17β-雌二醇对雄性大鼠心室肌细胞动作电位和离子电流的影响。
Effects of 17beta-estradiol on action potentials and ionic currents in male rat ventricular myocytes.
作者信息
Berger F, Borchard U, Hafner D, Pütz I, Weis T M
机构信息
Institute of Pharmacology, Heinrich-Heine-University Düsseldorf, Germany.
出版信息
Naunyn Schmiedebergs Arch Pharmacol. 1997 Dec;356(6):788-96. doi: 10.1007/pl00005119.
This study describes electrophysiological effects of estrogens in isolated male rat ventricular myocytes. According to the literature these cells do not express the nuclear estrogen receptor. Action potentials or membrane currents were recorded in the whole-cell configuration with standard techniques. Action potential durations (APD) measured at a level of 0 mV (APD 0) and -70 mV (APD -70) were prolonged by 17beta-estradiol (0.5 Hz stimulation frequency, 24-26 degrees C). Threshold concentration was 1 micromol/l. At the highest concentration used (30 micromol/l) no saturation of the response was reached and APD 0 was 162% and APD -70 was 230% of the respective control. The resting potential remained unaffected in most cells. The prolongation induced by 17beta-estradiol developed fast and reached a steady state 10 min after start of hormone superfusion. Effects of estrogen were completely reversible during 10-15 min wash-out with hormone-free solution. The extent of prolongation (10 micromol/l 17beta-estradiol) was frequency dependent. Expressed as percentage of the respective control APD 0 (or APD -70) was 115% (188%) at 0.05 Hz, 118% (163%) at 0.5 Hz and 99% (129%) at 5 Hz stimulation frequency. The response was stereoselective, because 30 micromol/l 17alpha-estradiol did not prolong action potentials (APD 0: 101%, APD -70: 104% of the respective control, 0.5 Hz stimulation frequency). The endogenous estrogens estrone and estriol were less effective than 17beta-estradiol. With 30 micromol/l estrone (0.5 Hz stimulation frequency) APD 0 was 103% and ADP-70 148% of control and with 30 micromol/l estriol APD 0 was 135% and APD -70 137% of control. The prolongation of action potentials can be explained by inhibition of transient outward current which, in rat ventricle, is composed of fast (i[to,f]) and slowly (i[to,s]) inactivating components. At 30 micromol/l 17beta-estradiol i(to,f) was reduced to 50% and i(to,s) to 43% of their maximal amplitudes. The voltage sensor of i(to,f) or i(to,s) was hardly affected. Additionally, 17beta-estradiol decreased the calcium current (i[Ca,L]) to 76% (10 micromol/l) and 38% at 30 micromol/l. The inwardly rectifying potassium current (i[K1]) was reduced partly with 30 micromol/l 17beta-estradiol and its amplitude was 72% of control at -90 mV (inward current flow) and 65% at -40 mV (outward current flow). These results show that 17beta-estradiol is active in cardiac cells which do not express the nuclear estrogen receptor. The hormone exerts class III activity and reduces calcium inward current. These effects, however, occur in vitro with concentrations above the physiological level and therefore may be without significance in vivo.
本研究描述了雌激素对分离的雄性大鼠心室肌细胞的电生理效应。根据文献,这些细胞不表达核雌激素受体。采用标准技术在全细胞模式下记录动作电位或膜电流。在0 mV(APD 0)和 -70 mV(APD -70)水平测量的动作电位持续时间(APD),在17β-雌二醇作用下(刺激频率0.5 Hz,温度24 - 26℃)延长。阈值浓度为1 μmol/l。在所使用的最高浓度(30 μmol/l)下,反应未达到饱和,APD 0为相应对照的162%,APD -70为230%。大多数细胞的静息电位未受影响。17β-雌二醇诱导的延长发展迅速,在激素灌流开始后10分钟达到稳态。在无激素溶液中冲洗10 - 15分钟期间,雌激素的作用完全可逆。延长程度(10 μmol/l 17β-雌二醇)具有频率依赖性。以相应对照的百分比表示,在0.05 Hz刺激频率下,APD 0(或APD -70)为115%(188%);在0.5 Hz时为118%(163%);在5 Hz刺激频率下为99%(129%)。该反应具有立体选择性,因为30 μmol/l 17α-雌二醇不会延长动作电位(在0.5 Hz刺激频率下,APD 0为相应对照的101%,APD -70为104%)。内源性雌激素雌酮和雌三醇的作用比17β-雌二醇弱。在30 μmol/l雌酮(0.5 Hz刺激频率)作用下,APD 0为对照的103%,ADP -70为148%;在30 μmol/l雌三醇作用下,APD 0为135%,APD -70为137%。动作电位的延长可通过抑制瞬时外向电流来解释,在大鼠心室中,该电流由快速(i[to,f])和缓慢(i[to,s])失活成分组成。在30 μmol/l 17β-雌二醇作用下,i(to,f)降至其最大幅度的50%,i(to,s)降至43%。i(to,f)或i(to,s)的电压传感器几乎未受影响。此外,17β-雌二醇使钙电流(i[Ca,L])在10 μmol/l时降至76%,在30 μmol/l时降至38%。内向整流钾电流(i[K1])在30 μmol/l 17β-雌二醇作用下部分降低,在 -90 mV(内向电流)时其幅度为对照的72%,在 -4 mV(外向电流)时为65%。这些结果表明,17β-雌二醇在不表达核雌激素受体的心肌细胞中具有活性。该激素发挥Ⅲ类活性并减少钙内向电流。然而,这些效应是在体外高于生理水平的浓度下发生的,因此在体内可能无意义。
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