The neurotrophic factor artemin and its receptor GFRα3 mediate migraine-like pain via the ion channel TRPM8.

IF 5 2区医学 Q1 CLINICAL NEUROLOGY

Cephalalgia Pub Date : 2024-11-01 DOI:10.1177/03331024241297679

Chenyu Yang, Chao Wei, Sanaa Alam, Xunyang Chen, David D McKemy

{"title":"The neurotrophic factor artemin and its receptor GFRα3 mediate migraine-like pain via the ion channel TRPM8.","authors":"Chenyu Yang, Chao Wei, Sanaa Alam, Xunyang Chen, David D McKemy","doi":"10.1177/03331024241297679","DOIUrl":null,"url":null,"abstract":"Background: Migraine has a strong genetic foundation, including both monogenic and polygenic types. The former are rare, with most migraine considered polygenic, supported by genome-wide association studies (GWAS) identifying numerous genetic variants linked with migraine risk. Surprisingly, some of the most common mutations are associated with transient receptor potential melastatin 8 (TRPM8), a non-selective cation channel that is the primary sensor of cold temperatures in cutaneous primary afferents of the somatosensory system. However, it is unlikely that the temperature sensitivity of TRPM8 is relevant in migraine-related tissues, such as the meninges, suggesting other activation mechanisms underly its role in migraine pathogenesis. Thus, to define the basis of the channel's involvement, we reasoned that cellular processes that increase cold sensitivity in the skin, such as the neurotrophic factor artemin, via its receptor glial cell-line derived neurotrophic factor family receptor alpha-3 (GFRα3), also mediate TRPM8-associated migraine-like pain in the meninges.Methods: To investigate the role of artemin and GFRα3 in preclinical rodent migraine models, we infused nitroglycerin acutely and chronically, and measured changes in periorbital and hind paw mechanical sensitivity in male and female mice lacking GFRα3, after neutralization of free artemin with specific monoclonal antibodies, or by systemic treatment with a TRPM8-specific antagonist. Further, in mice lacking GFRα3 we tested the effects of supradural infusions of a mix of inflammatory mediators, as well as tested if dura stimulation with artemin or a TRPM8-specific agonist induce migraine-related pain in mice.Results: We find that mechanical allodynia induced by systemic nitroglycerin, or supradural infusion of inflammatory mediators, involves GFRα3. In addition, neutralization of circulating artemin reduces the nitroglycerin phenotype, demonstrating the importance of this neurotrophic pathway in headaches. Further, we show TRPM8 expression in the meninges, and that direct supradural infusion of either a TRPM8-specific agonist or artemin itself produces mechanical allodynia, with the latter dependent on TRPM8 and ameliorated by concurrent treatment with sumatriptan.Conclusions: These results indicate that neuroinflammatory events in the meninges can produce migraine-like pain in mice via artemin and GFRα3, likely acting upstream of TRPM8, providing a novel pathway that may contribute to headaches or migraine pathogenesis.","PeriodicalId":10075,"journal":{"name":"Cephalalgia","volume":"44 11","pages":"3331024241297679"},"PeriodicalIF":5.0000,"publicationDate":"2024-11-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Cephalalgia","FirstCategoryId":"3","ListUrlMain":"https://doi.org/10.1177/03331024241297679","RegionNum":2,"RegionCategory":"医学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"CLINICAL NEUROLOGY","Score":null,"Total":0}

引用次数: 0

Abstract

Background: Migraine has a strong genetic foundation, including both monogenic and polygenic types. The former are rare, with most migraine considered polygenic, supported by genome-wide association studies (GWAS) identifying numerous genetic variants linked with migraine risk. Surprisingly, some of the most common mutations are associated with transient receptor potential melastatin 8 (TRPM8), a non-selective cation channel that is the primary sensor of cold temperatures in cutaneous primary afferents of the somatosensory system. However, it is unlikely that the temperature sensitivity of TRPM8 is relevant in migraine-related tissues, such as the meninges, suggesting other activation mechanisms underly its role in migraine pathogenesis. Thus, to define the basis of the channel's involvement, we reasoned that cellular processes that increase cold sensitivity in the skin, such as the neurotrophic factor artemin, via its receptor glial cell-line derived neurotrophic factor family receptor alpha-3 (GFRα3), also mediate TRPM8-associated migraine-like pain in the meninges.

