瘦素与糖皮质激素之间的反向串扰通过内源性大麻素释放迅速调节突触兴奋。

Opposing crosstalk between leptin and glucocorticoids rapidly modulates synaptic excitation via endocannabinoid release.

作者信息

Malcher-Lopes Renato, Di Shi, Marcheselli Victor S, Weng Feng-Ju, Stuart Christopher T, Bazan Nicolas G, Tasker Jeffrey G

机构信息

Neuroscience Program, Tulane University, New Orleans, Louisiana 70118, USA.

出版信息

J Neurosci. 2006 Jun 14;26(24):6643-50. doi: 10.1523/JNEUROSCI.5126-05.2006.

DOI:10.1523/JNEUROSCI.5126-05.2006

PMID:16775153

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6674033/

Abstract

The hypothalamic paraventricular nucleus (PVN) integrates preautonomic and neuroendocrine control of energy homeostasis, fluid balance, and the stress response. We recently demonstrated that glucocorticoids act via a membrane receptor to rapidly cause endocannabinoid-mediated suppression of synaptic excitation in PVN neurosecretory neurons. Leptin, a major signal of nutritional state, suppresses CB(1) cannabinoid receptor-dependent hyperphagia (increased appetite) in fasting animals by reducing hypothalamic levels of endocannabinoids. Here we show that glucocorticoids stimulate endocannabinoid biosynthesis and release via a Galpha(s)-cAMP-protein kinase A-dependent mechanism and that leptin blocks glucocorticoid-induced endocannabinoid biosynthesis and suppression of excitation in the PVN via a phosphodiesterase-3B-mediated reduction in intracellular cAMP levels. We demonstrate this rapid hormonal interaction in both PVN magnocellular and parvocellular neurosecretory cells. Leptin blockade of the glucocorticoid-induced, endocannabinoid-mediated suppression of excitation was absent in leptin receptor-deficient obese Zucker rats. Our findings reveal a novel hormonal crosstalk that rapidly modulates synaptic excitation via endocannabinoid release in the hypothalamus and that provides a nutritional state-sensitive mechanism to integrate the neuroendocrine regulation of energy homeostasis, fluid balance, and the stress response.

摘要

下丘脑室旁核（PVN）整合了对能量平衡、液体平衡及应激反应的自主神经前体控制和神经内分泌控制。我们最近证实，糖皮质激素通过膜受体发挥作用，迅速导致内源性大麻素介导的PVN神经分泌神经元突触兴奋受到抑制。瘦素是营养状态的主要信号，通过降低下丘脑内源性大麻素水平，抑制禁食动物中CB(1)大麻素受体依赖性的摄食亢进（食欲增加）。在此我们表明，糖皮质激素通过一种依赖Gα(s)-cAMP-蛋白激酶A的机制刺激内源性大麻素的生物合成和释放，而瘦素通过磷酸二酯酶-3B介导的细胞内cAMP水平降低，阻断糖皮质激素诱导的PVN内源性大麻素生物合成及兴奋抑制。我们在PVN大细胞和小细胞神经分泌细胞中均证实了这种快速的激素相互作用。在瘦素受体缺陷的肥胖Zucker大鼠中，瘦素对糖皮质激素诱导的、内源性大麻素介导的兴奋抑制作用不存在。我们的研究结果揭示了一种新的激素相互作用，其通过下丘脑内源性大麻素释放迅速调节突触兴奋，并提供了一种营养状态敏感机制，以整合能量平衡、液体平衡及应激反应的神经内分泌调节。

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