] 86) mL/min lower (P < 0.05) for terbutaline than placebo. At rest, terbutaline induced a net leg FFA release of 21 ([+ or -]14) [micro]mol/min, being different from placebo (P = 0.04). During exercise, net leg FFA uptake was not different between the treatments. Conclusions: These observations indicate that [[beta].sub.2]-agonist alters net leg glucose uptake and clearance, as well as FFA balance in humans, which is associated with myocellular [[beta].sub.2]-adrenergic and insulin-dependent signaling. Furthermore, the study shows that exercise confounds the [[beta].sub.2]-adrenergic effect on net leg glucose uptake and FFA balance. (J Clin Endocrinol Metab 104: 647-657, 2019)
ISSN:0021-972X
DOI:10.1210/jc.2018-01349