γ-氨基丁酸从交感神经胶质细胞的流出：“去极化”剂的作用

gamma-Aminobutyric acid efflux from sympathetic glial cells: effect of 'depolarizing' agents.

作者信息

Bowery N G, Brown D A, Marsh S

出版信息

J Physiol. 1979 Aug;293:75-101. doi: 10.1113/jphysiol.1979.sp012879.

DOI:10.1113/jphysiol.1979.sp012879

PMID:501652

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1280703/

Abstract

Isolated desheathed rat superior cervical ganglia were incubated in [3H]2,3,-gamma-aminobutyric acid ([3H]GABA) solution (1--10 microM for 2--3 hr) in the presence of 10 microM-amino-oxyacetic acid (AOAA). The subsequent efflux of tritium into a stream of superfused non-radioactive GABA-free Krebs solution at 25 degrees C was measured. 2. In the presence of 10 micrometer-AOAA the mean basal efflux rate coefficient (k0) for exit of tritium into the superfusion fluid was 0.7 x 10(-3) min-1. More than 98% of effluent tritium comprised unchanged [3H]GABA. The rate coefficient showed no correlation with the amount of [3H]GABA previously accumulated by the ganglion. 3. Elevation of [K+]o to greater than 50 mM increased the rate coefficient for [3H]GABA release by up to four times. Changes in efflux rate were not correlated with osmotic changes, and persisted after re-accumulation of effluent [3H]GABA by the inward carrier was inhibited. The effect of alkali metal cations diminished in the order Rb+ greater than K+ greater than Cs+Li+. Effects of K+ solutions were not reduced by omitting Ca2+ ions, with or without the addition of Mg2+. 4. Application of electrical pulses (0.1--1 msec duration, 1--10 Hz, 4 min trains) to the ganglion soma or to the preganglionic nerve trunk also raised k0. This effect declined with repeated stimulus trains, without an accompanying diminution in the response to K+. Responses to electrical stimulation were not reduced by amethocaine (300 microM), tetrodotoxin (3 microM) or raised [Mg2+i1 (0 mM-[Ca2+]/30 mM-[Mg3+]). Separate local superfusion of the pre- and post-ganglionic nerve trunks and of the ganglion soma showed that the response to electrical stimulation was localized to the vicinity of the stimulus and was not propagated along the nerve trunks or across the synapses. 5. Electrical recording from impaled 'inexcitable' cells (presumed to be neuroglial cells (Appendix)) indicated that the quantities of K+ ion accumulating during repetitive nerve stimulation are insufficient to stimulate the release of GABA from the glial cells. No physiological role for the release process in modulating neuronal excitability could be adduced.

摘要

将分离并剥除鞘膜的大鼠颈上神经节置于含有10微摩尔氨基氧乙酸（AOAA）的[3H]2,3 -γ-氨基丁酸（[3H]GABA）溶液（1 - 10微摩尔，孵育2 - 3小时）中。随后测量在25℃下氚向无放射性且不含GABA的 Krebs 灌流液中的流出量。
在存在10微摩尔AOAA的情况下，氚向灌流液中流出的平均基础流出速率系数（k0）为0.7×10⁻³分钟⁻¹。超过98%的流出氚由未变化的[3H]GABA组成。该速率系数与神经节先前积累的[3H]GABA量无关。
将细胞外钾离子浓度（[K⁺]o）升高至大于50毫摩尔可使[3H]GABA释放的速率系数增加多达四倍。流出速率的变化与渗透压变化无关，并且在通过内向载体重新积累流出的[3H]GABA受到抑制后仍然持续。碱金属阳离子的作用按Rb⁺＞K⁺＞Cs⁺＞Li⁺的顺序减弱。无论是否添加镁离子，去除钙离子都不会降低钾离子溶液的作用。
向神经节胞体或节前神经干施加电脉冲（持续时间0.1 - 1毫秒，频率1 - 10赫兹，4分钟串刺激）也会提高k0。这种效应会随着重复刺激串而下降，而对钾离子的反应不会随之减弱。可卡因（300微摩尔）、河豚毒素（3微摩尔）或升高的细胞内镁离子浓度（0毫摩尔钙离子/30毫摩尔镁离子）不会降低对电刺激的反应。分别对节前和节后神经干以及神经节胞体进行局部灌流表明，对电刺激的反应局限于刺激部位附近，不会沿神经干传播或通过突触传递。
对刺入的“不可兴奋”细胞（推测为神经胶质细胞（附录））进行电记录表明，在重复神经刺激期间积累的钾离子量不足以刺激胶质细胞释放GABA。无法推断出释放过程在调节神经元兴奋性方面的生理作用。