KATP通道开放剂在血管平滑肌细胞系A10中的结合与作用

Binding and effects of KATP channel openers in the vascular smooth muscle cell line, A10.

作者信息

Russ U, Metzger F, Kickenweiz E, Hambrock A, Krippeit-Drews P, Quast U

机构信息

Department of Pharmacology, Medical Faculty, University of Tübingen, Germany.

出版信息

Br J Pharmacol. 1997 Nov;122(6):1119-26. doi: 10.1038/sj.bjp.0701514.

DOI:10.1038/sj.bjp.0701514

PMID:9401776

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1565060/

Abstract

The ATP-sensitive K+ channel (KATP channel) in A10 cells, a cell line derived from rat thoracic aorta, was characterized by binding studies with the tritiated KATP channel opener, [3H]-P1075, and by electrophysiological techniques. 2. Saturation binding experiments gave a KD value of 9.2 +/- 5.2 nM and a binding capacity (BMax) of 140 +/- 40 fmol mg-1 protein for [3H]-P1075 binding to A10 cells; from the BMax value a density of binding sites of 5-10 per microns2 plasmalemma was estimated. 3. KATP channel modulators such as the openers P1075, pinacidil, levcromakalim and minoxidil sulphate and the blocker glibenclamide inhibited [3H]-P1075 binding. The extent of inhibition at saturation depended on the compound, levcromakalim inhibiting specific [3H]-P1075 binding by 85%, minoxidil sulphate and glibenclamide by 70%. The inhibition constants were similar to those determined in strips of rat aorta. 4. Resting membrane potential, recorded with microelectrodes, was -51 +/- 1 mV. P1075 and levcromakalim produced a concentration-dependent hyperpolarization by up to -25 mV with EC50 values of 170 +/- 40 nM and 870 +/- 190 nM, respectively. The hyperpolarization induced by levcromakalim (3 microM) was completely reversed by glibenclamide with an IC50 value of 86 +/- 17 nM. 5. Voltage clamp experiments were performed in the whole cell configuration under a physiological K+ gradient. Levcromakalim (10 microM) induced a current which reversed around -80 mV; the current-voltage relationship showed considerable outward rectification. Glibenclamide (3 microM) abolished the effect of levcromakalim. 6. Analysis of the noise of the levcromakalim (10 microM)-induced current at -40 and -20 mV yielded estimates of the channel density, the single channel conductance and the probability of the channel to be open of 0.14 micron-2, 8.8 pS and 0.39, respectively. 7. The experiments showed that A10 cells are endowed with functional KATP channels which resemble those in vascular tissue; hence, these cells provide an easily accessible source of channels for biochemical and pharmacological studies. The density of binding sites for [3H]-P1075 was estimated to be one order of magnitude higher than the density of functional KATP channels; assuming a plasmalemmal localization of the binding sites this suggests a large receptor reserve for the openers in A10 cells.

摘要

采用氚标记的ATP敏感性钾通道（KATP通道）开放剂[3H]-P1075进行结合研究，并运用电生理技术，对源自大鼠胸主动脉的A10细胞系中的KATP通道进行了特性分析。2. 饱和结合实验得出，[3H]-P1075与A10细胞结合的解离常数（KD）值为9.2±5.2 nM，结合容量（BMax）为140±40 fmol mg-1蛋白质；根据BMax值估算出每平方微米质膜上结合位点的密度为5 - 10个。3. KATP通道调节剂，如开放剂P1075、匹那地尔、左卡尼汀和硫酸米诺地尔，以及阻滞剂格列本脲，均抑制[3H]-P1075的结合。饱和状态下的抑制程度取决于化合物，左卡尼汀抑制特异性[3H]-P1075结合达85%，硫酸米诺地尔和格列本脲抑制70%。抑制常数与在大鼠主动脉条上测定的结果相似。4. 用微电极记录的静息膜电位为-51±1 mV。P1075和左卡尼汀产生浓度依赖性超极化，最大可达-25 mV，半数有效浓度（EC50）值分别为170±40 nM和870±190 nM。左卡尼汀（3 μM）诱导的超极化被格列本脲完全逆转，半数抑制浓度（IC50）值为86±17 nM。5. 在生理钾离子梯度下，以全细胞模式进行电压钳实验。左卡尼汀（10 μM）诱导的电流在-80 mV左右反转；电流-电压关系显示出明显的外向整流。格列本脲（3 μM）消除了左卡尼汀的作用。6. 对左卡尼汀（10 μM）在-40 mV和-20 mV诱导的电流噪声进行分析，得出通道密度、单通道电导和通道开放概率的估计值分别为0.14 微米-2、8.8 pS和0.39。7. 实验表明，A10细胞具有与血管组织中相似的功能性KATP通道；因此，这些细胞为生化和药理学研究提供了易于获取的通道来源。[3H]-P1075结合位点的密度估计比功能性KATP通道的密度高一个数量级；假设结合位点位于质膜上，这表明A10细胞中开放剂有大量的受体储备。