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Louise Moller, Helene Norrelund, Niels Jessen, Allan Flyvbjerg, Steen B. Pedersen, Bruce D. Gaylinn, Jianhua Liu, Michael O. Thorner, Niels Moller, Jens Otto Lunde Jorgensen, Impact of Growth Hormone Receptor Blockade on Substrate Metabolism during Fasting in Healthy Subjects, The Journal of Clinical Endocrinology & Metabolism, Volume 94, Issue 11, 1 November 2009, Pages 4524–4532, https://doi.org/10.1210/jc.2009-0381
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Context: Experimental studies in GH-deficient patients and in healthy subjects receiving somatostatin-infusion suggest that GH is an important regulator of substrate metabolism during fasting. These models may not adequately reflect the selective effects of GH, and GH receptor (GHR) blockade offers a new model to define the metabolic role of GH.
Objective: The aim of this study was to investigate the impact of GHR blockade on substrate metabolism and insulin sensitivity during fasting.
Design: We conducted a randomized, placebo-controlled, crossover study in 10 healthy young men.
Intervention: After 36 h of fasting with saline or pegvisomant (GHR blockade), the subjects were studied during a 4-h basal period and 2.5-h hyperinsulinemic euglycemic clamp.
Main Outcome: We measured whole-body and forearm glucose, lipid, and protein metabolism, peripheral insulin sensitivity, and acyl and desacyl ghrelin.
Results: GHR blockade significantly suppressed circulating free fatty acids (1226 ± 83 vs. 1074 ± 65 μmol/liter; P = 0.03) and ketone bodies (3080 ± 271 vs. 2015 ± 235 μmol/liter; P ≤ 0.01), as well as forearm uptake of free fatty acids (0.341 ± 0.150 vs. 0.004 ± 0.119 μmol/100 ml · min; P < 0.01) and lipid oxidation (1.3 ± 0.1 vs. 1.2 ± 0.1 mg/kg · min; P = 0.03) in the basal period. By contrast, IGF-I levels in either serum or peripheral tissues were not impacted by GHR blockade, and protein metabolism was also unaffected. Basal glucose levels were elevated by GHR blockade, but insulin sensitivity was similar; this was associated with an increased acyl/desacyl ghrelin ratio.
Conclusion: GHR blockade, without changes in circulating or tissue IGF-I levels, selectively suppresses lipid mobilization and oxidation after short-term fasting. This supports the notion that stimulation of lipolysis is a primary and important effect of GH.
GH receptor blockade during fasting in healthy subjects suppresses lipid metabolism without a change in insulin sensitivity or protein metabolism.
