培养的小脑颗粒细胞中钠通道的差异靶向与功能特化

Differential targeting and functional specialization of sodium channels in cultured cerebellar granule cells.

作者信息

Osorio Nancy, Alcaraz Gisèle, Padilla Françoise, Couraud François, Delmas Patrick, Crest Marcel

机构信息

Laboratoire de Neurophysiologie Cellulaire, CNRS UMR 6150, IFR Jean Roche, Faculté de Médecine, Boulevard Pierre Dramard, 13916, Marseille Cedex 20, France.

出版信息

J Physiol. 2005 Dec 15;569(Pt 3):801-16. doi: 10.1113/jphysiol.2005.097022. Epub 2005 Oct 6.

DOI:10.1113/jphysiol.2005.097022

PMID:16210352

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1464263/

Abstract

The ion channel dynamics that underlie the complex firing patterns of cerebellar granule (CG) cells are still largely unknown. Here, we have characterized the subcellular localization and functional properties of Na+ channels that regulate the excitability of CG cells in culture. As evidenced by RT-PCR and immunocytochemical analysis, morphologically differentiated CG cells expressed Nav1.2 and Nav1.6, though both subunits appeared to be differentially regulated. Nav1.2 was localized at most axon initial segments (AIS) of CG cells from 8 days in vitro DIV 8 to DIV 15. At DIV 8, Nav1.6 was found uniformly throughout somata, dendrites and axons with occasional clustering in a subset of AIS. Accumulation of Nav1.6 at most AIS was evident by DIV 13-14, suggesting it is developmentally regulated at AIS. The specific contribution of these differentially distributed Na+ channels has been assessed using a combination of methods that allowed discrimination between functionally compartmentalized Na+ currents. In agreement with immunolocalization, we found that fast activating-fully inactivating Na+ currents predominate at the AIS membrane and in the somatic plasma membrane.

摘要

构成小脑颗粒（CG）细胞复杂放电模式基础的离子通道动力学在很大程度上仍不清楚。在此，我们已对调节培养中CG细胞兴奋性的Na⁺通道的亚细胞定位和功能特性进行了表征。逆转录聚合酶链反应（RT-PCR）和免疫细胞化学分析表明，形态学上分化的CG细胞表达Nav1.2和Nav1.6，尽管这两个亚基似乎受到不同的调节。从体外培养8天（DIV 8）到DIV 15，Nav1.2定位于大多数CG细胞的轴突起始段（AIS）。在DIV 8时，Nav1.6在整个胞体、树突和轴突中均匀分布，偶尔在一部分AIS中聚集。到DIV 13 - 14时，Nav1.6在大多数AIS处的积累明显，表明它在AIS处受到发育调控。这些分布不同的Na⁺通道的具体作用已通过多种方法进行评估，这些方法能够区分功能上分隔的Na⁺电流。与免疫定位一致，我们发现快速激活 - 完全失活的Na⁺电流在AIS膜和胞体质膜中占主导地位。

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