Shelukhina Irina, Mikhailov Nikita, Abushik Polina, Nurullin Leniz, Nikolsky Evgeny E, Giniatullin Rashid
Department of Neurobiology, A. I. Virtanen Institute for Molecular Sciences, University of Eastern Finland, Kuopio, Finland.
Shemyakin-Ovchinnikov Institute of Bioorganic Chemistry, Russian Academy of Sciences, Moscow, Russian Federation.
Front Neurol. 2017 Apr 27;8:163. doi: 10.3389/fneur.2017.00163. eCollection 2017.
Parasympathetic innervation of meninges and ability of carbachol, acetylcholine (ACh) receptor (AChR) agonist, to induce headaches suggests contribution of cholinergic mechanisms to primary headaches. However, neurochemical mechanisms of cholinergic regulation of peripheral nociception in meninges, origin place for headache, are almost unknown.
Using electrophysiology, calcium imaging, immunohistochemistry, and staining of meningeal mast cells, we studied effects of cholinergic agents on peripheral nociception in rat hemiskulls and isolated trigeminal neurons.
Both ACh and carbachol significantly increased nociceptive firing in peripheral terminals of meningeal trigeminal nerves recorded by local suction electrode. Strong nociceptive firing was also induced by nicotine, implying essential role of nicotinic AChRs in control of excitability of trigeminal nerve endings. Nociceptive firing induced by carbachol was reduced by muscarinic antagonist atropine, whereas the action of nicotine was prevented by the nicotinic blocker d-tubocurarine but was insensitive to the TRPA1 antagonist HC-300033. Carbachol but not nicotine induced massive degranulation of meningeal mast cells known to release multiple pro-nociceptive mediators. Enzymes terminating ACh action, acetylcholinesterase (AChE) and butyrylcholinesterase, were revealed in perivascular meningeal nerves. The inhibitor of AChE neostigmine did not change the firing but induced nociceptive activity, sensitive to d-tubocurarine, after pretreatment of meninges with the migraine mediator CGRP. This observation suggested the pro-nociceptive action of endogenous ACh in meninges. Both nicotine and carbachol induced intracellular Ca transients in trigeminal neurons partially overlapping with expression of capsaicin-sensitive TRPV1 receptors.
Trigeminal nerve terminals in meninges, as well as dural mast cells and trigeminal ganglion neurons express a repertoire of pro-nociceptive nicotinic and muscarinic AChRs, which could be activated by the ACh released from parasympathetic nerves. These receptors represent a potential target for novel therapeutic interventions in trigeminal pain and probably in migraine.
脑膜的副交感神经支配以及卡巴胆碱(一种乙酰胆碱(ACh)受体(AChR)激动剂)诱发头痛的能力表明胆碱能机制在原发性头痛中起作用。然而,在脑膜(头痛的起源部位)中,胆碱能调节外周伤害感受的神经化学机制几乎尚不清楚。
我们使用电生理学、钙成像、免疫组织化学以及脑膜肥大细胞染色技术,研究了胆碱能药物对大鼠半颅骨和分离的三叉神经元外周伤害感受的影响。
乙酰胆碱和卡巴胆碱均显著增加了通过局部吸引电极记录的脑膜三叉神经外周终末的伤害性放电。尼古丁也诱导了强烈的伤害性放电,这意味着烟碱型AChR在控制三叉神经末梢兴奋性方面起着重要作用。卡巴胆碱诱导的伤害性放电被毒蕈碱拮抗剂阿托品降低,而尼古丁的作用被烟碱型阻滞剂筒箭毒碱阻断,但对TRPA1拮抗剂HC - 300033不敏感。卡巴胆碱而非尼古丁诱导了已知会释放多种促伤害性介质的脑膜肥大细胞大量脱颗粒。在脑膜血管周围神经中发现了终止ACh作用的酶,即乙酰胆碱酯酶(AChE)和丁酰胆碱酯酶。AChE抑制剂新斯的明在偏头痛介质降钙素基因相关肽(CGRP)预处理脑膜后,虽未改变放电,但诱导了对筒箭毒碱敏感的伤害性活动。这一观察结果提示内源性ACh在脑膜中具有促伤害性作用。尼古丁和卡巴胆碱均在三叉神经元中诱导了细胞内Ca²⁺瞬变,部分与辣椒素敏感的TRPV1受体表达重叠。
脑膜中的三叉神经末梢以及硬脑膜肥大细胞和三叉神经节神经元表达了一系列促伤害性的烟碱型和毒蕈碱型AChR,它们可被副交感神经释放的ACh激活。这些受体是三叉神经痛以及可能在偏头痛的新型治疗干预中的潜在靶点。
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