AI Article Synopsis
- Central opioid receptors, particularly the mu opioid receptor (MOR), have been shown to affect insulin secretion and glucose metabolism in mice.
- Activation of MOR by the specific agonist DAMGO leads to reduced insulin sensitivity and impaired glucose tolerance due to increased gluconeogenic gene expression in the liver.
- Blocking α2A-adrenergic receptors can prevent the negative effects of MOR activation, suggesting sympathetic innervation mediates the impact of central opioid signaling on pancreatic β-cells.
Article Abstract
Pancreatic insulin-secreting β-cells express opioid receptors, whose activation by opioid peptides modulates hormone secretion. Opioid receptors are also expressed in multiple brain regions including the hypothalamus, where they play a role in feeding behavior and energy homeostasis, but their potential role in central regulation of glucose metabolism is unknown. Here, we investigate whether central opioid receptors participate in the regulation of insulin secretion and glucose homeostasis in vivo. C57BL/6J mice were acutely treated by intracerebroventricular (i.c.v.) injection with specific agonists for the three main opioid receptors, kappa (KOR), delta (DOR) and mu (MOR) opioid receptors: activation of KOR and DOR did not alter glucose tolerance, whereas activation of brain MOR with the specific agonist DAMGO blunted glucose-stimulated insulin secretion (GSIS), reduced insulin sensitivity, increased the expression of gluconeogenic genes in the liver and, consequently, impaired glucose tolerance. Pharmacological blockade of α2A-adrenergic receptors prevented DAMGO-induced glucose intolerance and gluconeogenesis. Accordingly, DAMGO failed to inhibit GSIS and to impair glucose tolerance in α2A-adrenoceptor knockout mice, indicating that the effects of central MOR activation on β-cells are mediated via sympathetic innervation. Our results show for the first time a new role of the central opioid system, specifically the MOR, in the regulation of insulin secretion and glucose metabolism.
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| http://dx.doi.org/10.1016/j.neuropharm.2016.08.005 | DOI Listing |
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