Shi W X, Pun C L, Zhang X X, Jones M D, Bunney B S
Department of Psychiatry, Yale University School of Medicine, New Haven, Connecticut 06510, USA.
J Neurosci. 2000 May 1;20(9):3504-11. doi: 10.1523/JNEUROSCI.20-09-03504.2000.
By increasing dopamine (DA) release and activating feedback mechanisms, amphetamine and related psychostimulants are known to inhibit DA cell firing. Here, we report that D-amphetamine also has an excitatory effect on DA cells, which under control conditions, is masked by the inhibitory effect of D-amphetamine and is revealed when D2-like receptors are blocked. Thus, using in vivo single-unit recording in rats, we found that the selective D2 antagonist raclopride not only blocked the inhibition induced by D-amphetamine but also enabled D-amphetamine to excite DA cells. The excitation, expressed as an increase in both firing rate and bursting, persisted when both D1- and D2-like receptors were blocked by SCH23390 and eticlopride, suggesting that it is not mediated by DA receptors. The norepinephrine uptake blocker nisoxetine mimicked the effect of D-amphetamine, especially the increase in bursting, whereas the 5-HT uptake blocker fluoxetine produced no significant effect. Adrenergic alpha1 antagonists prazosin and WB4101 and the nonselective alpha antagonist phenoxybenzamine completely blocked increase in bursting induced by D-amphetamine and partially blocked the increase in firing rate. The alpha2 antagonist idazoxan and the beta antagonist propranolole, however, failed to prevent D-amphetamine from producing the excitation. Thus, revising the traditional concept, this study suggests that D-amphetamine has two effects on DA cells, a DA-mediated inhibition and a non-DA-mediated excitation. The latter is mediated in part through adrenergic alpha1 receptors.
通过增加多巴胺(DA)释放并激活反馈机制,苯丙胺及相关精神兴奋剂已知可抑制DA细胞放电。在此,我们报告D-苯丙胺对DA细胞也有兴奋作用,在对照条件下,这种兴奋作用被D-苯丙胺的抑制作用所掩盖,而当D2样受体被阻断时则显现出来。因此,利用大鼠体内单单位记录,我们发现选择性D2拮抗剂雷氯必利不仅阻断了D-苯丙胺诱导的抑制作用,还使D-苯丙胺能够兴奋DA细胞。当D1和D2样受体都被SCH23390和依替必利阻断时,以放电频率和爆发增加表示的兴奋作用仍然存在,这表明它不是由DA受体介导的。去甲肾上腺素摄取阻滞剂尼索西汀模拟了D-苯丙胺的作用,尤其是爆发增加,而5-羟色胺摄取阻滞剂氟西汀则没有显著作用。肾上腺素能α1拮抗剂哌唑嗪和WB4101以及非选择性α拮抗剂酚苄明完全阻断了D-苯丙胺诱导的爆发增加,并部分阻断了放电频率的增加。然而,α2拮抗剂伊达唑烷和β拮抗剂普萘洛尔未能阻止D-苯丙胺产生兴奋作用。因此,本研究修正了传统观念,表明D-苯丙胺对DA细胞有两种作用,一种是DA介导的抑制作用,另一种是非DA介导的兴奋作用。后者部分通过肾上腺素能α1受体介导。