Takayoshi Masuoka , Takeshi Kiyoi , Shijie Zheng , Qiang He , Li Liu , Junsuke Uwada , Ikunobu Muramatsu
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The synthesis and liberation of acetylcholine from the cornea were assessed using corneal segments pre-incubated with [</span></span></span><sup>3</sup><span><span>H]choline. The responsiveness of corneal neurons and nerves to cholinergic drugs was explored using calcium imaging with primary cultures of trigeminal </span>ganglion neurons and extracellular recording from corneal preparations in guinea pigs.</span></p></div><div><h3>Results</h3><p><span>ChAT, but not vAChT, was highly distributed in the corneal epithelium. In corneal segments, [</span><sup>3</sup>H] acetylcholine was synthesized from [<sup>3</sup><span><span>H]choline, and was also released in response to electrical stimuli. In cultured corneal neurons, the population sensitive to a transient receptor potential melastatin 8 (TRPM8) agonist exhibited high probability of responding to nicotine in a calcium imaging experiment. The firing frequency of cold-sensitive </span>corneal nerves<span> was increased by the application of nicotine, but diminished by an α4 nicotinic acetylcholine receptor antagonist.</span></span></p></div><div><h3>Conclusions</h3><p>The corneal epithelium can synthesize and release acetylcholine. Corneal acetylcholine can excite sensory nerves via nicotinic receptors containing the α4 subunit. 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引用次数: 0
摘要
目的感觉神经末梢高度分布在角膜中,在各种内源性和外源性刺激下调节眼表感觉和平衡。然而,人们对调节角膜感觉神经生理和病理生理活动的介质知之甚少。本研究的目的是调查角膜感觉神经中是否存在胆碱能调节。方法采用 Western 印迹和免疫组化分析评估胆碱乙酰转移酶(ChAT)和囊泡乙酰胆碱转运体(vAChT)的定位。使用预孵育了[3H]胆碱的角膜片段评估了角膜中乙酰胆碱的合成和释放。利用三叉神经节神经元原代培养物的钙成像和豚鼠角膜制备物的细胞外记录,探讨了角膜神经元和神经对胆碱能药物的反应。在角膜节段中,[3H]胆碱可合成[3H]乙酰胆碱,并在电刺激下释放。在培养的角膜神经元中,对瞬时受体电位美司他丁8(TRPM8)激动剂敏感的神经元群在钙成像实验中对尼古丁的反应概率很高。结论角膜上皮能合成和释放乙酰胆碱。角膜乙酰胆碱可通过含有α4亚基的烟碱受体兴奋感觉神经。因此,角膜乙酰胆碱可能是角膜神经活动的重要调控因子之一,能调节眼表状况和感觉。
Corneal acetylcholine regulates sensory nerve activity via nicotinic receptors
Purpose
Sensory nerve terminals are highly distributed in the cornea, and regulate ocular surface sensation and homeostasis in response to various endogenous and exogenous stimuli. However, little is known about mediators regulating the physiological and pathophysiological activities of corneal sensory nerves. The aim of this study was to investigate the presence of cholinergic regulation in sensory nerves in the cornea.
Methods
Localization of choline acetyltransferase (ChAT) and vesicular acetylcholine transporter (vAChT) was evaluated using western blotting and immunohistochemical analysis. The synthesis and liberation of acetylcholine from the cornea were assessed using corneal segments pre-incubated with [3H]choline. The responsiveness of corneal neurons and nerves to cholinergic drugs was explored using calcium imaging with primary cultures of trigeminal ganglion neurons and extracellular recording from corneal preparations in guinea pigs.
Results
ChAT, but not vAChT, was highly distributed in the corneal epithelium. In corneal segments, [3H] acetylcholine was synthesized from [3H]choline, and was also released in response to electrical stimuli. In cultured corneal neurons, the population sensitive to a transient receptor potential melastatin 8 (TRPM8) agonist exhibited high probability of responding to nicotine in a calcium imaging experiment. The firing frequency of cold-sensitive corneal nerves was increased by the application of nicotine, but diminished by an α4 nicotinic acetylcholine receptor antagonist.
Conclusions
The corneal epithelium can synthesize and release acetylcholine. Corneal acetylcholine can excite sensory nerves via nicotinic receptors containing the α4 subunit. Therefore, corneal acetylcholine may be one of the important regulators of corneal nerve activity arranging ocular surface condition and sensation.
期刊介绍:
The Ocular Surface, a quarterly, a peer-reviewed journal, is an authoritative resource that integrates and interprets major findings in diverse fields related to the ocular surface, including ophthalmology, optometry, genetics, molecular biology, pharmacology, immunology, infectious disease, and epidemiology. Its critical review articles cover the most current knowledge on medical and surgical management of ocular surface pathology, new understandings of ocular surface physiology, the meaning of recent discoveries on how the ocular surface responds to injury and disease, and updates on drug and device development. The journal also publishes select original research reports and articles describing cutting-edge techniques and technology in the field.
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