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Kv3.1钾通道对小鼠听觉神经元高频放电的作用。

Contribution of the Kv3.1 potassium channel to high-frequency firing in mouse auditory neurones.

作者信息

Wang L Y, Gan L, Forsythe I D, Kaczmarek L K

机构信息

Departments of Pharmacology, Cellular and Molecular Physiology, Yale University School of Medicine, 333 Cedar Street, New Haven, CT 06510, USA.

出版信息

J Physiol. 1998 May 15;509 ( Pt 1)(Pt 1):183-94. doi: 10.1111/j.1469-7793.1998.183bo.x.

DOI:10.1111/j.1469-7793.1998.183bo.x
PMID:9547392
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2230948/
Abstract
  1. Using a combination of patch-clamp, in situ hybridization and computer simulation techniques, we have analysed the contribution of potassium channels to the ability of a subset of mouse auditory neurones to fire at high frequencies. 2. Voltage-clamp recordings from the principal neurones of the medial nucleus of the trapezoid body (MNTB) revealed a low-threshold dendrotoxin (DTX)-sensitive current (ILT) and a high-threshold DTX-insensitive current (IHT). 3. IHT displayed rapid activation and deactivation kinetics, and was selectively blocked by a low concentration of tetraethylammonium (TEA; 1 mM). 4. The physiological and pharmacological properties of IHT very closely matched those of the Shaw family potassium channel Kv3.1 stably expressed in a CHO cell line. 5. An mRNA probe corresponding to the C-terminus of the Kv3.1 channel strongly labelled MNTB neurones, suggesting that this channel is expressed in these neurones. 6. TEA did not alter the ability of MNTB neurones to follow stimulation up to 200 Hz, but specifically reduced their ability to follow higher frequency impulses. 7. A computer simulation, using a model cell in which an outward current with the kinetics and voltage dependence of the Kv3.1 channel was incorporated, also confirmed that the Kv3.1- like current is essential for cells to respond to a sustained train of high-frequency stimuli. 8. We conclude that in mouse MNTB neurones the Kv3.1 channel contributes to the ability of these cells to lock their firing to high-frequency inputs.
摘要
  1. 运用膜片钳、原位杂交和计算机模拟技术相结合的方法,我们分析了钾通道对一部分小鼠听觉神经元高频放电能力的贡献。2. 来自梯形体内侧核(MNTB)主要神经元的电压钳记录显示出一种低阈值的对树突毒素(DTX)敏感的电流(ILT)和一种高阈值的对DTX不敏感的电流(IHT)。3. IHT表现出快速的激活和失活动力学,并且被低浓度的四乙铵(TEA;1 mM)选择性阻断。4. IHT的生理和药理特性与在CHO细胞系中稳定表达的Shaw家族钾通道Kv3.1非常匹配。5. 与Kv3.1通道C末端相对应的mRNA探针强烈标记了MNTB神经元,表明该通道在这些神经元中表达。6. TEA并不改变MNTB神经元跟随高达200 Hz刺激的能力,但特异性地降低了它们跟随更高频率冲动的能力。7. 利用一个模型细胞进行的计算机模拟,该模型细胞中纳入了具有Kv3.1通道动力学和电压依赖性的外向电流,也证实了类似Kv3.1的电流对于细胞对持续高频刺激序列做出反应至关重要。8. 我们得出结论,在小鼠MNTB神经元中,Kv3.1通道有助于这些细胞将其放电锁定到高频输入的能力。

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