树突周围钙波动的计算特性

Computational properties of peri-dendritic calcium fluctuations.

作者信息

Egelman D M, Montague P R

机构信息

Division of Neuroscience, Center for Theoretical Neuroscience, Baylor College of Medicine, Houston, Texas 77030, USA.

出版信息

J Neurosci. 1998 Nov 1;18(21):8580-9. doi: 10.1523/JNEUROSCI.18-21-08580.1998.

DOI:10.1523/JNEUROSCI.18-21-08580.1998

PMID:9786966

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6793539/

Abstract

Using a model of the extracellular space, we show how external calcium fluctuations, engendered during normal neural activity, can act as a rapid information-bearing signal in nervous systems. We demonstrate that action potentials propagating along a dendrite can induce large peri-dendritic calcium fluctuations, lowering significantly the external calcium available to overlying presynaptic terminals. The geometrical distribution of active calcium sinks critically influences the time and spatial extent of fluctuations in external calcium. In particular, clusters of coactive dendrites can prolong and amplify an external calcium fluctuation. This latter effect provides a natural substrate for a computational mechanism that locates specific volumes of neural tissue on rapid time scales. Such an interpretation suggests that the detailed structure of the extracellular space, in combination with the three-dimensional distribution of active calcium sinks, may play a role in neural information processing.

摘要

利用细胞外空间模型，我们展示了正常神经活动期间产生的外部钙波动如何在神经系统中作为一种快速携带信息的信号。我们证明，沿树突传播的动作电位可诱导树突周围出现大幅钙波动，显著降低覆盖其上的突触前终末可利用的外部钙水平。活性钙汇的几何分布对外部钙波动的时间和空间范围有至关重要的影响。特别是，共同激活的树突簇可延长并放大外部钙波动。后一种效应为一种计算机制提供了天然基础，该机制能在快速时间尺度上定位神经组织的特定区域。这种解释表明，细胞外空间的详细结构与活性钙汇的三维分布相结合，可能在神经信息处理中发挥作用。

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