利用短暂的细胞内电流脉冲对脊髓运动神经元的电缆特性进行分析。
An analysis of the cable properties of spinal motoneurones using a brief intracellular current pulse.
作者信息
Iansek R, Redman S J
出版信息
J Physiol. 1973 Nov;234(3):613-36. doi: 10.1113/jphysiol.1973.sp010364.
Abstract
- A brief intracellular current pulse, with duration less than 500 musec, has been applied to lumbosacral motoneurones in anaesthetized cats. The resulting voltage transients have been analysed by the procedure suggested in Jack & Redman (1971b) to obtain the cable parameters for each motoneurone.2. Forty-three motoneurone responses were analysed. In all cases the voltage response indicated that the dendrites could be represented as uniform, finite length cables, with either a sealed distal end, or at least a high resistance distal termination. The electrical length of the equivalent uniform dendritic cable ranged from 1.0 to 2.1 space constants, with a mean value of 1.5.3. The initial decay of the membrane potential following the removal of the current pulse was more rapid than was predicted by the Rall model for the motoneurone, in approximately two thirds of the responses. Consequently a value of dendritic to soma conductance ratio could not be obtained for these motoneurones.4. The explanation given for the departure from the theoretical response to a brief current pulse is that the specific resistivity of the soma membrane is lower than the specific resistivity of the dendritic membrane. This explanation is complicated by the possibility of the electrode tip not lodging in the isopotential soma region. The contribution that each of these effects has on the early decay phase of the current pulse response has been assessed.5. It is concluded that the specific resistivity of the soma membrane could be as low as one third of the dendritic membrane resistivity. Tonic inhibitory activity restricted to the soma is suggested as an explanation.
摘要
对麻醉猫的腰骶运动神经元施加了持续时间小于500微秒的短暂细胞内电流脉冲。通过杰克和雷德曼(1971b)建议的程序对产生的电压瞬变进行了分析,以获得每个运动神经元的电缆参数。
分析了43个运动神经元的反应。在所有情况下,电压反应表明树突可以表示为均匀的、有限长度的电缆,其远端要么密封,要么至少有一个高电阻的远端终端。等效均匀树突电缆的电长度范围为1.0至2.1个空间常数,平均值为1.5。
在大约三分之二的反应中,电流脉冲去除后膜电位的初始衰减比运动神经元的拉尔模型预测的要快。因此,无法获得这些运动神经元的树突与胞体电导比的值。
对偏离对短暂电流脉冲的理论反应的解释是,胞体膜的比电阻率低于树突膜的比电阻率。电极尖端未位于等电位胞体区域的可能性使这种解释变得复杂。已经评估了每种效应对电流脉冲反应早期衰减阶段的贡献。
得出的结论是,胞体膜的比电阻率可能低至树突膜电阻率的三分之一。有人提出,局限于胞体的紧张性抑制活动可以作为一种解释。
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