[Neurochemistry of the mesencephalic substantia nigra: interrelations between excitatory amino acids, N-methyl-D-aspartate type receptors and intrinsic neuronal systems].

G Bustos, J Abarca, J Fiedler, R Araneda
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Abstract

Recent studies have demonstrated the existence of cortico-nigral fibers in the brain which may use L-glutamic or L-aspartic acid as their transmitters. Such cortico-nigral neuronal pathway seems to functionally interact with intrinsic neuronal systems in substantia nigra (SN) by first activating different subtypes of excitatory amino acid (EAA) receptors. Particularly interesting are results showing that activation of N-methyl-D-aspartate (NMDA) subtype receptor may evoke the Ca(2+)-dependent release of dopamine from dendrites of nigro-striatal neurons. In addition, NMDA and other EAA receptors may influence the functional activity of gabaergic, glycinergic and peptidergic neurons located in SN. Acidic aminoacid-containing neurons in SN may thus play a pivotal role in determining the outflow information from SN to caudal motor-related as well as rostral limbic-related areas in the brain.

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[中脑黑质的神经化学:兴奋性氨基酸、n -甲基- d -天冬氨酸型受体和内在神经元系统之间的相互关系]。
最近的研究表明,大脑中存在皮质-神经纤维,它们可能使用l -谷氨酸或l -天冬氨酸作为它们的递质。这种皮质-神经通路似乎通过首先激活兴奋性氨基酸(EAA)受体的不同亚型,在功能上与黑质(SN)内生性神经元系统相互作用。特别有趣的是,结果显示n -甲基-d -天冬氨酸(NMDA)亚型受体的激活可能会引起黑纹状体神经元树突中Ca(2+)依赖性多巴胺的释放。此外,NMDA和其他EAA受体可能影响位于SN的gabaergy、甘氨酸能和肽能神经元的功能活性。因此,SN中含有酸性氨基酸的神经元可能在决定SN向大脑尾侧运动相关区域和吻侧边缘相关区域流出的信息中起关键作用。
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The evolution of hexokinases. [Hermann Niemeyer Fernández (1918-1991) and science in Chile]. Society of Biology of Chile and the Associated Societies, 34th annual meeting. Puyehue, Chile, 27-30 November 1991. Abstracts. [Preparation and characterization of a monoclonal peroxidase-antiperoxidase complex]. [Neurochemical substrate of the behavioral pharmacology of ethanol].
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