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在常氧及缺氧/缺血条件下,Ⅲ类药物与格列本脲对豚鼠乳头肌动作电位时程的不同影响。

Differential class III and glibenclamide effects on action potential duration in guinea-pig papillary muscle during normoxia and hypoxia/ischaemia.

作者信息

MacKenzie I, Saville V L, Waterfall J F

机构信息

Roche Research Centre, Welwyn Garden City, Hertfordshire.

出版信息

Br J Pharmacol. 1993 Oct;110(2):531-8. doi: 10.1111/j.1476-5381.1993.tb13843.x.

DOI:10.1111/j.1476-5381.1993.tb13843.x
PMID:8242227
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2175944/
Abstract
  1. Microelectrode recording techniques were used to study the effects of several potassium channel blockers which are considered to be Class III antiarrhythmic compounds. The effects of (+)-sotalol, UK-66,914, UK-68,798 and E-4031 on action potential duration (APD) were determined in guinea-pig isolated papillary muscles. The compounds were evaluated under normoxic or hypoxic/ischaemic conditions at 36.5 degrees C and compared to glibenclamide, which is considered to be a blocker of ATP-dependent potassium channels. Prolongation of action potential duration at 90% repolarization (APD90) was taken as an indirect measure of potassium channel blockade. 2. Under normoxic conditions, the Class III compounds prolonged APD in a concentration-dependent manner. According to EC15 values, the order of potency of the Class III compounds was found to be UK-68,798 > E-4031 > UK-66,914 > (+)-sotalol. Glibenclamide did not significantly prolong APD90 under normoxic conditions. 3. Perfusion with an experimental hypoxic or ischaemic bathing solution produced qualitatively similar effects on action potentials. Over a period of 20-25 min in either of the experimental solutions, there was a small decrease in action potential amplitude (APA) and a prominent shortening of APD. The ischaemic solution also depolarized the resting membrane potential by about 15 mV. 4. (+)-Sotalol and UK-66,914 did not reverse the shortening of APD induced by perfusion with hypoxic Krebs solution. High concentrations of glibenclamide (10 microM) and UK-68,798 (30 and 60 microM) partially reversed the hypoxia-shortened APD. Glibenclamide was more potent and exhibited a greater time-dependent action than UK-68,798. 5. During experimental ischaemia, the Class III compound E-4031 (10 microM, n = 7) produced small, but significant, increases in the APD90 (11 +/-3 ms after 20 min) which were not clearly time-dependent(14 +/- 4 ms after 30 min). UK-68,798 (10 microM) also produced a small, but insignificant, increase in APD90(12 =/-6 ms at 20 min, n = 4). Higher concentrations of UK-68,798 (30 and 60 microM, n = 4) did not produce a consistently significant increase in APD90 during ischaemia: significance was only attained after 20 min in the presence of 60 microM UK-68,798 (24 +/- 12 ms). However, in marked contrast to the effects of the Class III compounds, glibenclamide (10 microM) produced large time-dependent increases in ischaemic APD90 (34 +/- 11 ms at 7 min, n = 9) which were significant 15 min or more after drug addition(52 +/- 12 ms at 20 min, n = 7; 74 +/- 5 ms at 30 min, n = 6).6. The present microelectrode data suggest that blockers of ATP-dependent potassium channels, such as glibenclamide, might prove to be more effective than Class III compounds against ischaemia-induced shortening of cardiac action potentials.
摘要
  1. 采用微电极记录技术研究了几种被认为是Ⅲ类抗心律失常化合物的钾通道阻滞剂的作用。在豚鼠离体乳头肌中测定了(+)-索他洛尔、UK-66,914、UK-68,798和E-4031对动作电位时程(APD)的影响。在36.5℃的常氧或低氧/缺血条件下对这些化合物进行评估,并与被认为是ATP依赖性钾通道阻滞剂的格列本脲进行比较。以90%复极化时动作电位时程(APD90)的延长作为钾通道阻滞的间接指标。2. 在常氧条件下,Ⅲ类化合物以浓度依赖性方式延长APD。根据EC15值,发现Ⅲ类化合物的效力顺序为UK-68,798>E-4031>UK-66,914>(+)-索他洛尔。在常氧条件下,格列本脲未显著延长APD90。3. 用实验性低氧或缺血浴液灌注对动作电位产生了定性相似的影响。在任何一种实验溶液中灌注20 - 25分钟后,动作电位幅度(APA)略有下降,APD显著缩短。缺血溶液还使静息膜电位去极化约15 mV。4. (+)-索他洛尔和UK-66,914不能逆转低氧Krebs溶液灌注诱导的APD缩短。高浓度的格列本脲(10 μM)和UK-68,798(30和60 μM)部分逆转了低氧缩短的APD。格列本脲比UK-68,798更有效,且表现出更大的时间依赖性作用。5. 在实验性缺血期间,Ⅲ类化合物E-4031(10 μM,n = 7)使APD90有小但显著的增加(20分钟后为11±3 ms),且无明显的时间依赖性(30分钟后为14±4 ms)。UK-68,798(10 μM)也使APD90有小但不显著的增加(20分钟时为12±6 ms,n = 4)。更高浓度的UK-68,798(30和60 μM,n = 4)在缺血期间并未使APD90持续显著增加:仅在60 μM UK-68,798存在20分钟后才达到显著水平(24±12 ms)。然而,与Ⅲ类化合物的作用形成显著对比的是,格列本脲(10 μM)使缺血性APD90有大的时间依赖性增加(7分钟时为34±11 ms,n = 9),在给药15分钟或更长时间后显著(20分钟时为52±12 ms,n = 7;30分钟时为74±5 ms,n = 6)。6. 目前的微电极数据表明,ATP依赖性钾通道阻滞剂,如格列本脲,在对抗缺血诱导的心脏动作电位缩短方面可能比Ⅲ类化合物更有效。

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Combined effects of hypoxia, hyperkalemia and acidosis on membrane action potential and excitability of guinea-pig ventricular muscle.缺氧、高钾血症和酸中毒对豚鼠心室肌膜动作电位和兴奋性的联合影响。
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