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| 急性低温/再复温对大鼠心室肌膜电位和钾电流的影响 | |
| 作者姓名: | Li LT Zhang LB Si YL Xiao FC Li D Gao S Li DL Zhou SS |
| 作者单位: | 1. 辽宁省高校生物物理学重点实验室,大连大学医学研究中心,大连,116622;新乡医学院生理学教研室,新乡,453003 2. 新乡医学院生理学教研室,新乡,453003 3. 辽宁省高校生物物理学重点实验室,大连大学医学研究中心,大连,116622 |
| 摘 要: | 本文旨在研究急性低温/再复温对大鼠心室肌膜电位和钾电流的影响.膜电位和膜电流分别在全细胞膜片钳的电压钳和电流钳模式下记录.当细胞外灌流液从25℃降低到4℃后,一过性外向电流(transient outward current, Ito)完全消失,膜电位为 60mV时的稳态外向K 电流(sustained outward K current, Iss)和膜电位为-120mV时的内向整流K 电流(inward rectifier K current, IK1)分别降低(48.5±14.1)%和(35.7±18.2)%,同时,膜电位绝对值降低.当细胞外灌流液从4℃再升高到36℃后,膜电位出现一过性超级化,然后恢复到静息电位水平;在58个细胞中,有36个细胞伴随复温出现ATP-敏感性K (ATP-sensitive K , KATP)通道的激活.再复温引起的上述变化可以被Na /K -ATP酶抑制剂哇巴因(100μmol/L)所抑制.再复温引起的KATP通道激活也能被蛋白激酶A抑制剂H-89(100μmol/L)所抑制.在细胞膜电位被钳制在0mV时,当细胞外灌流液温度从25℃降低到4℃后,细胞的体积没有发生明显改变,但当再复温引起KATP通道激活后,细胞很快发生皱缩,同时细胞内部出现许多折光较强的斑点.上述结果表明急性低温/再复温对大鼠心室肌膜电位和K 电流有明显影响,并提示KATP通道激活可能与心肌低温/再复温损伤有关. |
| 关 键 词: | 低温 再复温 钾通道 膜电位 心肌 hypothermia rewarming potassium channels membrane potentials myocardium 急性低温 复温 大鼠 心室肌 膜电位 电流的影响 cooling acute Effects membrane potential ventricular myocytes injury play role influence data shrinkage soon However significant |
Effects of acute cooling/rewarming on membrane potential and K(+) currents in rat ventricular myocytes |
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| Li LT,Zhang LB,Si YL,Xiao FC,Li D,Gao S,Li DL,Zhou SS.Effects of acute cooling/rewarming on membrane potential and K(+) currents in rat ventricular myocytes[J].Acta Physiologica Sinica,2008,60(3):311-319. | |
| Authors: | Li Long-Tian Zhang Li-Bin Si Yan-Li Xiao Fu-Cheng Li Da Gao Shan Li Dong-Liang Zhou Shi-Sheng |
| Institution: | Liaoning Key Laboratory of Biophysics, Institute of Basic Medical Sciences, Medical College, Dalian University, Dalian 116622, China; Department of Physiology, Xinxiang Medical College, Xinxiang 453003, China. E-mail: zhouss@dlu.edu.cn. |
| Abstract: | The effects of acute cooling/rewarming on cardiac K(+) currents and membrane potential were investigated. Membrane potential and current were assessed with whole-cell patch-clamp technique in current- and voltage-clamp modes. When the temperature of bath solution was decreased from 25 degrees C; to 4 degrees C;, the transient outward current (I(to)) was completely abolished, the sustained outward K(+) current (I(ss)) at +60 mV and the inward rectifier K(+) current (I(K1)) at -120 mV were depressed by (48.5+/-14.1)% and (35.7+/-18.2)%, respectively, and the membrane potential became more positive. After the temperature of bath solution was raised from 4 degrees C; to 36 degrees C;, the membrane potential exhibited a transient hyperpolarization and then was maintained at a stable level. In some myocytes (36 out of 58), activation of the ATP-sensitive K(+) (K(ATP)) channels after rewarming was observed. The rewarming-induced change in the membrane potential was inhibited by the Na(+)/K(+)-ATPase inhibitor ouabain (100 mumol/L), and the rewarming-elicited activation of K(ATP) channels was inhibited by the protein kinase A inhibitor H-89 (100 mumol/L). Moreover, decrease of the temperature from 25 degrees C; to 4 degrees C; did not induce any significant change in cell volume when the cell membrane potential was clamped at 0 mV. However, significant cell shrinkage with spots was observed soon after rewarming-induced activation of K(ATP) channels. These data demonstrate that acute cooling/rewarming has a profound influence on the membrane potential and K(+) currents of ventricular myocytes, and suggest that activation of K(ATP) channels may play a role in cardiac cooling/rewarming injury. |
| Keywords: | hypothermia rewarming potassium channels membrane potentials myocardium |
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