Departamento de Biología, Facultad de Química y Biología, and Millennium Nucleus of Ion Channels-Associated Diseases (MiNICAD), Universidad de Santiago de Chile, 9160000 Santiago, Chile.
Departamento de Biología, Facultad de Ciencias, Universidad de Chile, 7750000 Ñuñoa, Santiago, Chile.
J Neurosci. 2019 Oct 9;39(41):8177-8192. doi: 10.1523/JNEUROSCI.0654-19.2019. Epub 2019 Aug 30.
The cornea is extensively innervated by trigeminal ganglion cold thermoreceptor neurons expressing TRPM8 (transient receptor potential cation channel subfamily M member 8). These neurons respond to cooling, hyperosmolarity and wetness of the corneal surface. Surgical injury of corneal nerve fibers alters tear production and often causes dry eye sensation. The contribution of TRPM8-expressing corneal cold-sensitive neurons (CCSNs) to these symptoms is unclear. Using extracellular recording of CCSNs nerve terminals combined with confocal tracking of reinnervation, Ca imaging and patch-clamp recordings of fluorescent retrogradely labeled corneal neurons in culture, we analyzed the functional modifications of CCSNs induced by peripheral axonal damage in male mice. After injury, the percentage of CCSNs, the cold- and menthol-evoked intracellular [Ca] rises and the TRPM8 current density in CCSNs were larger than in sham animals, with no differences in the brake K current Active and passive membrane properties of CCSNs from both groups were alike and corresponded mainly to those of canonical low- and high-threshold cold thermoreceptor neurons. Ongoing firing activity and menthol sensitivity were higher in CCSN terminals of injured mice, an observation accounted for by mathematical modeling. These functional changes developed in parallel with a partial reinnervation of the cornea by TRPM8(+) fibers and with an increase in basal tearing in injured animals compared with sham mice. Our results unveil key TRPM8-dependent functional changes in CCSNs in response to injury, suggesting that increased tearing rate and ocular dryness sensation derived from deep surgical ablation of corneal nerves are due to enhanced functional expression of TRPM8 channels in these injured trigeminal primary sensory neurons. We unveil a key role of TRPM8 channels in the sensory and autonomic disturbances associated with surgical damage of eye surface nerves. We studied the damage-induced functional alterations of corneal cold-sensitive neurons using confocal tracking of reinnervation, extracellular corneal nerve terminal recordings, tearing measurements , Ca imaging and patch-clamp recordings of cultured corneal neurons, and mathematical modeling. Corneal nerve ablation upregulates TRPM8 mainly in canonical cold thermoreceptors, enhancing their cold and menthol sensitivity, inducing a rise in the ongoing firing activity of TRPM8(+) nerve endings and an increase in basal tearing. Our results suggest that unpleasant dryness sensations, together with augmented tearing rate after corneal nerve injury, are largely due to upregulation of TRPM8 in cold thermoreceptor neurons.
角膜广泛地由三叉神经节冷敏热敏神经元(表达 TRPM8)支配。这些神经元对冷却、高渗和角膜表面湿润有反应。角膜神经纤维的外科损伤改变了泪液的产生,常常导致干眼感觉。TRPM8 表达的角膜冷敏神经元(CCSNs)对这些症状的贡献尚不清楚。我们使用细胞外记录 CCSN 神经末梢,结合共聚焦追踪神经再支配、Ca 成像和培养中荧光逆行标记角膜神经元的膜片钳记录,分析了雄性小鼠周围轴突损伤引起的 CCSN 功能改变。损伤后,CCSNs 的百分比、冷和薄荷醇诱发的细胞内[Ca]升高以及 CCSN 中的 TRPM8 电流密度均大于假手术动物,而制动 K 电流无差异。两组 CCSN 的主动和被动膜特性相似,主要与经典的低阈值和高阈值冷热敏神经元相对应。损伤小鼠 CCSN 末梢的持续放电活动和薄荷醇敏感性更高,这一观察结果可以通过数学建模来解释。这些功能变化与角膜 TRPM8(+)纤维的部分再支配以及与假手术小鼠相比,损伤动物基础流泪增加同时发生。我们的研究结果揭示了损伤后 CCSN 中关键的 TRPM8 依赖性功能变化,提示源自角膜神经深外科消融的增加的流泪率和眼部干燥感是由于这些损伤的三叉神经初级感觉神经元中 TRPM8 通道的功能表达增强。我们揭示了 TRPM8 通道在与眼表面神经外科损伤相关的感觉和自主神经紊乱中的关键作用。我们使用共聚焦追踪再支配、细胞外角膜神经末梢记录、泪液测量、Ca 成像和培养角膜神经元的膜片钳记录以及数学建模研究了角膜冷敏神经元的损伤诱导功能改变。角膜神经消融主要在上调冷热敏感受器中的 TRPM8,增强其冷和薄荷醇敏感性,诱导 TRPM8(+)神经末梢的持续放电活动增加和基础流泪增加。我们的研究结果表明,角膜神经损伤后不愉快的干燥感以及流泪率的增加主要是由于冷热敏神经元中 TRPM8 的上调。
