猫背侧脊髓小脑束神经元中电生泵产生的强直后超极化。
Post-tetanic hyperpolarization produced by an electrogenic pump in dorsal spinocerebellar tract neurones of the cat.
作者信息
Kuno M, Miyahara J T, Weakly J N
出版信息
J Physiol. 1970 Nov;210(4):839-55. doi: 10.1113/jphysiol.1970.sp009245.
Abstract
- Hyperpolarization following single and repetitive excitation of dorsal spinocerebellar tract (DSCT) neurones of the cat was studied by intracellular recording.2. Hyperpolarization following an antidromic action potential consisted of an initial, brief phase (undershoot) and a late, prolonged phase. The latter hyperpolarization was independent of the membrane potential, whereas the former was reversed in polarity by hyperpolarizing pulses applied across the DSCT cell membrane.3. DSCT neurones showed a prolonged hyperpolarization after a train of antidromic action potentials. The amplitude and duration of the hyperpolarization were dependent on the number and the frequency of action potentials. A similar hyperpolarization was observed following a train of impulses evoked by depolarizing pulses applied through the intracellular electrode.4. There was no detectable conductance change during the post-tetanic hyperpolarization. The latter showed no reversal potential when the membrane potential was altered.5. The half-decay time of the post-tetanic hyperpolarization was lengthened when the cord temperature was lowered. The temperature coefficient (Q(10)) was 2.4 within the range of 31-40 degrees C.6. The amplitude of the undershoot following each action potential was assumed to provide a criterion for the accumulation of the extracellular K(+). Alterations in the amplitude of undershoots during repetitive excitation suggested that the duration of post-tetanic hyperpolarization depends on the accumulation of extracellular K(+) as well as of intracellular Na(+) associated with a train of impulses.7. It is suggested that post-tetanic hyperpolarization is produced by an electrogenic sodium pump. A possible significance of such a hyperpolarization in impulse coding is discussed.
摘要
通过细胞内记录研究了猫背侧脊髓小脑束(DSCT)神经元单次和重复兴奋后的超极化现象。
逆行动作电位后的超极化由初始的短暂阶段(负后电位)和后期的延长阶段组成。后者的超极化与膜电位无关,而前者在跨DSCT细胞膜施加超极化脉冲时极性反转。
DSCT神经元在一串逆行动作电位后表现出延长的超极化。超极化的幅度和持续时间取决于动作电位的数量和频率。在通过细胞内电极施加去极化脉冲诱发的一串冲动后也观察到类似的超极化。
强直后超极化期间未检测到电导变化。当膜电位改变时,后者没有反转电位。
当脊髓温度降低时,强直后超极化的半衰期延长。在31 - 40摄氏度范围内温度系数(Q₁₀)为2.4。
假定每个动作电位后的负后电位幅度为细胞外K⁺积累提供了一个标准。重复兴奋期间负后电位幅度的变化表明,强直后超极化的持续时间取决于细胞外K⁺以及与一串冲动相关的细胞内Na⁺的积累。
提示强直后超极化是由生电钠泵产生的。讨论了这种超极化在冲动编码中的可能意义。
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