D2 受体基因型和纹状体多巴胺信号预测人类运动皮层活动和行为。

D2 receptor genotype and striatal dopamine signaling predict motor cortical activity and behavior in humans.

机构信息

Department of Neurological and Psychiatric Sciences, University of Bari Aldo Moro, Bari, Italy.

出版信息

Neuroimage. 2011 Feb 14;54(4):2915-21. doi: 10.1016/j.neuroimage.2010.11.034. Epub 2010 Nov 16.

DOI:10.1016/j.neuroimage.2010.11.034

PMID:21087673

Abstract

OBJECTIVE

Pre-synaptic D2 receptors regulate striatal dopamine release and DAT activity, key factors for modulation of motor pathways. A functional SNP of DRD2 (rs1076560 G>T) is associated with alternative splicing such that the relative expression of D2S (mainly pre-synaptic) vs. D2L (mainly post-synaptic) receptor isoforms is decreased in subjects with the T allele with a putative increase of striatal dopamine levels. To evaluate how DRD2 genotype and striatal dopamine signaling predict motor cortical activity and behavior in humans, we have investigated the association of rs1076560 with BOLD fMRI activity during a motor task. To further evaluate the relationship of this circuitry with dopamine signaling, we also explored the correlation between genotype based differences in motor brain activity and pre-synaptic striatal DAT binding measured with [(123)I] FP-CIT SPECT.

METHODS

Fifty healthy subjects, genotyped for DRD2 rs1076560 were studied with BOLD-fMRI at 3T while performing a visually paced motor task with their right hand; eleven of these subjects also underwent [(123)I]FP-CIT SPECT. SPM5 random-effects models were used for statistical analyses.

RESULTS

Subjects carrying the T allele had greater BOLD responses in left basal ganglia, thalamus, supplementary motor area, and primary motor cortex, whose activity was also negatively correlated with reaction time at the task. Moreover, left striatal DAT binding and activity of left supplementary motor area were negatively correlated.

INTERPRETATION

The present results suggest that DRD2 genetic variation was associated with focusing of responses in the whole motor network, in which activity of predictable nodes was correlated with reaction time and with striatal pre-synaptic dopamine signaling. Our results in humans may help shed light on genetic risk for neurobiological mechanisms involved in the pathophysiology of disorders with dysregulation of striatal dopamine like Parkinson's disease.

摘要

目的

突触前 D2 受体调节纹状体多巴胺释放和 DAT 活性，这是调节运动通路的关键因素。DRD2（rs1076560 G>T）的一个功能 SNP 与选择性剪接有关，即具有 T 等位基因的受试者中 D2S（主要是突触前）与 D2L（主要是突触后）受体同工型的相对表达降低，纹状体多巴胺水平可能增加。为了评估 DRD2 基因型和纹状体多巴胺信号如何预测人类的运动皮层活动和行为，我们研究了 rs1076560 与运动任务期间 BOLD fMRI 活动的关联。为了进一步评估该电路与多巴胺信号之间的关系，我们还探索了基于基因型的运动大脑活动差异与用 [(123)I]FP-CIT SPECT 测量的纹状体突触前 DAT 结合之间的相关性。

方法

对 50 名健康受试者进行 DRD2 rs1076560 基因分型，并在 3T 下进行 BOLD-fMRI 检查，同时用右手进行视觉引导的运动任务；其中 11 名受试者还接受了 [(123)I]FP-CIT SPECT 检查。使用 SPM5 随机效应模型进行统计分析。

结果

携带 T 等位基因的受试者左基底节、丘脑、辅助运动区和初级运动皮层的 BOLD 反应更大，其活动也与任务中的反应时间呈负相关。此外，左纹状体 DAT 结合与左辅助运动区的活动呈负相关。

解释

本研究结果表明，DRD2 遗传变异与整个运动网络中反应的集中有关，其中可预测节点的活动与反应时间和纹状体突触前多巴胺信号有关。我们在人类中的研究结果可能有助于阐明与纹状体多巴胺失调相关疾病的神经生物学机制的遗传风险，如帕金森病。

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D2 受体基因型和纹状体多巴胺信号预测人类运动皮层活动和行为。

D2 receptor genotype and striatal dopamine signaling predict motor cortical activity and behavior in humans.

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

INTERPRETATION

目的

方法

结果

解释

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