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中脑边缘多巴胺及其对大鼠运动活动的控制:嗅结节与伏隔核之间在药理学及明/暗周期方面的差异。

Mesolimbic dopamine and its control of locomotor activity in rats: differences in pharmacology and light/dark periodicity between the olfactory tubercle and the nucleus accumbens.

作者信息

Cools A R

出版信息

Psychopharmacology (Berl). 1986;88(4):451-9. doi: 10.1007/BF00178506.

DOI:10.1007/BF00178506
PMID:3085132
Abstract

To compare the functions of the lateral olfactory tubercle (OT) and the medial nucleus accumbens (ACC), dopamine (DA), (3,4-dihydroxyphenylimino)-2-imidazoline (DPI), and ergometrine were injected into the brain of rats familiarized with the experimental cage in which locomotor activity was assessed. In all tests a volume of 0.5 microliter per side was used. Both DA (1-10 micrograms) and apomorphine (1-10 micrograms) increased locomotor activity when injected into the OT; similar injections into the ACC produced inconsistent effects. The OT effects were short-lasting, dose-dependent and antagonized by haloperidol (0.5-2.5 micrograms) in a dose-dependent manner. DPI (1-10 micrograms) too produced an increase when injected into the OT; this response was long-lasting, dose-dependent and potentiated by ergometrine (0.1-1.0 microgram). Ergometrine (0.1-1.0 microgram) dose-dependently increased activity over a period of 200 min in ACC and OT rats, although the response in OT rats was much smaller than that in ACC rats. Only the ergometrine response in ACC rats was dose-dependently suppressed by DPI (1-10 micrograms). ACC rats tested during the light period showed a weak stimulatory response to ergometrine in comparison with ACC rats tested during the dark period; OT rats showed reversed light/dark periodicity. Thus, OT rats significantly differed from ACC rats with respect to locomotor responses to dopaminergic agents, their pharmacological profile and their light/dark periodicity. Evidence is provided that the lateral tuberculum, but not the medial accumbens, is responsible for the stimulatory effect of dopamine and related compounds.

摘要

为比较外侧嗅结节(OT)和伏隔核内侧(ACC)的功能,将多巴胺(DA)、(3,4 - 二羟基苯亚氨基)- 2 - 咪唑啉(DPI)和麦角新碱注射到熟悉实验笼的大鼠脑中,在该实验笼中评估运动活性。在所有测试中,每侧使用0.5微升的体积。当将DA(1 - 10微克)和阿扑吗啡(1 - 10微克)注射到OT中时,二者均增加运动活性;向ACC进行类似注射则产生不一致的效果。OT的作用是短暂的、剂量依赖性的,并且被氟哌啶醇(0.5 - 2.5微克)以剂量依赖性方式拮抗。当将DPI(1 - 10微克)注射到OT中时也会产生活性增加;这种反应是持久的、剂量依赖性的并且被麦角新碱(0.1 - 1.0微克)增强。麦角新碱(0.1 - 1.0微克)在200分钟内使ACC和OT大鼠的活性剂量依赖性增加,尽管OT大鼠的反应比ACC大鼠小得多。只有ACC大鼠对麦角新碱的反应被DPI(1 - 10微克)剂量依赖性抑制。与在黑暗期测试的ACC大鼠相比,在光照期测试的ACC大鼠对麦角新碱的刺激反应较弱;OT大鼠表现出相反的明暗周期性。因此,OT大鼠在对多巴胺能药物的运动反应、其药理学特征及其明暗周期性方面与ACC大鼠有显著差异。有证据表明,外侧结节而非伏隔核内侧对多巴胺及相关化合物的刺激作用负责。

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