Acute exposure to GH during exercise stimulates the turnover of free fatty acids in GH-deficient men

doi:10.1152/japplphysiol.00711.2003

Acute exposure to GH during exercise stimulates the turnover of free fatty acids in GH-deficient men

Jill A. Kanaley,¹ Rolf Dall,² Niels Møller,² Sven C. Nielsen,³ Jens Sandahl Christiansen,² Michael D. Jensen,⁴ and Jens Otto Lunde Jørgensen²

¹Department of Exercise Science, Syracuse University, Syracuse, New York 13244; ²Medical Department M (Endocrinology and Diabetes), ³Department of Respiratory Diseases and Institute of Experimental Clinical Research, Aarhus University Hospital, DK 5000 Aarhus, Denmark; and ⁴Endocrine Research Unit, Mayo Clinic, Rochester, Minnesota 55905

Submitted 9 July 2003 ; accepted in final form 23 October 2003

The secretion of growth hormone (GH) increases acutely duringexercise, but whether this is associated with the concomitantalterations in substrate metabolism has not previously beenstudied. We examined the effects of acute GH administrationon palmitate, glucose, and protein metabolism before, during,and after 45 min of moderate-intensity aerobic exercise in eightGH-deficient men (mean age = 40.8 ± 2.9 yr) on two occasions,with (+GH; 0.4 IU GH) and without GH administered (-GH). A groupof healthy controls (n = 8, mean age = 40.4 ± 4.2 yr)were studied without GH. The GH replacement during exerciseon the +GH study mimicked the endogenous GH profile seen inhealthy controls. No significant difference in resting freefatty acid (FFA) flux was found between study days, but duringexercise a greater FFA flux was found when GH was administered(211 ± 26 vs. 168 ± 28 µmol/min, P <0.05) and remained elevated throughout recovery (P < 0.05).With GH administered, the exercise FFA flux was not significantlydifferent from that observed in control subjects (188 ±14 µmol/min), but the recovery flux was greater on the+GH day than in the controls (169 ± 17 vs. 119 ±11 µmol/min, respectively, P < 0.01). A significanttime effect (P < 0.01) for glucose rate of appearance fromrest to exercise and recovery occurred in the GH-deficient adultsand the controls, whereas there were no differences in glucoserate of disappearance. No significant effect across time wasfound for protein muscle balance. In conclusion, 1) acute exposureto GH during exercise stimulates the FFA release and turnoverin GH-deficient adults, 2) GH does not significantly impactglucose or protein metabolism during exercise, and 3) the exercise-inducedsecretion of GH plays a significant role in the regulation offatty acid metabolism.

lipolysis; glucose turnover; protein turnover; growth hormone

Address for reprint requests and other correspondence: J. A. Kanaley, 820 Comstock Ave., Rm. 201, Syracuse, NY 13244 (E-mail: jakanale{at}syr.edu).

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