大鼠背根神经节培养神经元中的钙激活电流。
Calcium-activated currents in cultured neurones from rat dorsal root ganglia.
作者信息
Currie K P, Scott R H
机构信息
Department of Physiology, St. George's Hospital Medical School, London.
出版信息
Br J Pharmacol. 1992 Jul;106(3):593-602. doi: 10.1111/j.1476-5381.1992.tb14381.x.
Abstract
- Voltage-activated Ca2+ currents and caffeine (1 to 10 mM) were used to increase intracellular Ca2+ in rat cultured dorsal root ganglia (DRG) neurones. Elevation of intracellular Ca2+ resulted in activation of inward currents which were attenuated by increasing the Ca2+ buffering capacity of cells by raising the concentration of EGTA in the patch solution to 10 mM. Low and high voltage-activated Ca2+ currents gave rise to Cl- tail currents in cells loaded with CsCl patch solution. Outward Ca2+ channel currents activated at very depolarized potentials (Vc + 60 mV to + 100 mV) also activated Cl- tail currents, which were enhanced when extracellular Ca2+ was elevated from 2 mM to 4 mM. 2. The Ca(2+)-activated Cl- tail currents were identified by estimation of tail current reversal potential by use of a double pulse protocol and by sensitivity to the Cl- channel blocker 5-nitro 2-(3-phenyl-propylamino) benzoic acid (NPPB) applied at a concentration of 10 microM. 3. Cells loaded with Cs acetate patch solution and bathed in medium containing 4 mM Ca2+ also had prolonged Ca(2+)-dependent tail currents, however these smaller tail currents were insensitive to NPPB. Release of Ca2+ from intracellular stores by caffeine gave rise to sustained inward currents in cells loaded with Cs acetate. Both Ca(2+)-activated tail currents and caffeine-induced inward currents recorded from cells loaded with Cs acetate were attenuated by Tris based recording media, and had reversal potentials positive to 0 mV suggesting activity of Ca(2+)-activated cation channels.4. Our data may reflect (a) different degrees of association between Ca2+-activated channels with voltage-gated Ca2+ channels, (b) distinct relationships between channels and intracellular Ca2" stores and Ca2+ homeostatic mechanisms, (c) regulation of Ca2+-activated channels by second messengers, and (d) varying channel sensitivity to Ca2 , in the cell body of DRG neurones.
摘要
- 利用电压激活的Ca2+电流和咖啡因(1至10 mM)来增加大鼠培养的背根神经节(DRG)神经元内的Ca2+。细胞内Ca2+的升高导致内向电流的激活,通过将膜片钳溶液中EGTA的浓度提高到10 mM来增加细胞的Ca2+缓冲能力,可使该内向电流减弱。在加载CsCl膜片钳溶液的细胞中,低电压和高电压激活的Ca2+电流会产生Cl-尾电流。在非常去极化的电位(Vc + 60 mV至+ 100 mV)激活的外向Ca2+通道电流也会激活Cl-尾电流,当细胞外Ca2+从2 mM升高到4 mM时,该电流增强。2. 通过使用双脉冲协议估计尾电流反转电位以及对浓度为10 microM的Cl-通道阻滞剂5-硝基-2-(3-苯基丙基氨基)苯甲酸(NPPB)的敏感性,来识别Ca(2+)-激活的Cl-尾电流。3. 加载Cs醋酸盐膜片钳溶液并浸泡在含有4 mM Ca2+的培养基中的细胞也有延长的Ca(2+)-依赖性尾电流,然而这些较小的尾电流对NPPB不敏感。咖啡因从细胞内储存中释放Ca2+会在加载Cs醋酸盐的细胞中产生持续的内向电流。从加载Cs醋酸盐的细胞中记录的Ca(2+)-激活尾电流和咖啡因诱导的内向电流均被基于Tris的记录介质减弱,并且反转电位正向于0 mV,表明存在Ca(2+)-激活的阳离子通道活性。4. 我们的数据可能反映了(a)Ca2+激活通道与电压门控Ca2+通道之间不同程度的关联,(b)通道与细胞内Ca2"储存和Ca2+稳态机制之间的不同关系,(c)第二信使对Ca2+激活通道的调节,以及(d)DRG神经元细胞体中通道对Ca2的不同敏感性。
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