Barik Samir, de Beaurepaire Renaud
Laboratoire de Psychopharmacologie, C.H. Paul Guiraud, 54, avenue de la République, 94806 Villejuif, France; INSERM 513 Créteil, France.
Prog Neuropsychopharmacol Biol Psychiatry. 2005 Jun;29(5):718-26. doi: 10.1016/j.pnpbp.2005.04.020.
Dopamine D3 receptors are present in the nucleus accumbens and in lobules 9 and 10 of the cerebellum. Their function is not fully understood. In the present study, the involvement of D3 receptors in locomotor activity and sleep in the two structures was investigated. The method used was the measure of locomotor activity in an open field and the measure of sleep and sleep/waking stages by electroencephalographic recordings in the rat. Dopamine receptor agonists (7-OH-DPAT, quinelorane and SKF38393) and antagonists (amisulpride, nafadotride and haloperidol) were microinjected into the two structures. Concerning locomotor activity, the results show that D3 receptor stimulation, as well as concomitant stimulation of D1 and D3 receptors, have opposite effects in the cerebellum and in the core of nucleus accumbens, with an inhibition of locomotion in the cerebellum and a stimulation of locomotion in the nucleus accumbens. D1 and D3 stimulation have mutual potentiating locomotor effects. The results also show that in the cerebellum, the effects are selective to lobules 9 and 10, and are not observed with microinjections into lobule 8. Concerning sleep, the effects of agonists and antagonists show a similar tendency in the cerebellum and nucleus accumbens, with a somnogenic effect of D2 blockage, an awakening effect of at least one of the D2/D3 agonists, and a dose-dependent awakening effect of the D2/D3 antagonists. In conclusion, this study suggests that dopamine D3 receptors in the cerebellum and nucleus accumbens are involved in several aspects of the regulation of locomotor activity and sleep.
多巴胺D3受体存在于伏隔核以及小脑的第9和第10小叶中。其功能尚未完全明确。在本研究中,对这两个结构中D3受体在运动活动和睡眠方面的作用进行了研究。所采用的方法是在旷场中测量运动活动,并通过大鼠的脑电图记录来测量睡眠及睡眠/觉醒阶段。将多巴胺受体激动剂(7-羟基-DPAT、喹硫平及SKF38393)和拮抗剂(氨磺必利、萘法朵利及氟哌啶醇)微量注射到这两个结构中。关于运动活动,结果显示,D3受体刺激以及D1和D3受体的联合刺激在小脑和伏隔核核心具有相反的作用,在小脑中抑制运动,在伏隔核中刺激运动。D1和D3刺激具有相互增强的运动效应。结果还显示,在小脑中,这些效应对第9和第10小叶具有选择性,向第8小叶微量注射时未观察到这些效应。关于睡眠,激动剂和拮抗剂的效应在小脑和伏隔核中显示出相似的趋势,D2阻断具有促眠作用,至少一种D2/D3激动剂具有觉醒作用,D2/D3拮抗剂具有剂量依赖性觉醒作用。总之,本研究表明,小脑和伏隔核中的多巴胺D3受体参与运动活动和睡眠调节的多个方面。