氟芬那酸作为一种离子通道调节剂。

Flufenamic acid as an ion channel modulator.

机构信息

Normandie Univ, France.

出版信息

Pharmacol Ther. 2013 May;138(2):272-84. doi: 10.1016/j.pharmthera.2013.01.012. Epub 2013 Jan 25.

DOI:10.1016/j.pharmthera.2013.01.012

PMID:23356979

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4116821/

Abstract

Flufenamic acid has been known since the 1960s to have anti-inflammatory properties attributable to the reduction of prostaglandin synthesis. Thirty years later, flufenamic acid appeared to be an ion channel modulator. Thus, while its use in medicine diminished, its use in ionic channel research expanded. Flufenamic acid commonly not only affects non-selective cation channels and chloride channels, but also modulates potassium, calcium and sodium channels with effective concentrations ranging from 10(-6)M in TRPM4 channel inhibition to 10(-3)M in two-pore outwardly rectifying potassium channel activation. Because flufenamic acid effects develop and reverse rapidly, it is a convenient and widely used tool. However, given the broad spectrum of its targets, experimental results have to be interpreted cautiously. Here we provide an overview of ion channels targeted by flufenamic acid to aid in interpreting its effects at the molecular, cellular, and system levels. If it is used with good practices, flufenamic acid remains a useful tool for ion channel research. Understanding the targets of FFA may help reevaluate its physiological impacts and revive interest in its therapeutic potential.

摘要

早在 20 世纪 60 年代，人们就已经知道氟灭酸具有抗炎特性，这归因于其对前列腺素合成的抑制作用。30 年后，氟灭酸似乎成为一种离子通道调节剂。因此，虽然它在医学上的应用减少了，但在离子通道研究中的应用却扩大了。氟灭酸通常不仅影响非选择性阳离子通道和氯离子通道，而且还能调节钾、钙和钠通道，其有效浓度范围从抑制 TRPM4 通道的 10(-6)M 到激活双孔向外整流钾通道的 10(-3)M。由于氟灭酸的作用发展迅速并能逆转，因此它是一种方便且广泛使用的工具。然而，鉴于其靶标的广谱性，必须谨慎解释实验结果。在这里，我们概述了氟灭酸靶向的离子通道，以帮助在分子、细胞和系统水平上解释其作用。如果使用得当，氟灭酸仍然是离子通道研究的有用工具。了解 FFA 的靶标可能有助于重新评估其生理影响，并重新激发对其治疗潜力的兴趣。

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