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大鼠齿状回的异位颗粒细胞。

Ectopic granule cells of the rat dentate gyrus.

作者信息

Scharfman Helen, Goodman Jeffrey, McCloskey Daniel

机构信息

Department of Pharmacology, Columbia University, New York, NY, USA.

出版信息

Dev Neurosci. 2007;29(1-2):14-27. doi: 10.1159/000096208.

DOI:10.1159/000096208
PMID:17148946
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1934347/
Abstract

Granule cells of the mammalian dentate gyrus normally form a discrete layer, and virtually all granule cells migrate to this location. Exceptional granule cells that are positioned incorrectly, in 'ectopic' locations, are rare. Although the characteristics of such ectopic granule cells appear similar in many respects to granule cells located in the granule cell layer, their rare occurrence has limited a full evaluation of their structure and function. More information about ectopic granule cells has been obtained by studying those that develop after experimental manipulations that increase their number. For example, after severe seizures, the number of ectopic granule cells located in the hilus increases dramatically. These experimentally-induced ectopic granule cells may not be equivalent to normal ectopic granule cells necessarily, but the vastly increased numbers have allowed much more information to be obtained. Remarkably, the granule cells that are positioned ectopically develop intrinsic properties and an axonal projection that are similar to granule cells that are located normally, i.e., in the granule cell layer. However, dendritic structure and synaptic structure/function appear to differ. These studies have provided new insight into a rare type of granule cell in the dentate gyrus, and the plastic characteristics of dentate granule cells that appear to depend on the location of the cell body.

摘要

哺乳动物齿状回的颗粒细胞通常形成一个离散的层,并且几乎所有颗粒细胞都会迁移到这个位置。位于“异位”位置的异常颗粒细胞很少见。尽管这些异位颗粒细胞的特征在许多方面似乎与位于颗粒细胞层的颗粒细胞相似,但它们的罕见性限制了对其结构和功能的全面评估。通过研究那些在增加其数量的实验操作后发育的异位颗粒细胞,已经获得了更多关于它们的信息。例如,在严重癫痫发作后,位于门区的异位颗粒细胞数量会急剧增加。这些实验诱导的异位颗粒细胞不一定等同于正常的异位颗粒细胞,但数量的大幅增加使得能够获得更多信息。值得注意的是,异位定位的颗粒细胞发展出与正常位于颗粒细胞层的颗粒细胞相似的内在特性和轴突投射。然而,树突结构和突触结构/功能似乎有所不同。这些研究为齿状回中一种罕见类型的颗粒细胞以及似乎取决于细胞体位置的齿状颗粒细胞的可塑性特征提供了新的见解。

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