Methods: To investigate the role of artemin and GFRα3 in preclinical rodent migraine models, we infused nitroglycerin acutely and chronically, and measured changes in periorbital and hind paw mechanical sensitivity in male and female mice lacking GFRα3, after neutralization of free artemin with specific monoclonal antibodies, or by systemic treatment with a TRPM8-specific antagonist. Further, in mice lacking GFRα3 we tested the effects of supradural infusions of a mix of inflammatory mediators, as well as tested if dura stimulation with artemin or a TRPM8-specific agonist induce migraine-related pain in mice.

Results: We find that mechanical allodynia induced by systemic nitroglycerin, or supradural infusion of inflammatory mediators, involves GFRα3. In addition, neutralization of circulating artemin reduces the nitroglycerin phenotype, demonstrating the importance of this neurotrophic pathway in headaches. Further, we show TRPM8 expression in the meninges, and that direct supradural infusion of either a TRPM8-specific agonist or artemin itself produces mechanical allodynia, with the latter dependent on TRPM8 and ameliorated by concurrent treatment with sumatriptan.

Conclusions: These results indicate that neuroinflammatory events in the meninges can produce migraine-like pain in mice via artemin and GFRα3, likely acting upstream of TRPM8, providing a novel pathway that may contribute to headaches or migraine pathogenesis.

查看原文本刊更多论文

神经营养因子青蒿素及其受体 GFRα3 通过离子通道 TRPM8 介导偏头痛样疼痛。

背景：偏头痛有很强的遗传基础，包括单基因型和多基因型。单基因型偏头痛很少见，大多数偏头痛被认为是多基因型的，全基因组关联研究（GWAS）发现了许多与偏头痛风险相关的基因变异。令人惊讶的是，一些最常见的变异与瞬时受体电位美拉辛8（TRPM8）有关，TRPM8是一种非选择性阳离子通道，是躯体感觉系统皮肤初级传入器官对低温的主要感应器。然而，TRPM8 对温度的敏感性不太可能与偏头痛相关组织（如脑膜）有关，这表明它在偏头痛发病机制中的作用是由其他激活机制决定的。因此，为了确定该通道参与的基础，我们推断增加皮肤冷敏感性的细胞过程，如神经营养因子青蒿素通过其受体胶质细胞系衍生神经营养因子家族受体α-3（GFRα3），也会介导脑膜中与TRPM8相关的偏头痛样疼痛：为了研究青蒿素和GFRα3在临床前啮齿类偏头痛模型中的作用，我们急性和慢性注射了硝酸甘油，并测量了缺乏GFRα3的雄性和雌性小鼠在用特异性单克隆抗体中和游离青蒿素或用TRPM8特异性拮抗剂全身治疗后眼周和后爪机械敏感性的变化。此外，我们还在缺乏GFRα3的小鼠体内测试了硬膜上输注混合炎症介质的效果，并测试了用青蒿素或TRPM8特异性激动剂刺激硬膜是否会诱发小鼠偏头痛相关疼痛：结果：我们发现，全身硝酸甘油或硬膜上输注炎症介质诱发的机械异感涉及 GFRα3。此外，中和循环中的青蒿素可减少硝酸甘油表型，这证明了神经营养途径在头痛中的重要性。此外，我们还在脑膜中发现了TRPM8的表达，而且直接硬膜上注射TRPM8特异性激动剂或青蒿素本身都会产生机械异感，后者依赖于TRPM8，同时使用舒马曲坦治疗可改善机械异感：这些结果表明，脑膜中的神经炎症事件可通过青蒿素和GFRα3在小鼠体内产生偏头痛样疼痛，很可能作用于TRPM8的上游，从而提供了一种可能有助于头痛或偏头痛发病机制的新途径。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Cephalalgia 医学-临床神经学

CiteScore

10.10

自引率

6.10%

发文量

108

审稿时长

4-8 weeks

期刊介绍： Cephalalgia contains original peer reviewed papers on all aspects of headache. The journal provides an international forum for original research papers, review articles and short communications. Published monthly on behalf of the International Headache Society, Cephalalgia''s rapid review averages 5 ½ weeks from author submission to first decision.