Temporal and spatial layout of endocannabinoid system components in the mouse suprachiasmatic nucleus

IF 2.9 3区医学 Q2 NEUROSCIENCES

Neuroscience Pub Date : 2024-11-19 DOI:10.1016/j.neuroscience.2024.11.026

Timothy D. Niepokny , Hunter Frey-Burkart , Eric M. Mintz

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引用次数: 0

Abstract

Environmental light serves as the main entraining signal for the central circadian pacemaker, the suprachiasmatic nucleus of the hypothalamus (SCN). To shift clock timing with the changing environment, minute adjustments are necessary and the endocannabinoid system (ECS) acts as a neuromodulatory signaling mechanism in the SCN. These systems exert bidirectional effects on one another, still, limited knowledge exists about the role of endocannabinoids in circadian rhythm regulation. Therefore, we investigated the temporal and spatial molecular layouts of the ECS in the SCN of male and female C57BL/6J mice. We utilized laser capture microdissection and quantitative RT-PCR to investigate the ECS temporal layout in the SCN, detected 13 of 19 examined ECS components, and followed up with two 24-hour time course experiments, one under 12:12 light/dark and one under constant dark conditions. All enzymatic machinery related to endocannabinoid synthesis and degradation investigated were found present; however, only cannabinoid receptor 1 (Cnr1) was detected from the 6 ECS related receptors investigated. Cosinor analysis revealed circadian rhythms in many components in both sexes and lighting conditions. Next, we investigated the spatial localization of ECS components in the SCN with RNAscope in situ hybridization. Some genes, such as Cnr1, were more highly expressed in neurons with others, such as Fabp7, were elevated in astrocytes. Cnr1 levels were highest in neurons that do not express the neuropeptides Avp or Vip, and lowest in Vip neurons. Our results support the idea that locally regulated ECS signaling through neuronal CB1 modulates circadian clock function.

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小鼠蛛网膜上核内源性大麻素系统成分的时间和空间布局

环境光是中央昼夜节律起搏器--下丘脑上核（SCN）的主要诱导信号。要使时钟时间随环境变化而改变，必须进行微小的调整，而内源性大麻素系统（ECS）则是 SCN 中的一种神经调节信号机制。这些系统相互产生双向影响，但人们对内源性大麻素在昼夜节律调节中的作用了解有限。因此，我们研究了雌雄C57BL/6J小鼠SCN中ECS的时空分子布局。我们利用激光捕获显微切割和定量RT-PCR技术研究了ECS在SCN中的时间布局，检测了19种ECS成分中的13种，并进行了两次24小时时程实验，一次是在12:12光照/黑暗条件下，另一次是在恒定黑暗条件下。所有与内源性大麻素合成和降解相关的酶机制都被发现存在；然而，在所调查的 6 种 ECS 相关受体中，只检测到大麻素受体 1（Cnr1）。Cosinor分析显示，在两性和光照条件下，许多成分都存在昼夜节律。接下来，我们利用 RNAscope 原位杂交技术研究了 ECS 成分在 SCN 中的空间定位。一些基因（如 Cnr1）在神经元中表达较高，而另一些基因（如 Fabp7）则在星形胶质细胞中表达较高。在不表达神经肽 Avp 或 Vip 的神经元中，Cnr1 的水平最高，而在 Vip 神经元中则最低。我们的研究结果支持这样一种观点，即通过神经元 CB1 的局部调控 ECS 信号调节昼夜节律钟功能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Neuroscience 医学-神经科学

CiteScore

6.20

自引率

0.00%

发文量

394

审稿时长

52 days

期刊介绍： Neuroscience publishes papers describing the results of original research on any aspect of the scientific study of the nervous system. Any paper, however short, will be considered for publication provided that it reports significant, new and carefully confirmed findings with full experimental details.