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来自纹状体和下丘脑的单胺释放:γ-羟基丁酸的作用。

Release of monoamines from the striatum and hypothalamus: effect of -hydroxybutyrate.

作者信息

Bustos G, Roth R H

出版信息

Br J Pharmacol. 1972 Sep;46(1):101-15. doi: 10.1111/j.1476-5381.1972.tb06853.x.

DOI:10.1111/j.1476-5381.1972.tb06853.x
PMID:5084815
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1666124/
Abstract
  1. A simple in vitro system was developed to study the effect of gamma-hydroxybutyrate on nerve cell depolarization-induced release of labelled dopamine, noradrenaline and 5-hydroxytryptamine from brain slices.2. The release of (3)H-dopamine formed in rat striatal slices incubated with (3)H-tyrosine was followed either by transferring the slices through successive media or by using a superfusion system. A one to three minute exposure to K(+) (53 mM) caused up to a thirty fold increase in the release of newly synthesized (3)H-dopamine. This K(+)-induced release was antagonized when gamma-hydroxybutyrate (1 x 10(-3)M) was present in the medium.3. Potassium (53 mM) increased (eighteen to thirty fold) the release of (3)H-dopamine from striatal slices initially loaded by preincubation with (3)H-dopamine. However, the K(+)-induced release of this pool of dopamine was not antagonized by gamma-hydroxybutyrate.4. Potassium (53 mM) also increased the release from striatal slices of (3)H-5-hydroxytryptamine newly synthesized from (3)H-tryptophan. This K(+)-induced release of 5-hydroxytryptamine was also not inhibited by gamma-hydroxybutyrate.5. The release of newly synthesized (3)H-noradrenaline from hypothalamic slices was also increased by K(+). This K(+)-induced release, however, unlike that of 5-hydroxytryptamine, was antagonized when gamma-hydroxybutyrate was present in the superfusion medium.6. Removal of Ca(++) had no effect on K(+)-induced release of (3)H-dopamine when followed by transferring the slices through successive media. This K(+)-induced release was abolished, however, when Mg(++) (12 mM) was present in the medium.7. The removal of Ca(++) from the superfusion medium abolished almost completely the K(+)-induced release from striatal slices of either newly synthesized (3)H-dopamine or preloaded (3)H-dopamine. This is presumably due to a more effective washout of tissue Ca(++) by the superfusion technique.8. The ability of gamma-hydroxybutyrate to antagonize the K(+)-induced release of monoamines from brain slices does not appear to be unique to the release of newly synthesized dopamine from the striatum.
摘要

  1. 开发了一种简单的体外系统,以研究γ-羟基丁酸对神经细胞去极化诱导的脑片中标记多巴胺、去甲肾上腺素和5-羟色胺释放的影响。

  2. 用(3)H-酪氨酸孵育大鼠纹状体切片中形成的(3)H-多巴胺的释放,通过将切片转移至连续培养基中或使用灌流系统进行跟踪。暴露于K(+)(53 mM)一到三分钟,可使新合成的(3)H-多巴胺释放量增加高达三十倍。当培养基中存在γ-羟基丁酸(1×10(-3)M)时,这种K(+)诱导的释放受到拮抗。

  3. 钾(53 mM)使预先用(3)H-多巴胺预孵育加载的纹状体切片中(3)H-多巴胺的释放增加(十八至三十倍)。然而,γ-羟基丁酸并未拮抗该多巴胺池的K(+)诱导释放。

  4. 钾(53 mM)也增加了由(3)H-色氨酸新合成的纹状体切片中(3)H-5-羟色胺的释放。这种K(+)诱导的5-羟色胺释放也未被γ-羟基丁酸抑制。

  5. 下丘脑切片中新合成的(3)H-去甲肾上腺素的释放也因K(+)而增加。然而,与5-羟色胺不同,当灌流培养基中存在γ-羟基丁酸时,这种K(+)诱导的释放受到拮抗。

  6. 当通过将切片转移至连续培养基中跟踪时,去除Ca(++)对K(+)诱导的(3)H-多巴胺释放没有影响。然而,当培养基中存在Mg(++)(12 mM)时,这种K(+)诱导的释放被消除。

  7. 从灌流培养基中去除Ca(++)几乎完全消除了K(+)诱导的纹状体切片中新合成的(3)H-多巴胺或预加载的(3)H-多巴胺的释放。这可能是由于灌流技术对组织Ca(++)的冲洗更有效。

  8. γ-羟基丁酸拮抗K(+)诱导的脑片中单胺释放这种能力似乎并非纹状体中新合成多巴胺释放所特有。

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