培养的大鼠海马神经元中单通道电导的分布
Distribution of single-channel conductances in cultured rat hippocampal neurons.
作者信息
Masukawa L M, Hansen A J, Shepherd G
机构信息
Section of Neuroanatomy, Yale University Medical School, New Haven, Connecticut 06510.
出版信息
Cell Mol Neurobiol. 1991 Apr;11(2):231-43. doi: 10.1007/BF00769036.
Abstract
- The nonhomogeneous spatial distribution of ionic channels in neurons has been implied from intracellular recordings at somatic and dendritic locations. These reports indicate that Na- and Ca-dependent regenerative currents are distributed differently throughout the neuron. Although a variety of K conductances and a noninactivating Na conductance have been described in intracellular studies, little is known about the spatial distribution of inward and outward currents throughout different regions of the neuron. 2. We recorded from cell-attached patches from cultured hippocampal cells from 1-day-old rats. The cells were cultured for 3-21 days. The spatial distribution of a variety of ionic channels was determined by comparing the conductances from somatic and dendritic membranes. Single-channel currents obtained from cell-attached patches were identified by the time course of ensemble (averaged) responses, voltage dependence, and the effect of channel blocking agents. 3. We consistently observed that only the rapidly inactivating inward current was localized to the soma. The other channel types that we studied, including an inward noninactivating, delayed rectifier and transient A-type currents, were observed in both the somatic and dendritic regions. 4. We suggest that the distribution of ionic conductances that we have observed may be functional in limiting excitability during development of neurons.
摘要
- 神经元中离子通道的非均匀空间分布已从体细胞和树突部位的细胞内记录中得到暗示。这些报告表明,钠依赖性和钙依赖性再生电流在整个神经元中的分布不同。尽管在细胞内研究中已经描述了多种钾电导和一种非失活钠电导,但对于内向和外向电流在神经元不同区域的空间分布知之甚少。2. 我们从1日龄大鼠的培养海马细胞的细胞贴附式膜片上进行记录。细胞培养3 - 21天。通过比较体细胞和树突膜的电导来确定多种离子通道的空间分布。从细胞贴附式膜片获得的单通道电流通过整体(平均)反应的时间进程、电压依赖性以及通道阻断剂的作用来识别。3. 我们始终观察到,只有快速失活的内向电流局限于体细胞。我们研究的其他通道类型,包括内向非失活、延迟整流和瞬时A 型电流,在体细胞和树突区域均有观察到。4. 我们认为,我们观察到的离子电导分布可能在限制神经元发育过程中的兴奋性方面具有功能作用。
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