Talavera Karel, Yasumatsu Keiko, Voets Thomas, Droogmans Guy, Shigemura Noriatsu, Ninomiya Yuzo, Margolskee Robert F, Nilius Bernd
Laboratorium voor Fysiologie, Campus Gasthuisberg, KU Leuven, B-3000 Leuven, Belgium.
Nature. 2005 Dec 15;438(7070):1022-5. doi: 10.1038/nature04248.
TRPM5, a cation channel of the TRP superfamily, is highly expressed in taste buds of the tongue, where it has a key role in the perception of sweet, umami and bitter tastes. Activation of TRPM5 occurs downstream of the activation of G-protein-coupled taste receptors and is proposed to generate a depolarizing potential in the taste receptor cells. Factors that modulate TRPM5 activity are therefore expected to influence taste. Here we show that TRPM5 is a highly temperature-sensitive, heat-activated channel: inward TRPM5 currents increase steeply at temperatures between 15 and 35 degrees C. TRPM4, a close homologue of TRPM5, shows similar temperature sensitivity. Heat activation is due to a temperature-dependent shift of the activation curve, in analogy to other thermosensitive TRP channels. Moreover, we show that increasing temperature between 15 and 35 degrees C markedly enhances the gustatory nerve response to sweet compounds in wild-type but not in Trpm5 knockout mice. The strong temperature sensitivity of TRPM5 may underlie known effects of temperature on perceived taste in humans, including enhanced sweetness perception at high temperatures and 'thermal taste', the phenomenon whereby heating or cooling of the tongue evoke sensations of taste in the absence of tastants.
瞬时受体电位阳离子通道亚家族M成员5(TRPM5)是瞬时受体电位(TRP)超家族的一种阳离子通道,在舌部味蕾中高度表达,在甜味、鲜味和苦味感知中起关键作用。TRPM5的激活发生在G蛋白偶联味觉受体激活的下游,被认为可在味觉受体细胞中产生去极化电位。因此,调节TRPM5活性的因素预计会影响味觉。我们在此表明,TRPM5是一种对温度高度敏感的热激活通道:在15至35摄氏度之间,内向TRPM5电流急剧增加。TRPM5的紧密同源物TRPM4也表现出类似的温度敏感性。与其他热敏TRP通道类似,热激活是由于激活曲线的温度依赖性偏移所致。此外,我们表明,在15至35摄氏度之间升高温度,可显著增强野生型小鼠而非Trpm5基因敲除小鼠对甜味化合物的味觉神经反应。TRPM5的强烈温度敏感性可能是温度对人类味觉感知产生已知影响的基础,包括高温下甜味感知增强以及“热味觉”,即舌部加热或冷却在没有味觉刺激物的情况下引发味觉感受的现象。
