Stimulation of CGRP-expressing neurons in the medial cerebellar nucleus induces light and touch sensitivity in mice

Q2 Medicine

Neurobiology of Pain Pub Date : 2022-08-01 DOI:10.1016/j.ynpai.2022.100098

Mengya Wang , William C. Castonguay , Thomas L. Duong , Michael W. Huebner , Harold C. Flinn , Agatha M. Greenway , Andrew F. Russo , Levi P. Sowers

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引用次数: 3

Abstract

Calcitonin gene-related peptide (CGRP) is considered a major player in migraine pathophysiology. However, the location and mechanisms of CGRP actions in migraine are not clearly elucidated. One important question yet to be answered is: Does central CGRP signaling play a role in migraine? One candidate site is the cerebellum, which serves as a sensory and motor integration center and is activated in migraine patients. The cerebellum has the most CGRP binding sites in the central nervous system and a deep cerebellar nucleus, the medial nucleus (MN), expresses CGRP (MN^CGRP). A previous study demonstrated that CGRP delivery into the cerebellum induced migraine-like behaviors. We hypothesized that stimulation of MN^CGRP neurons might induce migraine-like behaviors. To test the hypothesis, we used an optogenetic strategy using Calca^Cre/+ mice to drive Cre-dependent expression of channelrhodopsin-2 selectively in CGRP neurons in the cerebellar MN. A battery of behavioral tests was done to assess preclinical behaviors that are surrogates of migraine symptoms, including light aversion, cutaneous allodynia, and spontaneous pain when MN^CGRP neurons were optically stimulated. Motor functions were also assessed. Optical stimulation of MN^CGRP neurons decreased the time spent in the light, which was coupled to increased time spent resting in the dark, but not the light. These changes were only significant in female mice. Plantar tactile sensitivity was increased in the ipsilateral paws of both sexes, but contralateral paw data were less clear. There was no significant increase in anxiety-like behavior, spontaneous pain (squint), or changes in gait. These discoveries reveal that MN^CGRP neurons may contribute to migraine-like sensory hypersensitivity to light and touch.

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刺激小脑内侧核表达cgrp的神经元可诱导小鼠光和触觉敏感性

降钙素基因相关肽(CGRP)被认为是偏头痛病理生理的主要参与者。然而，CGRP在偏头痛中的作用位置和机制尚不清楚。一个重要的问题尚未得到回答:中枢CGRP信号是否在偏头痛中起作用?一个候选部位是小脑，它作为感觉和运动整合中心，在偏头痛患者中被激活。小脑是中枢神经系统中CGRP结合位点最多的部位，小脑深部核，内侧核(MN)表达CGRP (MNCGRP)。先前的一项研究表明，CGRP进入小脑会诱发偏头痛样行为。我们假设刺激MNCGRP神经元可能会诱发偏头痛样行为。为了验证这一假设，我们使用光遗传学策略，使用CalcaCre/+小鼠，在小脑MN的CGRP神经元中选择性地驱动cre依赖性通道视紫红质-2的表达。我们进行了一系列的行为测试来评估临床前行为，这些行为是偏头痛症状的替代品，包括光厌恶、皮肤异常性疼痛和MNCGRP神经元受到光刺激时的自发性疼痛。运动功能也被评估。光刺激MNCGRP神经元减少了在光下的时间，这与在黑暗中休息的时间增加相关联，但与光无关。这些变化仅在雌性小鼠中显著。两性同侧脚掌的足底触觉敏感性增加，但对侧脚掌的数据不太清楚。焦虑样行为、自发性疼痛(斜视)或步态变化没有显著增加。这些发现表明MNCGRP神经元可能有助于偏头痛样的对光和触觉的感觉超敏反应。

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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