Sun Z Q, Ojamaa K, Nakamura T Y, Artman M, Klein I, Coetzee W A
Pediatric Cardiology, NYU School of Medicine, New York, NY 10016, USA.
J Mol Cell Cardiol. 2001 Apr;33(4):811-24. doi: 10.1006/jmcc.2001.1353.
The effects of thyroid hormone (3,3',5-triiodo- L -thyronine, T3) on pacemaker activity were studied with electrophysiological and pharmacological approaches using spontaneously beating neonatal atrial myocytes cultured from 2-day-old rats. Treatment with T3 (10(-8)m) for 24-48 h led to a positive chronotropic effect. The beating rate of T3-treated cells was 244+/-19 beats/min and for control cells it was 122+/-10 beats/min (P<0.05). Action potentials were recorded and showed that the predominant effect of T3 was to increase the diastolic depolarization rate (99.5+/-9.8 in T3-treated group v 44.0+/-7.8 mV/s in untreated group). Some cells that exhibited pacemaker activity lacked a pacemaker current (I(f)) under voltage clamp conditions I(f)was recorded in 5 of 12 spontaneously active control cells and in 6 of 10 T3-treated cells. In those cells exhibiting the pacemaker current, the I(f)density was significantly larger in T3-treated cells (-7.9+/-2.6 pA/pF v-1.8+/-0.5 pA/pF in control). The L-type Ca2+ current density was similar in the two groups (at -7 mV, -7.5+/-1.5 in treated group v-8.6+/-1.0 pA/pF in control). In the presence of T3, the Na+-Ca2+ exchanger current (I(Na/Ca)) density was larger (e.g. at +60 mV, it was 4.8+/-0.5 v 3.5+/-0.2 pA/pF in control cells, P<0.05). As intracellular Ca2+ is extruded from the cell, the electrogenic Na+-Ca2+ exchanger causes a declining inward current, which may contribute to the pacemaker potential-this declining inward current was demonstrated using the action potential voltage clamp technique and was shown to be larger in T3-treated myocytes. Our data demonstrate that thyroid hormone enhances pacemaker activity and that this may be due in part to an increased Na+-Ca2+ exchanger activity.
采用电生理学和药理学方法,以2日龄大鼠原代培养的自发性搏动新生大鼠心房肌细胞为研究对象,探讨甲状腺激素(3,3',5-三碘-L-甲状腺原氨酸,T3)对起搏活动的影响。用T3(10^(-8)mol/L)处理24 - 48小时产生了正性变时作用。T3处理组细胞的搏动频率为244±19次/分钟,对照组细胞为122±10次/分钟(P<0.05)。记录动作电位显示,T3的主要作用是增加舒张期去极化速率(T3处理组为99.5±9.8 mV/s,未处理组为44.0±7.8 mV/s)。一些表现出起搏活动的细胞在电压钳制条件下缺乏起搏电流(I(f)),12个自发活动的对照细胞中有5个记录到I(f),10个T3处理的细胞中有6个记录到I(f)。在那些表现出起搏电流的细胞中,T3处理组细胞的I(f)密度显著更大(-7.9±2.6 pA/pF,对照组为-1.8±0.5 pA/pF)。两组的L型Ca2+电流密度相似(在-7 mV时,处理组为-7.5±1.5 pA/pF,对照组为-8.6±1.0 pA/pF)。在T3存在的情况下,Na+-Ca2+交换电流(I(Na/Ca))密度更大(例如在+60 mV时,处理组为4.8±0.5 pA/pF,对照细胞为3.5±0.2 pA/pF,P<0.05)。当细胞内Ca2+排出细胞时,电生性Na+-Ca2+交换器会引起内向电流衰减,这可能有助于起搏电位的产生——利用动作电位电压钳技术证实了这种内向电流衰减,并且在T3处理的心肌细胞中更大。我们的数据表明,甲状腺激素增强起搏活动,这可能部分归因于Na+-Ca2+交换器活性增加。
