摘要
克隆的大鼠外向钾通道Kv1.4亚型表达于293细胞(RCK4)。用膜片钳全细胞钳制法系统比较该克隆的大鼠瞬间外向钾电流(Ito)和天然大鼠心室肌细胞Ito的特点和动力学特性。两种通道电流形态相似,呈“A”型电流,在+40mV时电流失活时间常数τ依次为36.6±2ms和41.0±2ms(P>0.05)。Kv1.4通道电流激活曲线用二相Boltzmann方程拟合,一相半数最大激活电位(V1/2,1)为-21.0±3.9mV、二相半数最大激活电位(V1/2,2)为27.0±3.9mV;天然大鼠心室肌细胞Ito激活曲线用单相Boltzmann方程拟合,半数最大激活电位为10.8±1.1mV(P<0.05,vsKv1.4通道电流的V1/2,1)。RCK4细胞通道电流半数最大灭活电位(V1/2)为-49.8±1.8mV,斜率因子(k)为3.8±0.27;天然大鼠心室肌细胞Ito的V1/2为-31.6±1.7mV,k为5.4±0.21。灭活后再激活的恢复时间比较,Kv1.4通道电流明显长于天然大鼠心室肌细胞Ito,分别为1.89±0.2s和39.2±1.6ms(P<0.05)。研究表明克隆的大鼠Kv1.4通道电流与天然大?
Cloned rat potassium channels,RCK4 (subtype Kv1.4) were stably expressed in 293 cells. The electrophysiological properties of RCK4 were compared with rat heart transient outward potassium currents (Ito) by using the patchclamp whole cell recording techniques.Both currents showed "A" type current properties with an inactivation time constant(τ) of 36.6±2 ms(Kv 1.4) and 41±2 ms(rat heart Ito,P>0.05) at +40mV,respectively.The activation curve of Kv1.4 current was better fitted by doublesigmodal function with first half maximal activation voltage (V1/2,1) of -21.0±3.9 mV,and second halfmaximal voltage(V1/2,2) of 27.0±3.9 mV.While the activation curve of Ito current in rat ventricular myocytes was better fitted by simple Boltzmann function with V1/2 of 10.8±1.1 mV(P<0.05,vs V1/2,1).The steadystate inactivation curves showed that the voltage for halfmaximal inactivation was -49.8±1.8 mV in RCK4 cells and -31.6±1.7 mV in rat myocytes, and the slope factor(k) were 3.8±0.27 and 5.4±0.21,respectively.Comparison of the rate of recovery from inactivation of two potassium channels,the recovery rate of Kv1.4 currents were significant slower than that of rat heart Ito.The time constants(τ) were 1.89±0.2 s and 39.2±1.6 ms(P<0.05) in Kv1.4 and in rat heart Ito, respectively.Our study shows that the currents of Kv1.4 are quite different from native cardiac Ito in electrophysiological properties and demonstrated that channels for rat heart Ito might not be composed by Kv1.4 homologously.
出处
《中国心脏起搏与心电生理杂志》
1998年第1期45-48,共4页
Chinese Journal of Cardiac Pacing and Electrophysiology
基金
国家杰出青年科学基金
关键词
RCK4
通道电流
心室肌细胞
瞬间外向钾电流
RCK4 Kv1.4 channel current Ventricular myocyte Transient outward potassium current Rat
