Meningeal K ATP channels contribute to behavioral responses in preclinical migraine models.

IF 5.9 1区医学 Q1 ANESTHESIOLOGY

PAIN® Pub Date : 2025-02-01 Epub Date: 2024-10-01 DOI:10.1097/j.pain.0000000000003385

Hao-Ruei Mei, Myan Lam, Shrivatsa Ravindra Kulkarni, Håkan Ashina, Messoud Ashina, Gregory Dussor

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引用次数: 0

Abstract

Abstract: Human experimental studies have shown that levcromakalim, an ATP-sensitive potassium (K ATP ) channel opener, induces migraine attacks in people with migraine but not in healthy volunteers. However, the exact site of action for K ATP channels in migraine pathophysiology remains unclear. This study investigates the role of these channels in the meninges in eliciting behavioral hypersensitivity responses in mice. The effects of K ATP channel signaling were assessed using preclinical migraine models induced by repetitive stress or dural stimulation. Prolactin, CGRP, sodium nitroprusside (SNP), and K ATP channel openers or blockers were administered systemically or onto the dura of mice followed by behavioral testing using periorbital von Frey or facial grimace measurements. Repetitive stress sensitized mice to a normally subthreshold systemic dose of levcromakalim. The K ATP blocker glibenclamide significantly reduced responses to systemic SNP following repetitive stress. In naive mice, direct dural application of levcromakalim or SNP elicited periorbital hypersensitivity. Responses to dural levcromakalim were inhibited by coinjection with glibenclamide or sumatriptan. By contrast, injection of levcromakalim in the periorbital skin did not induce hypersensitivity. Moreover, repetitive stress sensitized mice to dural injection of normally subthreshold doses of levcromakalim or SNP. Finally, dural coinjection of glibenclamide inhibited periorbital hypersensitivity induced by CGRP or prolactin in female mice. These studies demonstrate that the meninges can be one site of action for the migraine-triggering effects of K ATP channel openers. They also show that NO donors, CGRP, and prolactin can produce behavioral hypersensitivity through opening of K ATP channels in the meninges.

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脑膜KATP通道有助于临床前偏头痛模型的行为反应。

摘要：人体实验研究表明，左旋克马卡林是一种atp敏感钾（KATP）通道打开剂，可诱导偏头痛患者发作，但在健康志愿者中没有。然而，KATP通道在偏头痛病理生理中的确切作用位点仍不清楚。本研究探讨了脑膜中这些通道在引发小鼠行为超敏反应中的作用。使用重复应激或硬脑膜刺激诱导的临床前偏头痛模型评估KATP通道信号的影响。催乳素、CGRP、硝普钠（SNP）和KATP通道开放剂或阻滞剂被全身或注射到小鼠硬脑膜上，随后通过眶周von Frey或面部扭曲测量进行行为测试。重复应激使小鼠对正常低于阈值的全身剂量左旋莫卡林敏感。KATP阻滞剂格列本脲显著降低重复性应激后对全身性SNP的反应。在幼稚小鼠中，直接硬脑膜应用左旋克马卡林或SNP引起眶周过敏。与格列苯脲或舒马匹坦联合注射可抑制硬脑膜左旋克马卡林的反应。相比之下，左旋克马卡林在眶周皮肤注射未引起过敏反应。此外，重复应激使小鼠对正常低于阈值剂量的左旋马卡林或SNP硬脑膜注射敏感。最后，硬脑膜联合注射格列苯脲可抑制CGRP或催乳素引起的雌性小鼠眶周过敏反应。这些研究表明，脑膜可能是KATP通道打开剂偏头痛触发效应的一个作用部位。他们还表明，NO供体、CGRP和催乳素可以通过打开脑膜中的KATP通道而产生行为超敏反应。

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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来源期刊

PAIN® 医学-临床神经学

CiteScore

12.50

自引率

8.10%

发文量

242

审稿时长

9 months

期刊介绍： PAIN® is the official publication of the International Association for the Study of Pain and publishes original research on the nature,mechanisms and treatment of pain.PAIN® provides a forum for the dissemination of research in the basic and clinical sciences of multidisciplinary interest.