非甾体抗炎药作为 TRP 通道阻滞剂：甲芬那酸选择性地阻断 TRPM3。

Fenamates as TRP channel blockers: mefenamic acid selectively blocks TRPM3.

机构信息

Department of Pharmacology and Experimental Therapy, Institute of Experimental and Clinical Pharmacology and Toxicology, Interfaculty Center of Pharmacogenomics and Pharmaceutical Research (ICePhA), Eberhard-Karls-University, Tübingen, Germany.

出版信息

Br J Pharmacol. 2011 Apr;162(8):1757-69. doi: 10.1111/j.1476-5381.2010.01186.x.

DOI:10.1111/j.1476-5381.2010.01186.x

PMID:21198543

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3081119/

Abstract

BACKGROUND AND PURPOSE

Fenamates are N-phenyl-substituted anthranilic acid derivatives clinically used as non-steroid anti-inflammatory drugs in pain treatment. Reports describing fenamates as tools to interfere with cellular volume regulation attracted our attention based on our interest in the role of the volume-modulated transient receptor potential (TRP) channels TRPM3 and TRPV4.

EXPERIMENTAL APPROACH

Firstly, we measured the blocking potencies and selectivities of fenamates on TRPM3 and TRPV4 as well as TRPC6 and TRPM2 by Ca(2+) imaging in the heterologous HEK293 cell system. Secondly, we further investigated the effects of mefenamic acid on cytosolic Ca(2+) and on the membrane voltage in single HEK293 cells that exogenously express TRPM3. Thirdly, in insulin-secreting INS-1E cells, which endogenously express TRPM3, we validated the effect of mefenamic acid on cytosolic Ca(2+) and insulin secretion.

KEY RESULTS

We identified and characterized mefenamic acid as a selective and potent TRPM3 blocker, whereas other fenamate structures non-selectively blocked TRPM3, TRPV4, TRPC6 and TRPM2.

CONCLUSIONS AND IMPLICATIONS

This study reveals that mefenamic acid selectively inhibits TRPM3-mediated calcium entry. This selectivity was further confirmed using insulin-secreting cells. K(ATP) channel-dependent increases in cytosolic Ca(2+) and insulin secretion were not blocked by mefenamic acid, but the selective stimulation of TRPM3-dependent Ca(2+) entry and insulin secretion induced by pregnenolone sulphate were inhibited. However, the physiological regulator of TRPM3 in insulin-secreting cells remains to be elucidated, as well as the conditions under which the inhibition of TRPM3 can impair pancreatic β-cell function. Our results strongly suggest mefenamic acid is the most selective fenamate to interfere with TRPM3 function.

摘要

背景与目的

芳基乙酸衍生物是 N- 苯基取代的邻氨基苯甲酸衍生物，临床上用作治疗疼痛的非甾体抗炎药。基于我们对体积调节性瞬时受体电位 (TRP) 通道 TRPM3 和 TRPV4 作用的兴趣，有研究报道称芳基乙酸衍生物可作为干扰细胞体积调节的工具，这引起了我们的关注。

实验方法

首先，我们通过在异源 HEK293 细胞系统中的 Ca(2+) 成像来测量芳基乙酸衍生物对 TRPM3 和 TRPV4 以及 TRPC6 和 TRPM2 的阻断效力和选择性。其次，我们进一步研究了甲芬那酸对表达 TRPM3 的单个 HEK293 细胞胞质 Ca(2+) 和膜电压的影响。第三，在胰岛素分泌细胞 INS-1E 中，验证了甲芬那酸对胞质 Ca(2+) 和胰岛素分泌的作用。

主要结果

我们鉴定并表征了甲芬那酸是一种选择性和有效的 TRPM3 阻断剂，而其他芳基乙酸结构则非选择性地阻断了 TRPM3、TRPV4、TRPC6 和 TRPM2。

结论和意义

本研究揭示了甲芬那酸选择性抑制 TRPM3 介导的钙内流。这一选择性通过使用胰岛素分泌细胞进一步得到了证实。K(ATP) 通道依赖性胞质 Ca(2+) 增加和胰岛素分泌不受甲芬那酸阻断，但孕烯醇酮硫酸盐选择性刺激 TRPM3 依赖性 Ca(2+) 内流和胰岛素分泌则受到抑制。然而，胰岛素分泌细胞中 TRPM3 的生理调节剂以及抑制 TRPM3 会损害胰岛 β 细胞功能的条件仍有待阐明。我们的研究结果强烈表明，甲芬那酸是干扰 TRPM3 功能最具选择性的芳基乙酸衍生物。

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