腹侧纹状体苍白球神经元中的多巴胺 D2 受体上调不影响巴甫洛夫或 Go/No-Go 学习。

Dopamine D2R upregulation in ventral striatopallidal neurons does not affect Pavlovian or go/no-go learning.

机构信息

Department of Neuroscience, Graduate School of Arts and Sciences, Columbia University.

Department of Psychology, Barnard College.

出版信息

Behav Neurosci. 2021 Jun;135(3):369-379. doi: 10.1037/bne0000403.

DOI:10.1037/bne0000403

PMID:34264690

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8288487/

Abstract

Ventral striatal dopamine is thought to be important for associative learning. Dopamine exerts its role via activation of dopamine D1 and D2 receptors in the ventral striatum. Upregulation of dopamine D2R in ventral striatopallidal neurons impairs incentive motivation via inhibiting synaptic transmission to the ventral pallidum. Here, we determined whether upregulation of D2Rs and the resulting impairment in ventral striatopallidal pathway function modulates associative learning in an auditory Pavlovian reward learning task as well as Go/No-Go learning in an operant based reward driven Go/No-Go task. We found that upregulation of D2Rs did not affect Pavlovian learning or the extinction of Pavlovian responses, and neither did it alter No-Go learning. We however observed a delay in the Go component of the task which may indicate a deficit in learning though it could also be attributed to the established locomotor hyperactivity of the mice. In combination with previously published findings, our data suggest that D2Rs in ventral striatopallidal neurons play a specific role in regulating motivation by balancing cost/benefit computations but do not necessarily affect associative learning. (PsycInfo Database Record (c) 2021 APA, all rights reserved).

摘要

腹侧纹状体中的多巴胺被认为对联想学习很重要。多巴胺通过激活腹侧纹状体中的多巴胺 D1 和 D2 受体发挥作用。腹侧纹状体苍白球神经元中多巴胺 D2R 的上调通过抑制对腹侧苍白球的突触传递来损害激励动机。在这里，我们确定 D2R 的上调及其导致的腹侧纹状体苍白球通路功能障碍是否会调节听觉巴甫洛夫奖励学习任务中的联想学习以及基于操作的奖励驱动的 Go/No-Go 任务中的 Go/No-Go 学习。我们发现 D2R 的上调既不会影响巴甫洛夫式学习或巴甫洛夫反应的消退，也不会改变 No-Go 学习。然而，我们观察到任务的 Go 成分延迟，这可能表明学习存在缺陷，但也可能归因于小鼠已建立的运动过度活跃。结合之前发表的研究结果，我们的数据表明，腹侧纹状体苍白球神经元中的 D2R 通过平衡成本/收益计算在调节动机方面发挥特定作用，但不一定会影响联想学习。

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