大鼠胚胎脊髓运动神经元轴突中钠通道的特异性分布。
Specific distribution of sodium channels in axons of rat embryo spinal motoneurones.
作者信息
Alessandri-Haber N, Paillart C, Arsac C, Gola M, Couraud F, Crest M
机构信息
Laboratoire de Neurobiologie, CNRS UPR 9024, 31 Chemin Joseph Aiguier, 13402 Marseille Cedex 20, France.
出版信息
J Physiol. 1999 Jul 1;518(Pt 1):203-14. doi: 10.1111/j.1469-7793.1999.0203r.x.
Abstract
- The distribution of Na+ channels and development of excitability were investigated in vitro in purified spinal motoneurones obtained from rat embryos at E14, using electrophysiological, immunocytochemical and autoradiographical methods. 2. One hour after plating the motoneurones (DIV0), only somas were present. They expressed a robust delayed rectifier K+ current (IDR) and a fast-inactivating A-type K+ current (IA). The rapid neuritic outgrowth was paralleled by the emergence of a fast-activating TTX-sensitive sodium current (INa), and by an increase in both K+ currents. 3. The change in the three currents was measured daily, up to DIV8. The large increase in INa observed after DIV2 was accompanied by the onset of excitability. Spontaneous activity was observed as from DIV6. 4. The occurrence of axonal differentiation was confirmed by the fact that (i) only one neurite per motoneurone generated antidromic action potentials; and (ii) 125I-alpha-scorpion toxin binding, a specific marker of Na+ channels, labelled only one neurite and the greatest density was observed in the initial segment. Na+ channels therefore selectively targeted the axon and were absent from the dendrites and somas. 5. The specific distribution of Na+ channels was detectable as soon as the neurites began to grow. When the neuritic outgrowth was blocked by nocodazole, no INa developed. 6. It was concluded that, in spinal embryonic motoneurone in cell culture, Na+ channels, the expression of which starts with neuritic differentiation, are selectively addressed to the axonal process, whereas K+ channels are present in the soma prior to the neuritic outgrowth.
摘要
- 运用电生理、免疫细胞化学和放射自显影方法,在体外对取自E14大鼠胚胎的纯化脊髓运动神经元中钠通道的分布及兴奋性的发育进行了研究。2. 在接种运动神经元1小时后(培养第0天,DIV0),仅存在胞体。它们表达出强劲的延迟整流钾电流(IDR)和快速失活的A型钾电流(IA)。快速的神经突生长伴随着快速激活的河豚毒素敏感钠电流(INa)的出现以及两种钾电流的增加。3. 每天测量这三种电流的变化,直至培养第8天。培养第2天后观察到的INa大幅增加伴随着兴奋性的开始。从培养第6天开始观察到自发活动。4. 轴突分化的发生通过以下事实得到证实:(i)每个运动神经元仅一根神经突产生逆向动作电位;(ii)125I-α-蝎毒素结合,钠通道的一种特异性标志物,仅标记一根神经突,且在起始段观察到最大密度。因此,钠通道选择性地靶向轴突,而树突和胞体中不存在。5. 一旦神经突开始生长,钠通道的特异性分布就可被检测到。当用诺考达唑阻断神经突生长时,未发育出INa。6. 得出的结论是,在细胞培养的脊髓胚胎运动神经元中,钠通道的表达始于神经突分化,其选择性地定位于轴突过程,而钾通道在神经突生长之前就存在于胞体中。
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1
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J Cell Biol. 1998 Nov 30;143(5):1295-304. doi: 10.1083/jcb.143.5.1295.
2
Calcium channel subtypes responsible for voltage-gated intracellular calcium elevations in embryonic rat motoneurons.负责胚胎大鼠运动神经元中电压门控性细胞内钙升高的钙通道亚型。
Neuroscience. 1998 Dec;87(3):719-30. doi: 10.1016/s0306-4522(98)00165-1.
3
Uneven distribution of K+ channels in soma, axon and dendrites of rat spinal neurones: functional role of the soma in generation of action potentials.大鼠脊髓神经元胞体、轴突和树突中钾离子通道的分布不均:胞体在动作电位产生中的功能作用。
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4
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6
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7
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8
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10
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