拮抗剂三硝基苯 - ATP揭示了大鼠结状神经元中不同P2X受体通道的共存。
The antagonist trinitrophenyl-ATP reveals co-existence of distinct P2X receptor channels in rat nodose neurones.
作者信息
Thomas S, Virginio C, North R A, Surprenant A
机构信息
Geneva Biomedical Research Institute, GlaxoWellcome Research and Development, 14 chemin des Aulx, Plan-les-0uates, Geneva 1228, Switzerland.
出版信息
J Physiol. 1998 Jun 1;509 ( Pt 2)(Pt 2):411-7. doi: 10.1111/j.1469-7793.1998.411bn.x.
Abstract
- Whole-cell recordings were made from rat nodose ganglion neurones in culture and from human embryonic kidney (HEK293) cells stably transfected to express P2X2, P2X3 or both receptor subunits. We examined the blocking actions of 2',3'-O-trinitrophenyl-ATP (TNP-ATP) on currents evoked by the agonists ATP and alpha, beta-methylene ATP. 2. In cells expressing only P2X2 or P2X3 receptor subunits, the inhibition by TNP-ATP was fitted by a single binding site model with half-maximal concentrations of about 3 microM and 3 nM, respectively. In cells expressing both P2X2 and P2X3 receptor subunits, currents showed little or no desensitization, thus excluding contributions from homomeric P2X3 receptors. When alpha,beta-methylene ATP was the agonist (activating heteromeric P2X2/3 receptors), the inhibition by TNP-ATP conformed to a single binding site (half-maximal concentration about 3 nM). When ATP (30 microM) was the agonist, activating both heteromeric P2X2/3 as well as homomeric P2X2 receptors, the inhibition curve was biphasic (half-maximal concentrations about 3 nM and 3 microM); the proportion of high affinity sites in all six cells tested was about 40 %. 3. In nodose ganglion neurones, the inhibition by TNP-ATP of currents evoked by ATP (30 microM) was also clearly biphasic. In this case, individual neurones showed more variability in the proportion of high and low affinity sites for TNP-ATP. 4. We conclude that more than one form of multimeric P2X receptor channels are functionally expressed on the cell bodies of individual nodose ganglion neurones. On the basis of sensitivity to TNP-ATP, and other properties, one of these may correspond to the homomeric P2X2 receptor and the other(s) to heteromeric P2X2/3 receptors.
摘要
- 全细胞记录取自培养的大鼠结状神经节神经元以及稳定转染以表达P2X2、P2X3或两种受体亚基的人胚肾(HEK293)细胞。我们研究了2',3'-O-三硝基苯-ATP(TNP-ATP)对激动剂ATP和α,β-亚甲基ATP诱发电流的阻断作用。2. 在仅表达P2X2或P2X3受体亚基的细胞中,TNP-ATP的抑制作用分别用单结合位点模型拟合,半数最大浓度约为3 μM和3 nM。在同时表达P2X2和P2X3受体亚基的细胞中,电流几乎没有脱敏现象,因此排除了同源P2X3受体的作用。当α,β-亚甲基ATP作为激动剂(激活异源P2X2/3受体)时,TNP-ATP的抑制作用符合单结合位点(半数最大浓度约为3 nM)。当ATP(30 μM)作为激动剂,激活异源P2X2/3以及同源P2X2受体时,抑制曲线呈双相(半数最大浓度约为3 nM和3 μM);在所有六个测试细胞中,高亲和力位点的比例约为40%。3. 在结状神经节神经元中,TNP-ATP对30 μM ATP诱发电流的抑制作用也明显呈双相。在这种情况下,单个神经元对TNP-ATP高亲和力和低亲和力位点的比例表现出更大的变异性。4. 我们得出结论,在单个结状神经节神经元的细胞体上功能性表达了不止一种形式的多聚体P2X受体通道。基于对TNP-ATP的敏感性及其他特性,其中一种可能对应于同源P2X2受体,另一种(或几种)对应于异源P2X2/3受体。
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