多巴胺转运体基因敲除小鼠的可卡因自我给药行为

Cocaine self-administration in dopamine-transporter knockout mice.

作者信息

Rocha B A, Fumagalli F, Gainetdinov R R, Jones S R, Ator R, Giros B, Miller G W, Caron M G

机构信息

Department of Pharmacology, University of North Texas Health Science Center, Fort Worth 76107, USA.

出版信息

Nat Neurosci. 1998 Jun;1(2):132-7. doi: 10.1038/381.

DOI:10.1038/381

PMID:10195128

Abstract

The plasma membrane dopamine transporter (DAT) is responsible for clearing dopamine from the synapse. Cocaine blockade of DAT leads to increased extracellular dopamine, an effect widely considered to be the primary cause of the reinforcing and addictive properties of cocaine. In this study we tested whether these properties are limited to the dopaminergic system in mice lacking DAT. In the absence of DAT, these mice exhibit high levels of extracellular dopamine, but paradoxically still self-administer cocaine. Mapping of the sites of cocaine binding and neuronal activation suggests an involvement of serotonergic brain regions in this response. These results demonstrate that the interaction of cocaine with targets other than DAT, possibly the serotonin transporter, can initiate and sustain cocaine self-administration in these mice.

摘要

质膜多巴胺转运体（DAT）负责清除突触中的多巴胺。可卡因对DAT的阻断会导致细胞外多巴胺增加，这种效应被广泛认为是可卡因具有强化和成瘾特性的主要原因。在本研究中，我们测试了这些特性是否仅限于缺乏DAT的小鼠的多巴胺能系统。在没有DAT的情况下，这些小鼠表现出高水平的细胞外多巴胺，但矛盾的是它们仍然会自我给药可卡因。可卡因结合位点和神经元激活的图谱表明，血清素能脑区参与了这一反应。这些结果表明，可卡因与DAT以外的靶点（可能是血清素转运体）的相互作用可以启动并维持这些小鼠的可卡因自我给药行为。

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多巴胺转运体基因敲除小鼠的可卡因自我给药行为

Cocaine self-administration in dopamine-transporter knockout mice.

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