电场对豚鼠海马切片中颗粒细胞兴奋性的影响。
Influence of electric fields on the excitability of granule cells in guinea-pig hippocampal slices.
作者信息
Jefferys J G
出版信息
J Physiol. 1981;319:143-52. doi: 10.1113/jphysiol.1981.sp013897.
Abstract
- Monosynaptic evoked potentials were recorded from the granule cell layer of slices of guinea-pig hippocampus maintained in vitro. Current pulses of 25-250 msec duration were passed across the slices, between gross electrodes in the bathing liquid. 2. Polarizing current modified the excitability of the granule cells as judged by changes in their population discharge during postsynaptic responses. All durations of polarization had at least qualitatively similar effects. Conventional current from dendrites to cell bodies increased excitability (and vice versa). This is consistent with altered membrane potential of a spike trigger zone, at or close to the granule cell bodies, imposed by the fraction of polarizing current which flows intracellularly. 3. In some experiments polarization also affected the presynaptic volley and (hence?) the synaptic potential. When this occurred it was in the wrong sense to explain the concomitant changes in population spike. 4. Focal polarization, where currents were applied across the cell body layer between a small electrode on the mid or outer dendritic regions and a remote gross electrode, altered granule cell excitability in the same direction as in (2). Thus conventional current injected at the dendritic electrode increased excitability. 5. The smallest effect polarizing currents caused extracellular voltage gradients of 5-10 mV/mm, which is less than occurs in this tissue during synchronous activation of the neurons or during seizure activity. Therefore such field potentials could increased the synchrony of discharge of the granule cells.
摘要
- 从体外培养的豚鼠海马切片的颗粒细胞层记录单突触诱发电位。持续时间为25 - 250毫秒的电流脉冲通过切片,在浴液中的大电极之间施加。2. 极化电流通过突触后反应期间群体放电的变化来判断,改变了颗粒细胞的兴奋性。所有极化持续时间至少在定性上具有相似的效应。从树突到细胞体的传统电流增加了兴奋性(反之亦然)。这与由细胞内流动的极化电流部分施加在颗粒细胞体处或附近的峰触发区的膜电位改变一致。3. 在一些实验中,极化也影响突触前波幅以及(因此?)突触电位。当这种情况发生时,其方向无法解释群体峰电位的伴随变化。4. 局灶性极化,即电流在中间或外侧树突区域的小电极与远处的大电极之间通过细胞体层施加,与(2)中情况相同,改变了颗粒细胞的兴奋性。因此,在树突电极处注入的传统电流增加了兴奋性。5. 极化电流产生的最小效应导致细胞外电压梯度为5 - 10 mV/mm,这小于该组织在神经元同步激活或癫痫活动期间出现的电压梯度。因此,这种场电位可能会增加颗粒细胞放电的同步性。
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