大鼠海马齿状颗粒神经元超极化后电流期间的电流波动分析
Analysis of current fluctuations during after-hyperpolarization current in dentate granule neurones of the rat hippocampus.
作者信息
Valiante T A, Abdul-Ghani M A, Carlen P L, Pennefather P
机构信息
MRC Nerve Cell and Synapse Group, University of Toronto, Ontario, Canada.
出版信息
J Physiol. 1997 Feb 15;499 ( Pt 1)(Pt 1):121-34. doi: 10.1113/jphysiol.1997.sp021915.
Abstract
- We have studied macroscopic current fluctuations associated with the after-hyperpolarization current (IAHP) that follows a 200 ms voltage-clamp step to 0 mV in dentate granule (DG) neurones of the rat hippocampus. This maximally effective stimulus produced a peak IAHP of 205 +/- 20 pA. Background noise was minimized by using the whole-cell single-electrode voltage-clamp configuration. 2. Conventional current-variance analysis was performed on IAHP to obtain estimates of the unitary AHP channel current (i) and the maximal attainable AHP current (Imax). A second approach, utilizing changes in the power spectrum of IAHP 'noise' during the decay of IAHP, was employed to yield an independent estimate of Imax as well as an estimate of the mean open-state duration of AHP channels. 3. Changes in the power spectrum during IAHP decay revealed that the mean channel open time is fixed at 6.9 +/- 0.5 ms and that the decay is due to changes in channel closed-state duration. The same analysis gave a value for Imax of 320 +/- 20 pA (n = 7). 4. Current-variance analysis suggests that channels responsible for generation of IAHP have a unitary current of 0.29 +/- 0.08 pA at -45 mV in 5 mM extracellular potassium and an Imax of 400 +/- 180 (n = 7). Thus, both methods indicate that about 1200 channels are available to generate IAHP in DG neurones and that about 60% are open at the peak of a maximal IAHP. 5. Computer simulations of IAHP currents in a model neurone show that dendritic current sources will result in an underestimation of i while Imax is underestimated to a lesser extent. Estimates of Imax obtained from power-spectrum analysis are more accurate and less affected by neuronal electrotonic structure than estimates of Imax based on current-variance analysis.
摘要
- 我们研究了与超极化后电流(IAHP)相关的宏观电流波动,该电流是在大鼠海马齿状颗粒(DG)神经元中,将电压钳制200毫秒至0毫伏后产生的。这种最大有效刺激产生的IAHP峰值为205±20皮安。通过使用全细胞单电极电压钳配置,将背景噪声降至最低。2. 对IAHP进行传统的电流方差分析,以获得单位AHP通道电流(i)和最大可达到的AHP电流(Imax)的估计值。采用第二种方法,利用IAHP衰减期间IAHP“噪声”功率谱的变化,来独立估计Imax以及AHP通道的平均开放状态持续时间。3. IAHP衰减期间功率谱的变化表明,通道平均开放时间固定为6.9±0.5毫秒,衰减是由于通道关闭状态持续时间的变化。相同分析得出Imax值为320±20皮安(n = 7)。4. 电流方差分析表明,在5毫摩尔细胞外钾浓度下,负责产生IAHP的通道在-45毫伏时的单位电流为0.29±0.08皮安,Imax为400±180(n = 7)。因此,两种方法均表明,约1200个通道可用于在DG神经元中产生IAHP,并且在最大IAHP峰值时约60%的通道处于开放状态。5. 模型神经元中IAHP电流的计算机模拟表明,树突状电流源会导致对i的低估,而对Imax的低估程度较小。与基于电流方差分析的Imax估计值相比,从功率谱分析获得的Imax估计值更准确,且受神经元电紧张结构的影响较小。
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