从成年大鼠急性分离的神经分泌细胞向外电流的表征。

L G Aguayo
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引用次数: 0

摘要

神经分泌细胞的激素释放似乎部分受到离子电流的调节。由于乙醇被证明可以改变培养松果体中褪黑激素的释放,因此使用全细胞膜片钳技术表征了松果体细胞中存在的离子电流。在标准溶液中观察到的宏观离子电流主要由外向电流组成。在没有添加外部Ca2+的溶液中研究这种外向成分揭示了两种不同的外向电流的存在。保持电位为-100 mV的去极化命令电压激活了一个快速的向外电流,该电流在20 ms内达到峰值,并在约150 ms内完全衰减。从- 50mv保持电位隔离的第二向外电流,激活电位为- 20mv。在2 mM外部Ca2+存在的情况下,I-V关系没有显示出负斜率电导区域,这表明Ca2+激活的K+电流对外向电流没有显著贡献。当这两个向外的成分被消除时,观察到一个小的Ca2+向内电流。这些结果表明,急性解离的松果体细胞表现出两种不同的K+外向电流:(i)类似于a电流(IA)的瞬态电流;(ii)缓慢激活的持续电流,类似于延迟整流器(IK)。因此,表征松果体细胞中的离子电流是重要的,因为它们可能是急性和慢性乙醇作用的目标。
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Characterization of outward currents in a neurosecretory cell acutely isolated from the adult rat.

Hormonal release from neurosecretory cells appears to be regulated in part by ionic currents. Because ethanol was shown to alter the release of melatonin from the cultured pineal gland, the ionic currents present in pineal cells were characterized using the whole-cell patch clamp technique. The macroscopic ionic current observed in standard solutions was dominated by an outward current component. Study of this outward component in a solution without added external Ca2+ revealed the existence of two distinct outward currents. Depolarizing command voltages from a holding potential of -100 mV activated a fast outward current which reached a peak within 20 ms and completely decayed in about 150 ms. The second outward current isolated from a holding potential of -50 mV activated at potentials positive to -20 mV. In the presence of 2 mM external Ca2+ the I-V relationship did not display a region of negative slope conductance suggesting that Ca2+-activated K+ current did not contribute significantly to the outward current. A small Ca2+ inward current was observed when these two outward components were eliminated. These results indicate that acutely dissociated pineal cells display two distinct K+ outward currents: (i) a transient current similar to the A current (IA); and (ii) a slowly activating, sustained current similar to the delayed rectifier (IK). Thus, the characterization of ionic currents in the pineal cell is of importance because they may be a target for acute and chronic ethanol actions.

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