使用 Vaughan-Williams Ia 类抗心律失常药物对心脏和胰腺β细胞中ATP敏感性钾通道的比较研究。

Comparative studies of ATP sensitive potassium channels in heart and pancreatic beta cells using Vaughan-Williams class Ia antiarrhythmics.

作者信息

Horie M, Hayashi S, Yuzuki Y, Sasayama S

机构信息

Third Department of Internal Medicine, Kyoto University Faculty of Medicine, Japan.

出版信息

Cardiovasc Res. 1992 Nov;26(11):1087-94. doi: 10.1093/cvr/26.11.1087.

DOI:10.1093/cvr/26.11.1087

PMID:1291086

Abstract

OBJECTIVE

Actions of cibenzoline and disopyramide, agents with Vaughan-Williams class Ia antiarrhythmic action, on ATP sensitive K+ (KATP) channels were examined in heart and pancreatic beta cells.

METHODS

Single ventricular myocytes and beta cells were prepared enzymatically from adult Wistar rat hearts and pancreatic islets. Using patch clamp techniques, KATP channel activities were recorded in whole cell and single channel modes. In whole cell experiments, myocytes were bathed with Tyrode's medium (34 degrees C); inside out patches were bathed with internal solutions (22-24 degrees C) containing 1 microM ATP and varying concentrations of cibenzoline or disopyramide. Myocytes were voltage clamped at -40 mV and glibenclamide blockade conductance was produced by cromakalim.

RESULTS

Micromolar concentrations of both cibenzoline and disopyramide suppressed cromakalim induced conductance. When applied to the cytosolic surface of the cell membrane in inside out configuration, both drugs reversibly inhibited single KATP channel activities. Neither unitary conductance nor intraburst fast kinetics was affected by the compounds. At a holding potential of -40 mV under symmetrical approximately 150 mM K+ conditions, half maximum doses (IC50) were 0.9 microM [Hill coefficient (h) = 1.3] for cibenzoline induced block of cardiac KATP channels and 1.8 microM (h = 1.0) for disopyramide block. At +40 mV, IC50 for cibenzoline block was 1.4 microM (h = 0.9). Thus there was little voltage dependence in cibenzoline induced channel block. A similar IC50 value of 2.5 microM (h = 1.2 at -60 mV under symmetrical approximately 150 mM K+) was observed for cibenzoline induced block of KATP channels.

CONCLUSIONS

Near therapeutic concentrations of cibenzoline and disopyramide inhibit KATP channel activities in both heart and pancreatic beta cells. This may be causally related to the fasting hypoglycaemia which is sometimes reported in patients receiving the drugs. These antiarrhythmic agents may also modulate myocardial electrical properties during hypoxia or ischaemia.

摘要

目的

研究具有I a类抗心律失常作用的药物西苯唑啉和丙吡胺对心脏和胰腺β细胞中ATP敏感性钾通道（KATP通道）的作用。

方法

采用酶解法从成年Wistar大鼠心脏和胰岛制备单个心室肌细胞和β细胞。运用膜片钳技术，在全细胞和单通道模式下记录KATP通道活性。在全细胞实验中，心肌细胞置于Tyrode氏液（34℃）中；内面向外的膜片置于含有1μM ATP以及不同浓度西苯唑啉或丙吡胺的细胞内溶液（22 - 24℃）中。心肌细胞钳制电压为 - 40 mV，用克罗卡林产生格列本脲阻断电导。

结果

微摩尔浓度的西苯唑啉和丙吡胺均抑制克罗卡林诱导的电导。当以内面向外模式应用于细胞膜的胞质表面时，两种药物均可逆地抑制单个KATP通道活性。化合物对单通道电导和爆发内快速动力学均无影响。在对称的约150 mM K + 条件下，钳制电位为 - 40 mV时，西苯唑啉诱导心脏KATP通道阻滞的半数最大剂量（IC50）为0.9μM [希尔系数（h）= 1.3]，丙吡胺阻滞的IC50为1.8μM（h = 1.0）。在 + 40 mV时，西苯唑啉阻滞的IC50为1.4μM（h = 0.9）。因此，西苯唑啉诱导的通道阻滞几乎没有电压依赖性。在对称的约150 mM K + 条件下， - 60 mV时西苯唑啉诱导KATP通道阻滞的IC50值类似，为2.5μM（h = 1.2）。