小鼠尾状核和伏隔核中两个同时起作用的多巴胺储存池。
Two simultaneously working storage pools of dopamine in mouse caudate and nucleus accumbens.
作者信息
Yavich L
机构信息
Department of Pharmacology and Toxicology, University of Kuopio, Finland.
出版信息
Br J Pharmacol. 1996 Nov;119(5):869-76. doi: 10.1111/j.1476-5381.1996.tb15753.x.
Abstract
- The dynamics of the decline of evoked dopamine overflow after repeated electrical stimulation (2 or 4 s train duration, 50 Hz) of the median forebrain bundle were investigated by means of in vivo voltammetry in mouse caudate and nucleus accumbens. An unexpected effect-slowing of the rate of dopamine decline after repeated stimulation at short (10 s or less) between-stimulation intervals, and an increase in the absolute amount of dopamine released at the beginning of the repeated stimulation-was found. 2. After the evoked dopamine overflow had been reduced by alpha-methyl-p-tyrosine (AMPT), repeated stimulation at intervals of 5 s increased dopamine release to each subsequent stimulation applied. 3. It is proposed that there are two compartments involved in dopamine storage. Both contribute to the release of dopamine, however, they may be separated artificially by either applying stimulation at short intervals or by depletion of intracellular dopamine. 4. The first releasable pool (newly synthesized, AMPT-sensitive) provides dopamine for the release after a single stimulation or repeated stimulation, being independent of whether the first stimulation is succeeded quickly by a second. It is also independent of between-stimulation interval. 5. The second pool (AMPT-insensitive storage pool) is progressively activated after repeated stimulation. The duration of the between-stimulation intervals is the crucial factor for the activation of this pool.
摘要
- 通过对小鼠尾状核和伏隔核进行体内伏安法,研究了反复电刺激(刺激持续时间2或4秒,频率50赫兹)中脑前脑束后诱发的多巴胺溢出量下降的动态变化。发现了一个意外效应:在短的(10秒或更短)刺激间隔后反复刺激时,多巴胺下降速率减慢,并且在反复刺激开始时释放的多巴胺绝对量增加。2. 在α-甲基-p-酪氨酸(AMPT)使诱发的多巴胺溢出量减少后,以5秒的间隔进行反复刺激会使随后每次施加的刺激时多巴胺释放增加。3. 有人提出多巴胺储存涉及两个区室。两者都对多巴胺的释放有贡献,然而,它们可能通过短间隔施加刺激或通过细胞内多巴胺耗竭而人为地分开。4. 第一个可释放池(新合成的,对AMPT敏感)在单次刺激或反复刺激后为释放提供多巴胺,与第一次刺激后是否很快接着第二次刺激无关。它也与刺激间隔无关。5. 第二个池(对AMPT不敏感的储存池)在反复刺激后逐渐被激活。刺激间隔的持续时间是激活这个池的关键因素。
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