抑制瞬时受体电位香草酸亚型8（TRPM8）通道可减轻人体冷加压试验中的疼痛。

Inhibition of TRPM8 channels reduces pain in the cold pressor test in humans.

作者信息

Winchester Wendy J, Gore Katrina, Glatt Sophie, Petit Wendy, Gardiner Jennifer C, Conlon Kelly, Postlethwaite Michael, Saintot Pierre-Philippe, Roberts Sonia, Gosset James R, Matsuura Tomomi, Andrews Mark D, Glossop Paul A, Palmer Michael J, Clear Nicola, Collins Susie, Beaumont Kevin, Reynolds David S

机构信息

Pfizer Limited, Neusentis Research Unit, Granta Park, Cambridge, United Kingdom (W.J.W., K.G., S.G., D.S.R.); Genito-Urinary Research Unit (W.J.W., J.C.G., K.C., M.P., P.-P.S., D.S.R.), Research Statistics (K.G., S.C.), Drug Safety, Research and Development (S.R.), Pharmacokinetics, Dynamics and Metabolism (J.R.G., T.M., K.B.), and Worldwide Medicinal Chemistry (M.D.A., P.A.G., M.J.P.), Pfizer Global Research and Development, Sandwich, Kent, United Kingdom; Pfizer Clinical Research Unit, Lenniksebaan, Brussels, Belgium (W.P.); and PharmaTherapeutics Pharmaceutical Sciences, Pfizer Limited, Sandwich, United Kingdom (N.C.)

出版信息

J Pharmacol Exp Ther. 2014 Nov;351(2):259-69. doi: 10.1124/jpet.114.216010. Epub 2014 Aug 14.

DOI:10.1124/jpet.114.216010

PMID:25125580

Abstract

The transient receptor potential (subfamily M, member 8; TRPM8) is a nonselective cation channel localized in primary sensory neurons, and is a candidate for cold thermosensing, mediation of cold pain, and bladder overactivity. Studies with TRPM8 knockout mice and selective TRPM8 channel blockers demonstrate a lack of cold sensitivity and reduced cold pain in various rodent models. Furthermore, TRPM8 blockers significantly lower body temperature. We have identified a moderately potent (IC50 = 103 nM), selective TRPM8 antagonist, PF-05105679 [(R)-3-[(1-(4-fluorophenyl)ethyl)(quinolin-3-ylcarbonyl)amino]methylbenzoic acid]. It demonstrated activity in vivo in the guinea pig bladder ice water and menthol challenge tests with an IC50 of 200 nM and reduced core body temperature in the rat (at concentrations >1219 nM). PF-05105679 was suitable for acute administration to humans and was evaluated for effects on core body temperature and experimentally induced cold pain, using the cold pressor test. Unbound plasma concentrations greater than the IC50 were achieved with 600- and 900-mg doses. The compound displayed a significant inhibition of pain in the cold pressor test, with efficacy equivalent to oxycodone (20 mg) at 1.5 hours postdose. No effect on core body temperature was observed. An unexpected adverse event (hot feeling) was reported, predominantly periorally, in 23 and 36% of volunteers (600- and 900-mg dose, respectively), which in two volunteers was nontolerable. In conclusion, this study supports a role for TRPM8 in acute cold pain signaling at doses that do not cause hypothermia.

摘要

瞬时受体电位（M亚家族，第8成员；TRPM8）是一种非选择性阳离子通道，定位于初级感觉神经元，是冷觉温度传感、冷痛介导和膀胱过度活动的候选分子。对TRPM8基因敲除小鼠和选择性TRPM8通道阻滞剂的研究表明，在各种啮齿动物模型中缺乏冷敏感性且冷痛减轻。此外，TRPM8阻滞剂可显著降低体温。我们已鉴定出一种中等效力（IC50 = 103 nM）的选择性TRPM8拮抗剂PF-05105679 [（R）-3-[(1-(4-氟苯基)乙基)(喹啉-3-基羰基)氨基]甲基苯甲酸]。它在豚鼠膀胱冰水和薄荷醇激发试验中显示出体内活性，IC50为200 nM，并在大鼠中降低核心体温（浓度>1219 nM）。PF-05105679适合急性给予人类，并使用冷加压试验评估其对核心体温和实验性诱导冷痛的影响。600毫克和900毫克剂量可达到高于IC50的未结合血浆浓度。该化合物在冷加压试验中显示出对疼痛的显著抑制作用，给药后1.5小时的疗效与羟考酮（二十毫克）相当。未观察到对核心体温的影响。据报道，分别有23%和36%的志愿者（600毫克和900毫克剂量）出现意外不良事件（热感），主要出现在口周，其中两名志愿者无法耐受。总之，本研究支持TRPM8在不引起体温过低的剂量下参与急性冷痛信号传导。