自发活动调节发育中被囊动物肌肉中钙依赖性钾电流的表达。
Spontaneous activity regulates calcium-dependent K+ current expression in developing ascidian muscle.
作者信息
Dallman J E, Davis A K, Moody W J
机构信息
Department of Zoology, Box 351800, University of Washington, Seattle, WA 98195-1800, USA.
出版信息
J Physiol. 1998 Sep 15;511 ( Pt 3)(Pt 3):683-93. doi: 10.1111/j.1469-7793.1998.683bg.x.
Abstract
- In embryonic ascidian muscle, outward K+ currents develop in two stages: the initial expression of a slowly activating, voltage-gated K+ current (IKv) near the time of neurulation is followed about 6 h later by a rapidly activating calcium-activated K+ current (IK(Ca)). During this 6 h interval, inward Ca2+ currents (ICa) appear and the inward rectifier (IK(IR)), the sole resting conductance, is transiently downregulated. These events predict a period of spontaneous activity. The following experiments were designed to test this prediction and to examine the relevance of spontaneous activity for muscle cell development. 2. By recording activity in cell-attached patches, we have found that muscle cells generate spontaneous action potentials during this 6 h window of time when IK(IR) is downregulated and outward K+ currents are slow. Action potentials occur at a mean frequency of 13.9 min-1.3. When activity is blocked by the transient application of the Ca2+ channel blocker Cd2+, IK(Ca) fails to develop. This disruption is specific for IK(Ca): IK(IR) and ICa develop normally in activity-blocked cells. Application of Cd2+ either before or after the window of activity has no effect. 4. The reappearance of IK(IR) and the development of IK(Ca) and the mature form of ICa are all prevented by transcription blockers, with a sensitive period corresponding to the period of activity. 5. These data show that, although the expression of three channel types depends on transcription during the period of spontaneous activity, only the development of IK(Ca) depends on activity.
摘要
- 在胚胎海鞘肌肉中,外向钾电流分两个阶段形成:在神经胚形成期附近,缓慢激活的电压门控钾电流(IKv)开始表达,约6小时后,快速激活的钙激活钾电流(IK(Ca))出现。在这6小时间隔内,内向钙电流(ICa)出现,而内向整流器(IK(IR))作为唯一的静息电导暂时下调。这些事件预示着一段自发活动期。以下实验旨在验证这一预测,并研究自发活动与肌肉细胞发育的相关性。2. 通过记录细胞贴附式膜片钳中的活动,我们发现肌肉细胞在IK(IR)下调且外向钾电流缓慢的这6小时窗口期内会产生自发动作电位。动作电位的平均发生频率为13.9次/分钟。3. 当通过短暂应用钙通道阻滞剂Cd2+阻断活动时,IK(Ca)无法发育。这种破坏对IK(Ca)具有特异性:在活动被阻断的细胞中,IK(IR)和ICa正常发育。在活动窗口期之前或之后应用Cd2+均无影响。4. IK(IR)的重新出现、IK(Ca)的发育以及ICa的成熟形式均被转录阻滞剂阻止,敏感期与活动期相对应。5. 这些数据表明,虽然三种通道类型的表达在自发活动期依赖于转录,但只有IK(Ca)的发育依赖于活动。
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