Hypothalamic Proopiomelanocortin Is Necessary for Normal Glucose Homeostasis in Female Mice.

Ramiro Alsina,Viviana Florencia Bumaschny,Milagros Trotta

doi:10.3389/fendo.2018.00554

Abstract

The arcuate nucleus of the hypothalamus is a key regulator of energy balance and glucose homeostasis. In particular, arcuate proopiomelanocortin (POMC) neurons inhibit food intake, stimulate energy expenditure and increase glucose tolerance. The interruption of insulin or glucose signaling in POMC neurons leads to glucose intolerance without changing energy homeostasis. Although it was previously shown that POMC neurons are necessary for normal glucose homeostasis, the participation of POMC neuropeptide, by mechanisms independent of energy balance, remains to be demonstrated. To study the role of POMC in the regulation of glucose homeostasis, we performed glucose and insulin tolerance tests in non-obese mice lacking hypothalamic POMC expression. We found that POMC deficiency leads to glucose intolerance and insulin resistance in female mice before the onset of obesity or hyperphagia. Conversely, POMC deficiency does not impair glucose homeostasis in non-obese male mice. Interestingly, females completely normalize both glucose and insulin tolerance after genetic POMC restoration. Next, to further study sex dimorphism of POMC neurons regarding glucose homeostasis, we measured glucose-elicited changes in C-FOS by performing immunofluorescence in brain slices of POMC-EGFP mice. Remarkably, we found that glucose-induced C-FOS expression in POMC neurons is more than 3-fold higher in female than in male mice. Altogether, our results reveal a key role of arcuate POMC in the regulation of glucose homeostasis in females. Since POMC reactivation completely reverses the diabetogenic phenotype, arcuate POMC could be a potential target for diabetes therapy.

Highlights

Diabetes mellitus is a condition affecting 422 million people all over the world [1]
We studied the regulation of glucose homeostasis by using a reversible POMC knockout mouse model with a unique feature, in which glucose homeostasis and insulin sensitivity can be tested before and after POMC restoration, providing strong evidence for an association between hypothalamic POMC expression and regulation of glucose homeostasis
These findings are in line with previous studies showing that the disruption of glucose signaling in POMC neurons impairs glucose homeostasis [10, 12, 13]

Summary

Introduction

Diabetes mellitus is a condition affecting 422 million people all over the world [1]. Type 2 diabetes is the predominant type, and it mainly results from excess body weight and physical inactivity [1]. In obese patients and mice, type 2 diabetes greatly improves or even reverts after mild body weight loss [2,3,4]. It is accepted that the improvement in glucose homeostasis is a consequence of fat mass reduction, especially in the liver. Since the hypothalamus is a key regulator of both glucose and energy homeostasis, hypothalamic mechanisms may be implicated in the anti-diabetic consequences of losing weight [5, 6].

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Results

Conclusion