哺乳动物快肌中的离子电流。
Ionic currents in mammalian fast skeletal muscle.
作者信息
Duval A, Léoty C
出版信息
J Physiol. 1978 May;278:403-23. doi: 10.1113/jphysiol.1978.sp012312.
Abstract
- The double sucrose-gap technique has been applied to rat skeletal muscle fibres to study the ionic currents under voltage-clamp conditions. 2. The iliacus muscle was found to be of 'fast' type according to the characteristics of the twitch generated by an action potential. 3. Micro-electrode measurements have shown that the intracellular potential is under good control even when an inward current develops. 4. The components of an equivalent circuit with two time constants have been estimated from the records of the capacitive current. 5. In rat muscle, between 15 and 21 degrees C, inward and outward currents are similar to sodium and potassium currents found in frog muscle at lower temperature (1--3 degrees C). 6. The inward current which depends on [Na]o and is abolished by tetrodotoxin is carried by sodium ions. Related to the mean value for the holding potential (-90.5 mV) this current reaches its maximum amplitude a +40 and +50 mV, reverses between +130 and +150 mV and its half inactivation occurs between +14 and +22 mV. The effect of low doses of tetrodotoxin suggests that two components participate in the sodium current. 7. The delayed outward current which shows inactivation is divided in two components: (i) the fast has a linear instantaneous current-voltage relation and differs from the fast component of frog muscle in that its equilibrium potential is more negative than the resting potential; (ii) the slow has a linear instantaneous current-voltage relation and the mean value for its equilibrium potential is 26 mV less negative than the resting potential. 8. Inward-going rectification is present in rat muscle.
摘要
- 双蔗糖间隙技术已应用于大鼠骨骼肌纤维,以研究电压钳制条件下的离子电流。2. 根据动作电位产生的抽搐特征,发现髂肌为“快”型。3. 微电极测量表明,即使有内向电流产生,细胞内电位仍能得到良好控制。4. 已根据电容电流记录估算出具有两个时间常数的等效电路的元件。5. 在15至21摄氏度的大鼠肌肉中,内向和外向电流类似于在较低温度(1至3摄氏度)下青蛙肌肉中发现的钠电流和钾电流。6. 依赖于细胞外[Na]且被河豚毒素消除的内向电流由钠离子携带。相对于保持电位的平均值(-90.5 mV),该电流在+40和+50 mV时达到最大幅度,在+130和+150 mV之间反转,其半失活发生在+14和+22 mV之间。低剂量河豚毒素的作用表明,钠电流中有两个成分参与。7. 表现出失活的延迟外向电流分为两个成分:(i)快成分具有线性瞬时电流-电压关系,与青蛙肌肉的快成分不同,其平衡电位比静息电位更负;(ii)慢成分具有线性瞬时电流-电压关系,其平衡电位的平均值比静息电位负26 mV。8. 大鼠肌肉中存在内向整流。
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