兔肛门尾骨肌的一些电特性以及大鼠和兔中抑制性神经刺激效果的比较。

Some electrical properties of the rabbit anococcygeus muscle and a comparison of the effects of inhibitory nerve stimulation in the rat and rabbit.

作者信息

Creed K E, Gillespie J S

出版信息

J Physiol. 1977 Dec;273(1):137-53. doi: 10.1113/jphysiol.1977.sp012086.

DOI:10.1113/jphysiol.1977.sp012086

PMID:599417

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1353731/

Abstract

Simultaneous recordings of mechanical activity and membrane potential of individual smooth muscle cells have been made in the rabbit anococcygeus muscle and the effect of field stimulation on these examined.2. In the absence of tone the mean resting membrane potential was - 48 mV. In the stretched muscle spontaneous tone and rhythmic activity quite frequently appeared and this was associated with depolarization of the muscle cells.3. The response to field stimulation depended on the frequency of stimulation, the level of membrane potential and the presence of myogenic tone. The usual response to single pulses or low frequency stimulation was a hyperpolarization of up to 30 mV (mean 14+/-6.8 mV) after a latency of 185 msec and accompanied by muscle relaxation. Higher frequencies (over 8 Hz) produced an initial depolarization often with a spike potential and followed by hyperpolarization. The mechanical response in these instances was contraction or contraction followed by relaxation. At all frequencies rebound depolarization and an associated contraction followed the end of stimulation).4. Phentolamine (5x10(-6)M) and guanethidine (10(-6)M) blocked the initial depolarization and contraction but had no effect on hyperpolarization, muscle relaxation or rebound depolarization and contraction.5. The effect of field stimulation in the presence of guanethidine (4x10(-5)M) was re-examined in the rat anococcygeus. Single pulses were ineffective, repetitive stimulation produced muscle relaxation but no hyperpolarization comparable to the rabbit. Any oscillations in membrane potential were damped during field stimulation and sometimes a small hyperpolarization was produced with a maximum amplitude of 13 mV and a mean of 1.9+/-1.2 mV.6. The transmembrane potential at the peak of hyperpolarization in the rabbit was rarely more than -70 mV. Passive displacement of the membrane potential by current pulses altered the amplitude of the hyperpolarization and suggested that there was a reversal potential at between -80 and -90 mV.7. No change in input resistance could be measured during inhibitory nerve stimulation in either the rabbit or the rat but measurements based on electrotonic potentials indicated a reducation in membrane resistance, small in the rat but greater in the rabbit.8. These experiments suggest that in both species muscle relaxation is associated with an increase in ionic permeability and a move, at least in the rabbit muscle, towards an equilibrium potential of -80 to -90 mV. In view of the much smaller effect in the rat it is not clear whether this is the cause or at least the sole cause of the muscle relaxation.

摘要

已在兔肛尾肌中对单个平滑肌细胞的机械活动和膜电位进行了同步记录，并研究了场刺激对这些指标的影响。
在无张力状态下，平均静息膜电位为 -48 mV。在拉伸的肌肉中，自发张力和节律性活动经常出现，这与肌肉细胞的去极化有关。
对场刺激的反应取决于刺激频率、膜电位水平和肌源性张力的存在。对单个脉冲或低频刺激的通常反应是在185毫秒的潜伏期后出现高达30 mV（平均14±6.8 mV）的超极化，并伴有肌肉松弛。较高频率（超过8 Hz）会产生初始去极化，常伴有锋电位，随后是超极化。在这些情况下，机械反应是收缩或收缩后松弛。在所有频率下，刺激结束后都会出现反弹去极化和相关的收缩。
酚妥拉明（5×10⁻⁶ M）和胍乙啶（10⁻⁶ M）阻断了初始去极化和收缩，但对超极化、肌肉松弛或反弹去极化和收缩没有影响。
在大鼠肛尾肌中重新研究了胍乙啶（4×10⁻⁵ M）存在时场刺激的作用。单个脉冲无效，重复刺激会导致肌肉松弛，但没有与兔相当的超极化。在电场刺激期间，膜电位的任何振荡都会被衰减，有时会产生最大幅度为13 mV、平均为1.9±1.2 mV的小超极化。
兔超极化峰值处的跨膜电位很少超过 -70 mV。电流脉冲对膜电位的被动位移改变了超极化的幅度，表明在 -80至 -90 mV之间存在反转电位。
在兔或大鼠中，抑制性神经刺激期间无法测量输入电阻的变化，但基于电紧张电位的测量表明膜电阻降低，在大鼠中较小，在兔中较大。
这些实验表明，在这两个物种中，肌肉松弛都与离子通透性增加以及至少在兔肌肉中向 -80至 -90 mV平衡电位的移动有关。鉴于在大鼠中的作用要小得多，尚不清楚这是否是肌肉松弛的原因或至少是唯一原因。