Instituto de Neurociencias, Universidad Miguel Hernández-CSIC, San Juan de Alicante, Spain.
Br J Pharmacol. 2024 Sep;181(17):3192-3214. doi: 10.1111/bph.16402. Epub 2024 May 13.
The mechanistic target of rapamycin (mTOR) signalling pathway is a key regulator of cell growth and metabolism. Its deregulation is implicated in several diseases. The macrolide rapamycin, a specific inhibitor of mTOR, has immunosuppressive, anti-inflammatory and antiproliferative properties. Recently, we identified tacrolimus, another macrolide immunosuppressant, as a novel activator of TRPM8 ion channels, involved in cold temperature sensing, thermoregulation, tearing and cold pain. We hypothesized that rapamycin may also have agonist activity on TRPM8 channels.
Using calcium imaging and electrophysiology in transfected HEK293 cells and wildtype or Trpm8 KO mouse DRG neurons, we characterized rapamycin's effects on TRPM8 channels. We also examined the effects of rapamycin on tearing in mice.
Micromolar concentrations of rapamycin activated rat and mouse TRPM8 channels directly and potentiated cold-evoked responses, effects also observed in human TRPM8 channels. In cultured mouse DRG neurons, rapamycin increased intracellular calcium levels almost exclusively in cold-sensitive neurons. Responses were markedly decreased in Trpm8 KO mice or by TRPM8 channel antagonists. Cutaneous cold thermoreceptor endings were also activated by rapamycin. Topical application of rapamycin to the eye surface evokes tearing in mice by a TRPM8-dependent mechanism.
These results identify TRPM8 cationic channels in sensory neurons as novel molecular targets of the immunosuppressant rapamycin. These findings may help explain some of its therapeutic effects after topical application to the skin and the eye surface. Moreover, rapamycin could be used as an experimental tool in the clinic to explore cold thermoreceptors.
雷帕霉素(mTOR)信号通路是细胞生长和代谢的关键调节因子。其失调与多种疾病有关。雷帕霉素是 mTOR 的一种特异性抑制剂,具有免疫抑制、抗炎和抗增殖作用。最近,我们发现另一种大环内酯类免疫抑制剂他克莫司是 TRPM8 离子通道的新型激活剂,参与冷温度感应、体温调节、流泪和冷痛。我们假设雷帕霉素也可能对 TRPM8 通道具有激动剂活性。
在转染的 HEK293 细胞和野生型或 Trpm8 KO 小鼠 DRG 神经元中,我们使用钙成像和电生理学方法,对雷帕霉素对 TRPM8 通道的作用进行了表征。我们还研究了雷帕霉素对小鼠流泪的影响。
雷帕霉素以微摩尔浓度直接激活大鼠和小鼠 TRPM8 通道,并增强冷诱发反应,在人 TRPM8 通道中也观察到了这种作用。在培养的小鼠 DRG 神经元中,雷帕霉素几乎仅在冷敏感神经元中增加细胞内钙离子水平。反应在 Trpm8 KO 小鼠中或通过 TRPM8 通道拮抗剂显著降低。冷热敏感受器末端也被雷帕霉素激活。雷帕霉素经眼部表面给药可通过 TRPM8 依赖性机制引起小鼠流泪。
这些结果确定了感觉神经元中的 TRPM8 阳离子通道是免疫抑制剂雷帕霉素的新型分子靶标。这些发现可能有助于解释其在皮肤和眼表面局部应用后的一些治疗效果。此外,雷帕霉素可用作临床探索冷热敏感受器的实验工具。
