瘦素信号调节小鼠非神经节性 Edinger-Westphal 核中 Urocortin 1 神经元的活性。

Leptin signaling modulates the activity of urocortin 1 neurons in the mouse nonpreganglionic Edinger-Westphal nucleus.

机构信息

Department of Cellular Animal Physiology, Donders Institute for Brain, Cognition and Behaviour, Radboud University Nijmegen, 6500 GL Nijmegen, The Netherlands.

出版信息

Endocrinology. 2011 Mar;152(3):979-88. doi: 10.1210/en.2010-1143. Epub 2011 Jan 5.

DOI:10.1210/en.2010-1143

PMID:21209012

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3040051/

Abstract

A recent study systematically characterized the distribution of the long form of the leptin receptor (LepRb) in the mouse brain and showed substantial LepRb mRNA expression in the nonpreganglionic Edinger-Westphal nucleus (npEW) in the rostroventral part of the midbrain. This nucleus hosts the majority of urocortin 1 (Ucn1) neurons in the rodent brain, and because Ucn1 is a potent satiety hormone and electrical lesioning of the npEW strongly decreases food intake, we have hypothesized a role of npEW-Ucn1 neurons in leptin-controlled food intake. Here, we show by immunohistochemistry that npEW-Ucn1 neurons in the mouse contain LepRb and respond to leptin administration with induction of the Janus kinase 2-signal transducer and activator of transcription 3 pathway, both in vivo and in vitro. Furthermore, systemic leptin administration increases the Ucn1 content of the npEW significantly, whereas in mice that lack LepRb (db/db mice), the npEW contains considerably reduced amount of Ucn1. Finally, we reveal by patch clamping of midbrain Ucn1 neurons that leptin administration reduces the electrical firing activity of the Ucn1 neurons. In conclusion, we provide ample evidence for leptin actions that go beyond leptin's well-known targets in the hypothalamus and propose that leptin can directly influence the activity of the midbrain Ucn1 neurons.

摘要

最近的一项研究系统地描述了长形式瘦素受体（LepRb）在小鼠大脑中的分布，并显示在中脑腹侧前区的非节前 Edinger-Westphal 核（npEW）中存在大量 LepRb mRNA 表达。该核是啮齿动物大脑中大多数 Ucn1 神经元的宿主，并且由于 Ucn1 是一种有效的饱腹感激素，并且 npEW 的电损伤强烈减少食物摄入，我们假设 npEW-Ucn1 神经元在瘦素控制的食物摄入中起作用。在这里，我们通过免疫组织化学显示，在小鼠中，npEW-Ucn1 神经元含有 LepRb，并对瘦素处理做出反应，体内和体外均诱导 Janus 激酶 2-信号转导和转录激活因子 3 通路。此外，全身给予瘦素可显著增加 npEW 中的 Ucn1 含量，而在缺乏 LepRb 的小鼠（db/db 小鼠）中，npEW 中 Ucn1 的含量则大大减少。最后，我们通过对中脑 Ucn1 神经元进行膜片钳记录显示，瘦素处理可降低 Ucn1 神经元的电活动。总之，我们提供了充分的证据表明瘦素的作用超出了瘦素在下丘脑的已知靶点，并提出瘦素可以直接影响中脑 Ucn1 神经元的活性。

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