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| 机械分离的果蝇幼虫中枢神经元全细胞钾电流的特性 | |
| 作者姓名: | Xu TX Lu H Wang Q Wu LJ Liu J Zhou Z Xu TL |
| 作者单位: | 1. 中国科学技术大学生命科学学院神经生物学和生物物理学系,合肥,230027;青岛大学医学院药理教研室,青岛,266021 2. 中国科学技术大学生命科学学院神经生物学和生物物理学系,合肥,230027 3. 中国协和医科大学阜外医院麻醉及体外循环实验室,北京,100037 4. 中国科学院上海神经科学研究所,上海,200031 |
| 基金项目: | ThisworkwassupportedbytheNationalNaturalScienceFoundationofChina (No30125015),agrantforOutstandingYoungResearchersfromtheMinistryofEducationofChinaandNationalBasicResearchProgram(G19990 5 40 0 0 )toT L Xu . |
| 摘 要: | 培养的果蝇胚胎及幼虫中枢神经元已被广泛用于细胞膜离子通道,突触传递和胞内信使调节等电生理学研究,在本实验中,利用机械震荡分离方法获得了大量的果蝇幼虫中枢神经元,其中大部分为Ⅱ型神经元,运用膜片钳技术,鉴定了Ⅱ型神经元上五种具有不同动力学特性的全细胞钾电流,其中E型电流表型表现出与其它四种电流完全不同的“钟形”激活特性,进一步的研究还表明该类型电流具有明显的钙依赖性,而且它具有与其它四种电流不同的衰减特性。 |
| 关 键 词: | 机械分离 果蝇幼虫 中枢神经元 全细胞钾电流 Ⅱ型神经元 |
| 修稿时间: | 2002年3月14日 |
Properties of whole-cell potassium currents in mechanically dissociated Drosophila larval central neurons |
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| Xu TX,Lu H,Wang Q,Wu LJ,Liu J,Zhou Z,Xu TL.Properties of whole-cell potassium currents in mechanically dissociated Drosophila larval central neurons[J].Acta Physiologica Sinica,2002,54(5):411-416. | |
| Authors: | Xu Tai-Xiang Lu Hui Wang Qiang Wu Long-Jun Liu Jin Zhou Zhuan Xu Tian-Le |
| Institution: | Department of Neurobiology Biophysics, School of Life Sciences, University of Science and Technology of China, Hefei, China. |
| Abstract: | By electrophysiological methods, cultured Drosophila embryonic and larval central neurons have been widely used to study ion channels, neurotransmitter release and intracellular message regulation. Voltage-activated K(+) channels play a crucial role in repolarizing the membrane following action potentials, stabilizing membrane potentials and shaping firing patterns of cells. In this study, a mechanical vibration-isolation system was used to produce a sufficient number of acutely dissociated larval central neurons, of which the majority were type II neurons (2~5 microm in diameter). Using patch clamp technique, the whole-cell K(+) currents in type II neurons were characterized by containing a transient 4-AP-sensitive current (I(A)) and a more slowly inactivating, TEA-sensitive component (I(K)). According to their kinetic properties, five types of whole-cell K(+) currents were identified. Type A current exhibited primarily fast transient K(+) currents that activated and inactivated rapidly. The majority of the neurons, however, slowly inactivated K(+) currents with variable inactivation time course (type B current). Type C current, being present in a small number of the cells, was mainly composed of noninactivating components. Some of the neurons expressed both transient and slow inactivating components, but the slowly inactivating components could reach more than 50% of the peak current (type D current). Type E current showed distinct voltage-dependent activation properties, characterized by its bell-shaped activation curve. Type E current was inhibited by application of Ca(2+)-free solution or 0.1 mmol/L Cd(2+). Moreover, this novel current ran down much more rapidly than other types. These results indicate that different K(+) channels, which have different kinetic and pharmacological properties, underlie the whole-cell K(+) currents in type II neurons of Drosophila larval central nervous system. |
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