TRPM8 Mutations Associated With Persistent Pain After Surgical Injury of Corneal Trigeminal Axons.

IF 3 3区医学 Q2 CLINICAL NEUROLOGY Neurology-Genetics Pub Date : 2024-11-14 eCollection Date: 2024-12-01 DOI:10.1212/NXG.0000000000200206

Mohammad-Reza Ghovanloo, Philip R Effraim, Sidharth Tyagi, Alecia M Aldrich, Xiaoyang Cheng, Jun-Hui Yuan, Betsy R Schulman, Deborah S Jacobs, Sulayman D Dib-Hajj, Stephen G Waxman

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Abstract

Background and objectives: Despite extensive efforts, the mechanisms underlying pain after axonal injury remain incompletely understood. Pain following corneal refractive surgery offers a valuable human model for investigating trigeminal axonal injury because laser-assisted in situ keratomileusis (LASIK) severs axons of trigeminal ganglion neurons innervating the cornea. While the majority of patients are pain-free shortly after surgery, a minority endure persistent postoperative ocular pain. Through genomic analysis of patients experiencing persistent postoperative ocular pain, we identified rare variants in genes encoding ion channels and receptors, including TRPM8, which codes for the menthol-sensitive and cold-sensing transient receptor potential cation channel.

Methods: We conducted a profiling of 2 TRPM8 mutant variants, D665N and V915M, which were identified in patients suffering from persistent pain after LASIK surgery. We used patch-clamp and multielectrode array (MEA) recordings to investigate the biophysical and pharmacologic properties of mutant vs wild-type (WT) channels.

Results: Patch-clamp analysis shows that these mutations shift the activation curves of TRPM8 in a hyperpolarized direction, with this effect being significantly different between WT and D665N channels. In addition, both mutations significantly increase channel sensitivity to the canonical ligand, menthol. MEA recordings from transfected rat trigeminal ganglion neurons indicate that expression of D665N and V915M mutant channels increases spontaneous activity compared with WT channels. Consistent with patch-clamp results, neuronal activity in MEA recordings was increased on exposure to menthol.

Discussion: Collectively, our findings suggest that proexcitatory mutations of TRPM8, in the context of axonal injury within the cornea, can produce trigeminal ganglion neuron hyperexcitability that contributes to persistent postoperative ocular pain. In addition to providing additional evidence for a role of TRPM8 in human pain, our results suggest that inhibitors of this channel merit future study.

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与角膜三叉神经轴突手术损伤后持续疼痛有关的 TRPM8 基因突变

背景和目的：尽管做了大量工作，但人们对轴突损伤后疼痛的机制仍不甚了解。角膜屈光手术后的疼痛为研究三叉神经轴突损伤提供了一个宝贵的人体模型，因为激光辅助原位角膜磨镶术（LASIK）切断了支配角膜的三叉神经节神经元的轴突。虽然大多数患者在术后不久就不会感到疼痛，但也有少数患者在术后会出现持续性眼痛。通过对持续性术后眼痛患者的基因组分析，我们发现了编码离子通道和受体基因的罕见变异，包括编码薄荷醇敏感性和冷感瞬时受体电位阳离子通道的 TRPM8：我们对 2 个 TRPM8 突变变体（D665N 和 V915M）进行了分析。我们使用膜片钳和多电极阵列（MEA）记录来研究突变体与野生型（WT）通道的生物物理和药理特性：结果：膜片钳分析表明，这些突变使TRPM8的激活曲线向超极化方向移动，WT通道和D665N通道的这种效应显著不同。此外，这两种突变都明显增加了通道对典型配体薄荷醇的敏感性。转染大鼠三叉神经节神经元的 MEA 记录表明，与 WT 通道相比，D665N 和 V915M 突变通道的表达会增加自发活动。与膜片钳结果一致的是，暴露于薄荷醇时，MEA 记录的神经元活动增加：总之，我们的研究结果表明，在角膜轴突损伤的情况下，TRPM8 的促兴奋突变可产生三叉神经节神经元过度兴奋，从而导致术后持续性眼痛。除了为TRPM8在人类疼痛中的作用提供更多证据外，我们的研究结果还表明，该通道的抑制剂值得在未来进行研究。

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

Neurology-Genetics Medicine-Neurology (clinical)

CiteScore

6.30

自引率

3.20%

发文量

107

审稿时长

15 weeks

期刊介绍： Neurology: Genetics is an online open access journal publishing peer-reviewed reports in the field of neurogenetics. Original articles in all areas of neurogenetics will be published including rare and common genetic variation, genotype-phenotype correlations, outlier phenotypes as a result of mutations in known disease-genes, and genetic variations with a putative link to diseases. This will include studies reporting on genetic disease risk and pharmacogenomics. In addition, Neurology: Genetics will publish results of gene-based clinical trials (viral, ASO, etc.). Genetically engineered model systems are not a primary focus of Neurology: Genetics, but studies using model systems for treatment trials are welcome, including well-powered studies reporting negative results.