Differential effects of dopamine D2 and D3 receptor antagonists in regard to dopamine release, in vivo receptor displacement and behaviour.

Journal of neural transmission. General section Pub Date : 1994-01-01 DOI:10.1007/BF01277593

N Waters, L Löfberg, S Haadsma-Svensson, K Svensson, C Sonesson, A Carlsson

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引用次数: 37

Abstract

To establish possible functional differences between the dopamine D2 and D3 receptor we investigated the relation between the ability, for a set of nine mixed dopamine D2 and D3 receptor antagonists, to displace N, N-dipropyl-2-amino-5,6-dihydroxy tetralin (DP-5,6-ADTN) from striatal binding sites and the subsequent behavioural consequences in vivo. Dopamine D2 receptor preferring antagonists are powerful displacers of DP-5,6-ADTN from the striatum. Maximal displacement is followed by strong hypomotility. Displacement of the agonist by the D3 preferring antagonist U99194A is only partial and results in synergistic increases in locomotor activity. Superimposing haloperidol upon GBR12909 leads to a synergistic increase in striatal dialysate dopamine concentrations. This effect is absent when combining GBR12909 with the putative D3 antagonist U99194A. These data give support for the hypothesis that the dopamine D3 receptor is functionally relevant at the postsynaptic level. Here, in contrast to the D2 receptor, it is proposed to exert an inhibitory influence on psychomotor functions.

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多巴胺D2和D3受体拮抗剂对多巴胺释放、体内受体位移和行为的不同影响。

为了确定多巴胺D2和D3受体之间可能的功能差异，我们研究了一组9种混合多巴胺D2和D3受体拮抗剂从纹状体结合位点取代N, N-二丙基-2-氨基-5,6-二羟基四氢萘(dp -5,6- adtn)的能力与体内随后的行为后果之间的关系。多巴胺D2受体偏好拮抗剂是纹状体中dp -5,6- adtn的强力替代物。最大位移之后是强烈的运动能力低下。D3优先拮抗剂U99194A仅部分取代激动剂，导致运动活动的协同增加。在GBR12909上叠加氟哌啶醇会导致纹状体透析液多巴胺浓度的协同增加。当GBR12909与假定的D3拮抗剂U99194A联合使用时，这种效应不存在。这些数据支持多巴胺D3受体在突触后水平的功能相关的假设。在这里，与D2受体相反，它被提出对精神运动功能施加抑制影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of neural transmission. General section

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