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安非他命将多巴胺从突触小泡重新分布到胞质溶胶,并促进逆向转运。

Amphetamine redistributes dopamine from synaptic vesicles to the cytosol and promotes reverse transport.

作者信息

Sulzer D, Chen T K, Lau Y Y, Kristensen H, Rayport S, Ewing A

机构信息

Department of Psychiatry, Columbia University, New York, New York 10032, USA.

出版信息

J Neurosci. 1995 May;15(5 Pt 2):4102-8. doi: 10.1523/JNEUROSCI.15-05-04102.1995.

DOI:10.1523/JNEUROSCI.15-05-04102.1995
PMID:7751968
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6578196/
Abstract

Whether amphetamine acts principally at the plasma membrane or at synaptic vesicles is controversial. We find that d-amphetamine injection into the Planorbis giant dopamine neuron causes robust dopamine release, demonstrating that specific amphetamine uptake is not required. Arguing for action at vesicles, whole-cell capillary electrophoresis of single Planorbis dopamine neurons shows that amphetamine reduces vesicular dopamine, while amphetamine reduces quantal dopamine release from PC12 cells by > 50% per vesicle. Intracellular injection of dopamine into the Planorbis dopamine neuron produces rapid nomifensine-sensitive release, showing that an increased substrate concentration gradient is sufficient to induce release. These experiments indicate that amphetamine acts at the vesicular level where it redistributes dopamine to the cytosol, promoting reverse transport, and dopamine release.

摘要

苯丙胺主要作用于质膜还是突触小泡存在争议。我们发现,向扁卷螺巨大多巴胺能神经元注射d-苯丙胺会导致大量多巴胺释放,这表明不需要特定的苯丙胺摄取。支持其作用于小泡的证据是,对单个扁卷螺多巴胺能神经元进行全细胞毛细管电泳显示,苯丙胺会减少小泡内的多巴胺,而苯丙胺使PC12细胞中每个小泡的量子多巴胺释放减少超过50%。向扁卷螺多巴胺能神经元内注射多巴胺会产生对诺米芬辛敏感的快速释放,这表明底物浓度梯度增加足以诱导释放。这些实验表明,苯丙胺作用于小泡水平,在那里它将多巴胺重新分布到细胞质中,促进逆向转运和多巴胺释放。

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