Department of Oral Physiology, Kagoshima University Graduate School of Medical and Dental Sciences, Sakuragaoka, Kagoshima-shi, Kagoshima Japan.
Chem Senses. 2012 Mar;37(3):241-51. doi: 10.1093/chemse/bjr098. Epub 2011 Oct 19.
To clarify the regional differences in the expression and functional significance of Gα-gustducin in soft palate (SP) and fungiform (FF) taste buds, we examined the coexpression of Gα-gustducin with taste receptors and the impact of Gα-gustducin knockout (gKO) on neural responses to several sweet and bitter compounds. Sweet responses from both the greater superficial petrosal (GSP) and chorda tympani (CT) nerves in gKO mice were markedly depleted, reflecting overlapping expression of Gα-gustducin and Tas1r2. However, although Gα-gustducin was expressed in 87% and 88% of Tas2rs cells in the SP and FF, respectively, there were no statistically significant differences in the CT responses to quinine-HCl (QHCl) and denatonium (Den) between gKO and wild-type (WT) mice. In contrast, GSP responses to these compounds were markedly reduced in gKO mice with an apparent elevation of thresholds (>10-fold). These results suggest that 1) Gα-gustducin plays a critical role in sweet transduction in both the SP and the FF, 2) other Gα subunits coexpressed with Gα-gustducin in the FF are sufficient for responses to QHCl and Den, and 3) robust GSP responses to QHCl and Den occur in the SP by a Gα-gustducin-dependent mechanism, which is absent in the FF.
为了阐明软腭 (SP) 和菌状 (FF) 味蕾中 Gα- gustducin 的表达和功能意义的区域差异,我们研究了 Gα- gustducin 与味觉受体的共表达,以及 Gα- gustducin 敲除 (gKO) 对几种甜味和苦味化合物的神经反应的影响。gKO 小鼠的较大鼓索神经 (GSP) 和鼓索神经 (CT) 中的甜味反应明显减少,反映了 Gα- gustducin 和 Tas1r2 的重叠表达。然而,尽管 Gα- gustducin 在 SP 和 FF 中的 Tas2rs 细胞中分别表达了 87%和 88%,但 gKO 和野生型 (WT) 小鼠之间 CT 对奎宁-HCl (QHCl) 和苯甲地那铵 (Den) 的反应没有统计学上的显著差异。相比之下,这些化合物对 gKO 小鼠的 GSP 反应明显降低,而阈值明显升高 (>10 倍)。这些结果表明:1) Gα- gustducin 在 SP 和 FF 中的甜味转导中起着关键作用,2) FF 中与 Gα- gustducin 共表达的其他 Gα 亚基足以对 QHCl 和 Den 产生反应,3) 通过 Gα- gustducin 依赖的机制,在 SP 中会产生对 QHCl 和 Den 的强烈 GSP 反应,而在 FF 中则不存在。
