Abstract
Insulin and growth hormone (GH) are crucial counter-regulatory hormones in regulating glucose and lipid metabolisms. Insulin promotes fat storage, while GH promotes lipolysis and fat oxidation. In obese individuals, reduced GH secretion (hyposomatotropism) and increased insulin secretion (hyperinsulinemia) co-exist. The imbalance of these two hormones exacerbates fat accumulation. Therapeutic approaches to correct such hormonal imbalance in obesity are limited. The sodium/glucose cotransporter 2 inhibitor (SGLT2i), which promotes urinary glucose excretion, is a novel drug for overt type 2 diabetes (T2D). However, little is known about its efficacy in obese individuals without T2D in the clinic, in particular with hormonal imbalance. By applying SGLT2i (dapagliflozin, 1 mg/kg/d for 10 weeks) to a hyperphagic obese melanocortin 4 receptor knockout (MC4RKO) mouse model, we observed a significant reduction of hyperinsulinemia (fasting: 1.36±0.19 vs. 4.93±1.04 ng/ml, p<0.01; fed: 9.50±3.37 vs. 31.11±5.85 ng/ml, p<0.05, n=8) and restored pulsatile GH secretion without changing secretion pattern (pulsatile GH: 185.3±18.37 vs. 56.28±13.22 ng/ml per 6h, p<0.001; GH mass per secretion pulse: 50.31±8.20 vs. 15.55±3.18 ng/ml, p<0.01; number of secretory pulse per 6h: 3.71±0.29 vs. 3.57±0.43, p=0.78, n=8) as early as 4 weeks after the initiation of the treatment. Lipolysis and lipid oxidation-related gene expression levels were increased by SGLT2i treatment, whereas lipogenesis and inflammation gene expression levels were reduced, leading to decreased whole-body fat mass. Following the treatment, glucose tolerance and insulin sensitivity were both improved. Although a null effect was observed in food intake and daily activity, the treatment significantly promoted lipid usage and shifted energy metabolism towards negative energy balance. In conclusion, 10-week SGLT2i treatment improved glucose and lipid metabolisms in the hyperphagic obese MC4RKO mice. Such improvement occurs alongside reduced hyperinsulinemia and restored pulsatile GH secretion. This work provides insights for the potential use of SGLT2i in obese individuals prior to overt T2D. The final version of this work is published (1).
Acknowledgements: grant (NHMRC, University of Queensland) and scholarship (CSC and UQ International scholarship)
Reference: (1) Huang, Zhengxiang, et al. “Dapagliflozin restores insulin and growth hormone secretion in obese mice.” Journal of Endocrinology 245.1 (2020): 1-12.
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