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皮质板和脑室区细胞对作为迁移刺激物的GABA的不同反应。

Differential response of cortical plate and ventricular zone cells to GABA as a migration stimulus.

作者信息

Behar T N, Schaffner A E, Scott C A, O'Connell C, Barker J L

机构信息

Laboratory of Neurophysiology, National Institute of Neurological Disorders and Stroke, National Institutes of Health, Bethesda, Maryland 20892, USA.

出版信息

J Neurosci. 1998 Aug 15;18(16):6378-87. doi: 10.1523/JNEUROSCI.18-16-06378.1998.

DOI:10.1523/JNEUROSCI.18-16-06378.1998
PMID:9698329
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6793175/
Abstract

A microdissection technique was used to separate differentiated cortical plate (cp) cells from immature ventricular zone cells (vz) in the rat embryonic cortex. The cp population contained >85% neurons (TUJ1(+)), whereas the vz population contained approximately 60% precursors (nestin+ only). The chemotropic response of each population was analyzed in vitro, using an established microchemotaxis assay. Micromolar GABA (1-5 microM) stimulated the motility of cp neurons expressing glutamic acid decarboxylase (GAD), the rate-limiting enzyme in GABA synthesis. In contrast, femtomolar GABA (500 fM) directed a subset of GAD- vz neurons to migrate. Thus, the two GABA concentrations evoked the motility of phenotypically distinct populations derived from different anatomical regions. Pertussis toxin (PTX) blocked GABA-induced migration, indicating that chemotropic signals involve G-protein activation. Depolarization by micromolar muscimol, elevated [K+]o, or micromolar glutamate arrested migration to GABA or GABA mimetics, indicating that migration is inhibited in the presence of excitatory stimuli. These results suggest that GABA, a single ligand, can promote motility via G-protein activation and arrest attractant-induced migration via GABAA receptor-mediated depolarization.

摘要

采用显微解剖技术从大鼠胚胎皮质中分离出分化的皮质板(cp)细胞和未成熟的脑室区(vz)细胞。cp细胞群中神经元(TUJ1(+))含量超过85%,而vz细胞群中前体细胞(仅nestin+)含量约为60%。使用已建立的微量趋化性分析方法在体外分析了每个细胞群的趋化反应。微摩尔浓度的GABA(1-5 microM)刺激表达谷氨酸脱羧酶(GAD,GABA合成中的限速酶)的cp神经元的运动。相比之下,飞摩尔浓度的GABA(500 fM)引导一部分GAD-vz神经元迁移。因此,这两种GABA浓度引发了源自不同解剖区域的表型不同的细胞群的运动。百日咳毒素(PTX)阻断了GABA诱导的迁移,表明趋化信号涉及G蛋白激活。微摩尔浓度的蝇蕈醇去极化、细胞外[K+]升高或微摩尔浓度的谷氨酸使向GABA或GABA模拟物的迁移停止,表明在存在兴奋性刺激时迁移受到抑制。这些结果表明,单一配体GABA可通过G蛋白激活促进运动,并通过GABAA受体介导的去极化阻止吸引剂诱导的迁移。

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