心脏浦肯野纤维低膜电位时振荡活动的机制。
The mechanism of oscillatory activity at low membrane potentials in cardiac Purkinje fibres.
作者信息
Hauswirth O, Noble D, Tsien R W
出版信息
J Physiol. 1969 Jan;200(1):255-65. doi: 10.1113/jphysiol.1969.sp008691.
Abstract
- The mechanism of oscillations at low membrane potentials in Purkinje fibres has been investigated using voltage clamp experiments.2. The oscillations are generated by time-dependent variations in an outward current component, i(x1), that is activated over the voltage range -40 to 10 mV. During normal activity, this current is responsible for initiating full repolarization to the resting potential (Noble & Tsien, 1969b) so that the oscillations represent a failure of the normal repolarization process, probably as a consequence of a small change in background (leakage) current.3. These oscillations are distinct from the normal pacemaker activity of Purkinje fibres which is generated by a separate time-dependent current, i(K2) (Noble & Tsien, 1968). i(K2) shows no time-dependence when the membrane potential variations are entirely positive to -65 mV and cannot, therefore, be involved in the oscillatory activity apart from contributing a background outward current.4. The amplitude and frequency of the oscillations are very sensitive to applied currents less than 1 muA/cm(2). Larger currents abolish the oscillatory activity.5. The mechanism of the oscillations is discussed in relation to the possible mechanisms underlying the natural pacemaker activity of the sino-atrial (SA) node.
摘要
利用电压钳实验研究了浦肯野纤维低膜电位下的振荡机制。
振荡由外向电流成分i(x1)的时间依赖性变化产生,该电流成分在-40至10 mV的电压范围内被激活。在正常活动期间,此电流负责启动完全复极化至静息电位(诺布尔和钱,1969b),因此振荡代表正常复极化过程的失败,可能是背景(泄漏)电流发生小变化的结果。
这些振荡不同于浦肯野纤维的正常起搏活动,后者由另一种时间依赖性电流i(K2)产生(诺布尔和钱,1968)。当膜电位变化完全正向于-65 mV时,i(K2)不显示时间依赖性,因此,除了提供背景外向电流外,它不参与振荡活动。
振荡的幅度和频率对小于1 μA/cm²的施加电流非常敏感。较大的电流会消除振荡活动。
结合窦房(SA)结自然起搏活动的潜在机制讨论了振荡机制。
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本文引用的文献
1
Impulses and Physiological States in Theoretical Models of Nerve Membrane.神经膜理论模型中的冲动与生理状态
Biophys J. 1961 Jul;1(6):445-66. doi: 10.1016/s0006-3495(61)86902-6.
2
A modification of the Hodgkin--Huxley equations applicable to Purkinje fibre action and pace-maker potentials.一种适用于浦肯野纤维动作电位和起搏电位的霍奇金-赫胥黎方程的修正。
J Physiol. 1962 Feb;160(2):317-52. doi: 10.1113/jphysiol.1962.sp006849.
3
The effect of the cardiac membrane potential on the rapid availability of the sodium-carrying system.心脏膜电位对钠转运系统快速可用性的影响。
J Physiol. 1955 Jan 28;127(1):213-24. doi: 10.1113/jphysiol.1955.sp005250.
4
[Hypersensitivity and resistance to digitalis].[对洋地黄的过敏反应与耐受性]
Schweiz Med Wochenschr. 1963 Aug 17;93:1038-42.
5
On the mechanism of spontaneous impulse generation in the pacemaker of the heart.关于心脏起搏器中自发冲动产生的机制。
J Gen Physiol. 1961 Nov;45(2):317-30. doi: 10.1085/jgp.45.2.317.
6
Anion conductance of cardiac muscle.心肌的阴离子电导
J Physiol. 1961 Jul;157(2):335-50. doi: 10.1113/jphysiol.1961.sp006726.
7
Chloride ions and the membrane potential of Purkinje fibres.氯离子与浦肯野纤维的膜电位
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8
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J Gen Physiol. 1956 May 20;39(5):715-33. doi: 10.1085/jgp.39.5.715.
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