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短暂去极化电位对猫新皮层神经元放电频率的影响。

Effects of transient depolarizing potentials on the firing rate of cat neocortical neurons.

作者信息

Reyes A D, Fetz E E

机构信息

Department of Physiology and Biophysics, University of Washington, Seattle 98195.

出版信息

J Neurophysiol. 1993 May;69(5):1673-83. doi: 10.1152/jn.1993.69.5.1673.

DOI:10.1152/jn.1993.69.5.1673
PMID:8389835
Abstract
  1. The effects of excitatory postsynaptic potentials (EPSPs) on interspike intervals (ISIs) of neocortical neurons can be mimicked by pulse potentials (PPs) produced by current injection. The present report documents the dependence of the ISI shortening on the amplitudes of PPs and EPSPs and on the firing rate of the affected neuron. 2. In rhythmically firing necortical neurons, the ISI shortenings caused by PPs arriving at specific times in the ISI can be described by a shortening-delay (S-D) curve. The S-D curve yields three measures of the PPs' ability to shorten the ISI: 1) the mean ISI shortening, S; 2) the maximum shortening, Smax; and 3) the effective interval, defined as the portion of the ISI in which the PP consistently shortens the ISI. For PPs ranging between 80 microV and 3.6 mV (and cells firing at 25 imp/s), the mean shortening increased with amplitude h as S (ms) = 1.2*h (mV)1.24 (r = 0.94; P < 0.01). Smax increased linearly with amplitude as 4.9 ms/mV (r = 0.86, P < 0.01). The effective interval (as a percentage of the ISI) increased slightly with PP amplitude and had a mean value of 65 +/- 21% (mean +/- SD). 3. S-D curves obtained with stimulus-evoked EPSPs varied with EPSP amplitude in a manner similar to those of PPs. The relations obtained for stimulus-evoked EPSPs were not statistically different from those obtained for PPs in the same cells. 4. To determine the effect of firing rate. PPs were applied while neurons fired at frequencies ranging from 8 to 71 imp/s. Both S and Smax were approximately inversely proportional to the baseline firing rate (fo) and could be described as: S or Smax = kfo-m. The mean value of the exponent m (+/- SD) was 0.96 +/- 0.25 for S and 1.2 +/- 0.4 for Smax. These values were not statistically different from a value of 1 (1 group, 2-tailed t test). The effective interval did not vary significantly with firing rate. 5. The dependence of S on PP amplitude and baseline firing rate was incorporated into an expression for the average change in firing rate (delta f) produced by PPs occurring at rate fs: delta f = 0.03 h1.24 fs. The delta f increased with PP amplitude but did not vary significantly with the baseline firing rate. The values of delta f calculated from the S-D curves matched the values that were computed directly from the spike trains.(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
  1. 兴奋性突触后电位(EPSP)对新皮层神经元峰间期(ISI)的影响,可通过电流注入产生的脉冲电位(PP)来模拟。本报告记录了ISI缩短对PP和EPSP幅度以及受影响神经元放电频率的依赖性。2. 在有节律放电的新皮层神经元中,由在ISI特定时间到达的PP引起的ISI缩短,可用缩短延迟(S-D)曲线来描述。S-D曲线产生了三种衡量PP缩短ISI能力的指标:1)平均ISI缩短量,S;2)最大缩短量,Smax;3)有效间隔,定义为ISI中PP持续缩短ISI的部分。对于幅度在80微伏至3.6毫伏之间的PP(以及以25次/秒放电的细胞),平均缩短量随幅度h增加,S(毫秒)= 1.2×h(毫伏)^1.24(r = 0.94;P < 0.01)。Smax随幅度线性增加,为4.9毫秒/毫伏(r = 0.86,P < 0.01)。有效间隔(占ISI的百分比)随PP幅度略有增加,平均值为65±21%(平均值±标准差)。3. 由刺激诱发的EPSP获得的S-D曲线,随EPSP幅度变化的方式与PP相似。在同一细胞中,由刺激诱发的EPSP获得的关系与由PP获得的关系在统计学上无差异。4. 为确定放电频率的影响,在神经元以8至71次/秒的频率放电时施加PP。S和Smax均大致与基线放电频率(fo)成反比,可描述为:S或Smax = kfo^-m。指数m(±标准差)的平均值,S为0.96±0.25,Smax为1.2±0.4。这些值与1在统计学上无差异(1组,双侧t检验)。有效间隔随放电频率无显著变化。5. S对PP幅度和基线放电频率的依赖性,被纳入到由以频率fs出现的PP产生的放电频率平均变化(δf)的表达式中:δf = 0.03 h^1.24 fs。δf随PP幅度增加,但随基线放电频率无显著变化。根据S-D曲线计算出的δf值,与直接从脉冲序列计算出的值相符。(摘要截断于400字)

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