Schoffelmeer A N, Vanderschuren L J, De Vries T J, Hogenboom F, Wardeh G, Mulder A H
Research Institute Neurosciences Vrije Universiteit, Department of Pharmacology, Free University, Medical Faculty, 1081 BT Amsterdam, The Netherlands.
J Neurosci. 2000 May 1;20(9):3496-503. doi: 10.1523/JNEUROSCI.20-09-03496.2000.
Given the complex interactions between dopamine D1 and glutamate NMDA receptors in the striatum, we investigated the role of these receptors in transporter-mediated GABA release from cultured medium spiny neurons of rat striatum. Like NMDA receptor-mediated [(3)H]-GABA release, that induced by prolonged (20 min) dopamine D1 receptor activation was enhanced on omission of external calcium, was action potential-independent (tetrodotoxin-insensitive), and was diminished by the GABA transporter blocker nipecotic acid, indicating the involvement of transporter-mediated release. Interestingly, lowering the external sodium concentration only reduced the stimulatory effect of NMDA. Blockade of Na(+)/K(+)-ATPase by ouabain enhanced NMDA-induced but abolished dopamine-induced release. Moreover, dopamine appeared to potentiate the effect of NMDA on [(3)H]-GABA release. These effects of dopamine were mimicked by forskolin. mu-Opioid receptor-mediated inhibition of adenylyl cyclase by morphine reduced dopamine- and NMDA-induced release. These results confirm previous studies indicating that NMDA receptor activation causes a slow action potential-independent efflux of GABA by reversal of the sodium-dependent GABA transporter on sodium entry through the NMDA receptor channel. Moreover, our data indicate that activation of G-protein-coupled dopamine D1 receptors also induces a transporter-mediated increase in spontaneous GABA release, but through a different mechanism of action, i.e., through cAMP-dependent inhibition of Na(+)/K(+)-ATPase, inducing accumulation of intracellular sodium, reversal of the GABA carrier, and potentiation of NMDA-induced release. These receptor interactions may play a crucial role in the behavioral activating effects of psychostimulant drugs.
鉴于纹状体中多巴胺D1受体与谷氨酸N-甲基-D-天冬氨酸(NMDA)受体之间存在复杂的相互作用,我们研究了这些受体在大鼠纹状体培养的中型多棘神经元中转运体介导的γ-氨基丁酸(GABA)释放过程中的作用。与NMDA受体介导的[³H]-GABA释放一样,长时间(20分钟)多巴胺D1受体激活所诱导的释放,在无细胞外钙时增强,不依赖动作电位(对河豚毒素不敏感),并被GABA转运体阻断剂尼克酸减弱,表明涉及转运体介导的释放。有趣的是,降低细胞外钠浓度仅降低了NMDA的刺激作用。哇巴因对钠钾ATP酶的阻断增强了NMDA诱导的释放,但消除了多巴胺诱导的释放。此外,多巴胺似乎增强了NMDA对[³H]-GABA释放的作用。多巴胺的这些作用可被福斯可林模拟。吗啡通过μ-阿片受体介导的对腺苷酸环化酶的抑制作用降低了多巴胺和NMDA诱导的释放。这些结果证实了先前的研究,表明NMDA受体激活通过钠依赖性GABA转运体在钠通过NMDA受体通道进入时的逆转,导致GABA缓慢地不依赖动作电位的外流。此外,我们的数据表明,G蛋白偶联的多巴胺D1受体的激活也诱导了转运体介导的自发性GABA释放增加,但通过不同的作用机制,即通过环磷酸腺苷(cAMP)依赖性抑制钠钾ATP酶,诱导细胞内钠积累、GABA载体逆转以及增强NMDA诱导的释放。这些受体相互作用可能在精神兴奋药物的行为激活作用中起关键作用。