Ilyas Akkar1, Zuleyha Karaca2, Serpil Taheri3, Kursad Unluhizarci1, Aysa Hacioglu1, Fahrettin Kelestimur4. 1. Erciyes University Medical School Department of Endocrinology, Kayseri, Turkey. 2. Erciyes University Medical School Department of Endocrinology, Kayseri, Turkey. zuleyha@erciyes.edu.tr. 3. Erciyes University Medical School Department of Medical Biology, Kayseri, Turkey. 4. Yeditepe University Medical School Department of Endocrinology, Istanbul, Turkey.
Abstract
PURPOSE: Glucagon stimulation test (GST) is used to assess the hypothalamo-pituitary-adrenal (HPA) and growth hormone (GH) axes with an incompletely defined mechanism. We aimed to assess if glucagon acted through fibroblast growth factor-21 (FGF-21) to stimulate cortisol and GH secretion. The secondary outcome was to determine the relationship of FGF-21 with variable GH responses to GST in obesity. METHODS: A total of 26 healthy participants; 11 obese (body mass index (BMI) > 30 kg/m2) and 15 leans (BMI < 25 kg/m2) were included. Basal pituitary and target hormone levels were measured and GST was performed. During GST, glucose, insulin, cortisol, GH, and FGF-21 responses were measured. RESULTS: The mean age of the participants was 26.3±3.6 years. Glucagon resulted in significant increases in FGF-21, glucose, insulin, cortisol, and GH levels. The levels of basal cortisol, GH, FGF-21, and IGF-1 were similar in the two groups. The peak GH and area under the curve (AUC)(GH) responses to GST in the obese group were lower than those of the normal-weight group with a different pattern of response. There were no differences between the groups in terms of peak cortisol, AUC(cortisol), peak insulin, AUC(insulin), peak FGF-21, and AUC(FGF21). Obesity was associated with significantly increased glucose and insulin responses and slightly decreased FGF-21 response to glucagon. CONCLUSION: Obesity was associated with blunted and delayed GH, but preserved cortisol responses to GST. This is the first study showing that glucagon stimulates the HPA and GH axis independently from FGF-21. The delayed GH response to GST in obesity does not seem to be related to FGF-21.
PURPOSE: Glucagon stimulation test (GST) is used to assess the hypothalamo-pituitary-adrenal (HPA) and growth hormone (GH) axes with an incompletely defined mechanism. We aimed to assess if glucagon acted through fibroblast growth factor-21 (FGF-21) to stimulate cortisol and GH secretion. The secondary outcome was to determine the relationship of FGF-21 with variable GH responses to GST in obesity. METHODS: A total of 26 healthy participants; 11 obese (body mass index (BMI) > 30 kg/m2) and 15 leans (BMI < 25 kg/m2) were included. Basal pituitary and target hormone levels were measured and GST was performed. During GST, glucose, insulin, cortisol, GH, and FGF-21 responses were measured. RESULTS: The mean age of the participants was 26.3±3.6 years. Glucagon resulted in significant increases in FGF-21, glucose, insulin, cortisol, and GH levels. The levels of basal cortisol, GH, FGF-21, and IGF-1 were similar in the two groups. The peak GH and area under the curve (AUC)(GH) responses to GST in the obese group were lower than those of the normal-weight group with a different pattern of response. There were no differences between the groups in terms of peak cortisol, AUC(cortisol), peak insulin, AUC(insulin), peak FGF-21, and AUC(FGF21). Obesity was associated with significantly increased glucose and insulin responses and slightly decreased FGF-21 response to glucagon. CONCLUSION: Obesity was associated with blunted and delayed GH, but preserved cortisol responses to GST. This is the first study showing that glucagon stimulates the HPA and GH axis independently from FGF-21. The delayed GH response to GST in obesity does not seem to be related to FGF-21.
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