Rocky Mountain Taste & Smell Center, Department of Cell and Developmental Biology, University of Colorado School of Medicine, Aurora, CO, USA.
Chem Senses. 2020 Oct 9;45(7):573-579. doi: 10.1093/chemse/bjaa043.
Exposure of the oral cavity to acidic solutions evokes not only a sensation of sour, but also of sharp or tangy. Acidic substances potentially stimulate both taste buds and acid-sensitive mucosal free nerve endings. Mice lacking taste function (P2X2/P2X3 double-KO mice) refuse acidic solutions similar to wildtype (WT) mice and intraoral infusion of acidic solutions in these KO animals evokes substantial c-Fos activity within orosensory trigeminal nuclei as well as of the nucleus of the solitary tract (nTS) (Stratford, Thompson, et al. 2017). This residual acid-evoked, non-taste activity includes areas that receive inputs from trigeminal and glossopharyngeal peptidergic (CGRP-containing) nerve fibers that express TrpA1 and TrpV1 both of which are activated by low pH. We compared avoidance responses in WT and TrpA1/V1 double-KO (TRPA1/V1Dbl-/-) mice in brief-access behavioral assay (lickometer) to 1, 3, 10, and 30 mM citric acid, along with 100 µM SC45647 and H2O. Both WT and TRPA1/V1Dbl-/- show similar avoidance, including to higher concentrations of citric acid (10 and 30 mM; pH 2.62 and pH 2.36, respectively), indicating that neither TrpA1 nor TrpV1 is necessary for the acid-avoidance behavior in animals with an intact taste system. Similarly, induction of c-Fos in the nTS and dorsomedial spinal trigeminal nucleus was similar in the WT and TRPA1/V1Dbl-/- animals. Taken together these results suggest non-TrpV1 and non-TrpA1 receptors underlie the residual responses to acids in mice lacking taste function.
口腔暴露于酸性溶液不仅会引起酸味,还会引起辣味或刺激性。酸性物质可能会刺激味觉感受器和酸敏感的黏膜游离神经末梢。缺乏味觉功能的小鼠(P2X2/P2X3 双 KO 小鼠)拒绝与野生型(WT)小鼠相似的酸性溶液,并且在这些 KO 动物的口腔内输注酸性溶液会引起口腔感觉三叉神经核和孤束核(nTS)内大量 c-Fos 活性(Stratford、Thompson 等人,2017 年)。这种残留的酸诱发的非味觉活性包括接收来自三叉神经和舌咽神经肽(含 CGRP)神经纤维输入的区域,这些神经纤维表达 TrpA1 和 TrpV1,两者均被低 pH 值激活。我们在 WT 和 TrpA1/V1 双 KO(TRPA1/V1Dbl-/-)小鼠的短暂访问行为测定(舔测器)中比较了对 1、3、10 和 30 mM 柠檬酸以及 100 µM SC45647 和 H2O 的回避反应。WT 和 TRPA1/V1Dbl-/- 均表现出相似的回避反应,包括对柠檬酸的较高浓度(10 和 30 mM;pH 值分别为 2.62 和 2.36),表明在味觉系统完整的动物中,TrpA1 或 TrpV1 都不是回避酸的行为所必需的。同样,WT 和 TRPA1/V1Dbl-/- 动物的 nTS 和背内侧脊髓三叉神经核中的 c-Fos 诱导相似。这些结果表明,在缺乏味觉功能的小鼠中,残留的酸反应由非 TrpV1 和非 TrpA1 受体介导。