癫痫冷冻损伤模型中生长抑素阳性中间神经元的发育变化

Developmental changes in somatostatin-positive interneurons in a freeze-lesion model of epilepsy.

作者信息

Patrick Saundra L, Connors Barry W, Landisman Carole E

机构信息

Department of Neuroscience Division of Biology and Medicine, Brown University Providence, RI 02912, USA.

出版信息

Epilepsy Res. 2006 Aug;70(2-3):161-71. doi: 10.1016/j.eplepsyres.2006.04.001. Epub 2006 Jun 5.

DOI:10.1016/j.eplepsyres.2006.04.001

PMID:16737797

Abstract

Somatostatin-expressing (SS) cells are inhibitory interneurons critical to the regulation of excitability in the cerebral cortex. It has been suggested in several animal models of epilepsy that the activity of these neurons reduces the occurrence and strength of epileptiform activity. The physiological properties of SS cells further support these hypotheses. Freeze lesions of neonatal rats serve as a model of human polymicrogyria, which is often characterized by severe seizures. Here we investigate the effects of neonatal freeze lesions on SS-expressing neurons by measuring their densities in control and lesioned hemispheres at two ages. We found that in late juveniles (P30-P32), SS-expressing neurons were depleted by 20% in areas adjacent to the freeze lesion, but at an earlier developmental age (P14-15), there was no significant loss. Since the deficit in SS-expressing neurons occurs well after the onset of epileptiform activity (P12-P18), we conclude that the death of these interneurons does not initiate hyperexcitability in this model.

摘要

表达生长抑素（SS）的细胞是抑制性中间神经元，对调节大脑皮质的兴奋性至关重要。在几种癫痫动物模型中，已有研究表明这些神经元的活动可减少癫痫样活动的发生和强度。SS细胞的生理特性进一步支持了这些假说。新生大鼠的冷冻损伤可作为人类多小脑回的模型，其通常以严重癫痫发作为特征。在此，我们通过测量两个年龄段对照半球和损伤半球中表达SS的神经元密度，来研究新生大鼠冷冻损伤对这些神经元的影响。我们发现，在幼年晚期（P30 - P32），冷冻损伤区域附近表达SS的神经元数量减少了20%，但在更早的发育阶段（P14 - 15），则没有显著损失。由于表达SS的神经元数量减少发生在癫痫样活动开始（P12 - P18）之后，我们得出结论，在该模型中这些中间神经元的死亡不会引发过度兴奋。

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癫痫冷冻损伤模型中生长抑素阳性中间神经元的发育变化

Developmental changes in somatostatin-positive interneurons in a freeze-lesion model of epilepsy.

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