Na+ - K+泵产生的超极化在交感神经元跨突触诱导RNA合成中的作用。

Journal de physiologie Pub Date : 1988-01-01
V Gisiger
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引用次数: 0

摘要

1. 在培养的大鼠颈上神经节中,研究了激活烟碱受体修饰RNA合成的机制。采用[5-3H]尿苷标记RNA,筛选不同离子环境和改变Na+通道对刺激诱导的神经节RNA合成三种变化序列的影响,即a)刺激初期减少,b)刺激后期增加,c)刺激结束后再次增加。这些连续的变化是通过神经节前神经的重复兴奋或在神经节上应用乙酰胆碱或氨基酚而获得的。2. 当培养基中KCl浓度增加至37 mM或以Tris或蔗糖代替NaCl时,乙酰胆碱或氨基丁醇介导的RNA合成的这三种变化都没有发生。这证实了先前的迹象,即活性诱导的变化序列是由尼古丁激活介导的跨膜离子通量引发的,而不是由去极化本身引起的。3.将乌头碱作用于静息神经节1小时,其减少RNA合成的程度与节前刺激1小时或乙酰胆碱刺激1小时的程度相同。同时施用河豚毒素(TTX)可以防止这种效应,TTX也可以恢复碳醇修饰RNA合成的能力。这表明最初RNA合成的减少是由[Na+]i的增加引起的,这似乎直接干扰了转录过程。4. 用SO4-替代培养基中的Cl-可选择性抑制突触激活后期RNA合成的增加。另一方面,通过用LiCl取代NaCl来阻止Na+的电挤压后超极化的产生,可以选择性地抑制刺激后的增加。这表明在刺激期间和刺激后RNA合成的增加是由不同的离子事件触发的。5. 通过在静止条件下培养神经节,在Na(+)- k -泵激活产生超极化的条件下,即低外源KCl以及在乌头碱处理后应用TTX,获得了RNA合成的诱导,而没有先前激活尼古丁受体。然而,在这些情况下,与尼古丁激活结束后观察到的相比,RNA合成的增加延迟了约2小时。(摘要删节为400字)
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Role of hyperpolarization generated by the Na+ - K+ pump in the trans-synaptic induction of RNA synthesis in sympathetic neurons.

1. The mechanism which enables activation of the nicotinic receptors to modify the synthesis of RNA was investigated in the incubated superior cervical ganglion of the rat. RNA labelling with [5-3H] uridine was used in order to screen the effects of varying the ionic environment and altering Na+ channels on the sequence of the three changes in ganglionic RNA synthesis induced by stimulation, i.e. a) an initial decrease, b) an increase during the late stages of stimulation, c) another increase taking place after the end of stimulation. These successive variations were obtained by either repetitive excitation of the preganglionic nerve, or application of ACh or carbachol to the ganglion. 2. The three changes in RNA synthesis mediated by ACh or carbachol were prevented when the KCl concentration of the medium was increased up to 37 mM or when NaCl of the medium was replaced with Tris or sucrose. This confirmed previous indications that the sequence of activity-induced changes is initiated by the transmembrane ionic fluxes mediated by nicotinic activation and not by depolarization per se. 3. Application of aconitine to resting ganglia for 1 h decreased the RNA synthesis to the same extent as a 1 h preganglionic or ACh stimulation. This effect was prevented by a concomitant application of tetrodotoxin (TTX) which also restored the ability of carbachol to modify RNA synthesis. This suggested that the initial decrease in RNA synthesis is caused by the increase in [Na+]i which seems to interfere directly with the transcription process. 4. The increase of RNA synthesis occurring during the late stages of synaptic activation was selectively inhibited by replacing Cl- of the medium with SO4-. On the other hand, the post-stimulation increase was selectively inhibited when the generation of after-hyperpolarization resulting from the electrogenic extrusion of Na+ was prevented by substituting LiCl for NaCl. This indicated that increases in RNA synthesis during and after the stimulation are triggered by different ionic events. 5. An induction of RNA synthesis was obtained, without previous activation of the nicotinic receptors, by incubating the ganglia at rest in conditions which entail the generation of an hyperpolarization resulting from the activation of the Na(+)-K- pump, i.e. low external KCl as well as application of TTX following an aconitine treatment. However, in these cases, the increase in RNA synthesis was delayed by about 2 h as compared to that observed after the end of nicotinic activation.(ABSTRACT TRUNCATED AT 400 WORDS)

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