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多巴胺D4受体部分激动剂Ro 10 - 5824对普通狨猴的行为和神经生理影响。

Behavioral and neurophysiological effects of Ro 10-5824, a dopamine D4 receptor partial agonist, in common marmosets.

作者信息

Nakazawa Shunsuke, Murai Takeshi, Miyauchi Masanori, Kotani Manato, Ikeda Kazuhito

机构信息

Drug Development Research Laboratories, Sumitomo Dainippon Pharma Co. Ltd, 33-94 Enoki-cho, Suita, Osaka, 564-0053, Japan.

出版信息

Psychopharmacology (Berl). 2015 Sep;232(17):3287-95. doi: 10.1007/s00213-015-3978-y. Epub 2015 Jun 5.

DOI:10.1007/s00213-015-3978-y
PMID:26041337
Abstract

RATIONALE

Growing evidence suggests that dopamine D4 receptors (D4Rs) are involved in controlling executive functions. We have previously demonstrated that Ro 10-5824, a D4R partial agonist, improves the performance of common marmosets in the object retrieval detour (ORD) task. However, the neural mechanisms underlying this improvement are unknown.

OBJECTIVES

We investigated the behavioral and neurophysiological effects of Ro 10-5824 in common marmosets.

METHODS

The effects of Ro 10-5824 on cognitive function were evaluated using the ORD task. The neurophysiological effects of Ro 10-5824 were investigated by quantitative electroencephalography, especially on baseline gamma band activity in the frontal cortex. The effects of Ro 10-5824 on spontaneous locomotion were also assessed.

RESULTS

Systemic administration of Ro 10-5824 at 3 mg/kg significantly increased the success rate in the ORD task. At doses of 1 and 3 mg/kg, Ro 10-5824 increased baseline gamma band activity in the frontal cortex. Ro 10-5824 had no effect on spontaneous locomotion.

CONCLUSIONS

Activation of D4R by Ro 10-5824 improves the success rate in the ORD task and increases baseline gamma band activity in the frontal cortex without affecting locomotion in common marmosets. These findings highlight the role of D4R in gamma oscillations of non-human primates. As gamma oscillations are thought to be involved in attention and behavioral inhibition, our results suggest D4R agonists may improve these cognitive functions by modulating baseline gamma band activity in the frontal cortex.

摘要

理论依据

越来越多的证据表明,多巴胺D4受体(D4R)参与控制执行功能。我们之前已经证明,D4R部分激动剂Ro 10-5824可提高普通狨猴在物体取回绕道(ORD)任务中的表现。然而,这种改善背后的神经机制尚不清楚。

目的

我们研究了Ro 10-5824对普通狨猴的行为和神经生理影响。

方法

使用ORD任务评估Ro 10-5824对认知功能的影响。通过定量脑电图研究Ro 10-5824的神经生理影响,特别是对额叶皮质基线γ波段活动的影响。还评估了Ro 10-5824对自发运动的影响。

结果

以3mg/kg全身给药Ro 10-5824可显著提高ORD任务的成功率。在1mg/kg和3mg/kg剂量下,Ro 10-5824增加了额叶皮质的基线γ波段活动。Ro 10-5824对自发运动没有影响。

结论

Ro 10-5824激活D4R可提高ORD任务的成功率,并增加额叶皮质的基线γ波段活动,而不影响普通狨猴的运动。这些发现突出了D4R在非人类灵长类动物γ振荡中的作用。由于γ振荡被认为与注意力和行为抑制有关,我们的结果表明D4R激动剂可能通过调节额叶皮质的基线γ波段活动来改善这些认知功能。

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