Dopamine D2L Receptor Is Required for Visual Discrimination and Reversal Learning

M. Morita, Yanyan Wang, T. Sasaoka, Kinya Okada, M. Niwa, A. Sawa, T. Hikida
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引用次数: 12

Abstract

The corticostriatothalamic circuit regulates learning behaviors via dopamine neurotransmission. D2 long (D2L) receptors are an isoform of dopamine D2 receptors (D2Rs) and may act mainly at postsynaptic sites. It is well known that D2Rs influence high brain functions, but the roles of individual D2R isoforms are still unclear. To assess the influence of D2L receptors in visual discrimination learning, we performed visual discrimination and reversal tasks with D2L knockout mice using a touchscreen operant system. There were no significant differences in an operant conditioning task between genotypes. However, D2L knockout mice were impaired in both visual discrimination and reversal learning tasks. D2L knockout mice were also significantly slower than wild-type mice in collecting the reward in the visual discrimination task. These results indicate that D2L receptors play an important role in visual discrimination and reversal learning.
多巴胺D2L受体是视觉辨别和逆向学习所必需的
皮质纹状丘脑回路通过多巴胺神经传递调节学习行为。D2长受体(D2L)是多巴胺D2受体(D2Rs)的一种亚型,可能主要作用于突触后位点。众所周知,D2R影响大脑高级功能,但个体D2R异构体的作用仍不清楚。为了评估D2L受体对视觉辨别学习的影响,我们使用触摸屏操作系统对D2L基因敲除小鼠进行了视觉辨别和逆转任务。操作性条件反射任务在基因型间无显著差异。然而,D2L基因敲除小鼠在视觉辨别和逆向学习任务中均受到损害。D2L基因敲除小鼠在视觉辨别任务中获得奖励的速度也明显慢于野生型小鼠。这些结果表明,D2L受体在视觉辨别和逆向学习中起着重要作用。
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