可卡因、奖赏、运动与单胺转运体

Cocaine, reward, movement and monoamine transporters.

作者信息

Uhl G R, Hall F S, Sora I

机构信息

Molecular Neurobiology Branch, NIDA-IRP, NIH, Baltimore, MD 21224, USA.

出版信息

Mol Psychiatry. 2002;7(1):21-6. doi: 10.1038/sj.mp.4000964.

DOI:10.1038/sj.mp.4000964

PMID:11803442

Abstract

Recent evidence enriches our understanding of the molecular sites of action of cocaine reward and locomotor stimulation. Dopamine transporter blockade by cocaine appears a sufficient explanation for cocaine-induced locomotion. Variation in DAT appears to cause differences in locomotion without drug stimulation. However, previously-held views that DAT blockade was the sole site for cocaine reward have been replaced by a richer picture of multitransporter involvement with the rewarding and aversive actions of cocaine. These new insights, derived from studies of knockout mice with simultaneous deletions and/or blockade of multiple transporters, provide a novel model for the rewarding action of this heavily-abused substance and implicate multiple monoamine systems in cocaine's hedonic activities.

摘要

近期的证据丰富了我们对可卡因奖赏及运动刺激分子作用位点的理解。可卡因对多巴胺转运体的阻断似乎足以解释可卡因诱发的运动。多巴胺转运体（DAT）的变异似乎会导致在无药物刺激情况下运动的差异。然而，以往认为DAT阻断是可卡因奖赏的唯一作用位点的观点，已被一幅更丰富的画面所取代，这幅画面涉及多种转运体参与可卡因的奖赏及厌恶作用。这些新见解源自对同时缺失和/或阻断多种转运体的基因敲除小鼠的研究，为这种滥用严重的物质的奖赏作用提供了一个新模型，并表明多种单胺系统参与了可卡因的享乐活动。

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可卡因、奖赏、运动与单胺转运体

Cocaine, reward, movement and monoamine transporters.

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