降钙素基因相关肽通过蛋白激酶A激活兔动脉平滑肌中的ATP敏感性钾电流。
Calcitonin gene-related peptide activated ATP-sensitive K+ currents in rabbit arterial smooth muscle via protein kinase A.
作者信息
Quayle J M, Bonev A D, Brayden J E, Nelson M T
机构信息
Department of Pharmacology, University of Vermont, Colchester 05446-2500.
出版信息
J Physiol. 1994 Feb 15;475(1):9-13. doi: 10.1113/jphysiol.1994.sp020045.
Abstract
- Whole-cell K+ currents activated by calcitonin gene-related peptide (CGRP) in smooth muscle cells enzymatically isolated from rabbit mesenteric arteries were measured in the conventional and perforated configurations of the patch clamp technique. The signal transduction pathway from CGRP receptors to activation of potassium currents was investigated. 2. CGRP (10 nM) activated a whole-cell current that was blocked by glibenclamide (10 microM), an inhibitor of ATP-sensitive K+ channels. Elevating intracellular ATP reduced glibenclamide-sensitive currents. CGRP increased the glibenclamide-sensitive currents by 3- to 6-fold in cells dialysed with 0.1 mM ATP, 3.0 mM ATP or in intact cells. The reversal potential of the glibenclamide-sensitive current in the presence of CGRP shifted with the potassium equilibrium potential, while its current-voltage relationship exhibited little voltage dependence. 3. Forskolin (10 microM), an adenylyl cyclase activator, Sp-cAMPS (500 microM) and the catalytic subunit of protein kinase A increased glibenclamide-sensitive K+ currents 2.1-, 3.3- and 8.2-fold, respectively. 4. Nitric oxide and nitroprusside did not activate glibenclamide-sensitive K+ currents. 5. Dialysis of the cell's interior with inhibitors of protein kinase A (synthetic peptide inhibitor, 4.6 microM or H-8, 100 microM) completely blocked activation of K+ currents by CGRP. 6. Our results suggest the following signal transduction scheme for activation of K+ currents by CGRP in arterial smooth muscle: (1) CGRP stimulates adenylyl cyclase, which leads to an elevation of cAMP; (2) cAMP activates protein kinase A, which opens ATP-sensitive K+ channels.
摘要
- 采用膜片钳技术的常规模式和穿孔模式,测量了从兔肠系膜动脉酶解分离的平滑肌细胞中,降钙素基因相关肽(CGRP)激活的全细胞钾电流。研究了从CGRP受体到钾电流激活的信号转导途径。2. CGRP(10 nM)激活了一种全细胞电流,该电流被格列本脲(10 μM)阻断,格列本脲是一种ATP敏感性钾通道抑制剂。提高细胞内ATP可降低格列本脲敏感性电流。在经0.1 mM ATP、3.0 mM ATP透析的细胞或完整细胞中,CGRP使格列本脲敏感性电流增加3至6倍。在CGRP存在的情况下,格列本脲敏感性电流的反转电位随钾平衡电位而变化,而其电流-电压关系几乎不表现出电压依赖性。3. 腺苷酸环化酶激活剂福斯可林(10 μM)、Sp-cAMPS(500 μM)和蛋白激酶A的催化亚基分别使格列本脲敏感性钾电流增加2.1倍、3.3倍和8.2倍。4. 一氧化氮和硝普钠未激活格列本脲敏感性钾电流。5. 用蛋白激酶A抑制剂(合成肽抑制剂,4.6 μM或H-8,100 μM)透析细胞内部,可完全阻断CGRP对钾电流的激活。6. 我们的结果提示了CGRP在动脉平滑肌中激活钾电流的如下信号转导机制:(1)CGRP刺激腺苷酸环化酶,导致cAMP升高;(2)cAMP激活蛋白激酶A,后者打开ATP敏感性钾通道。
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