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RIIβ-蛋白激酶A突变小鼠的运动行为缺陷与神经基因表达

Defective motor behavior and neural gene expression in RIIbeta-protein kinase A mutant mice.

作者信息

Brandon E P, Logue S F, Adams M R, Qi M, Sullivan S P, Matsumoto A M, Dorsa D M, Wehner J M, McKnight G S, Idzerda R L

机构信息

Department of Pharmacology, School of Medicine, University of Washington, Seattle, Washington 98195, USA.

出版信息

J Neurosci. 1998 May 15;18(10):3639-49. doi: 10.1523/JNEUROSCI.18-10-03639.1998.

DOI:10.1523/JNEUROSCI.18-10-03639.1998
PMID:9570795
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6793128/
Abstract

Motor behavior is modulated by dopamine-responsive neurons in the striatum, where dopaminergic signaling uses G-protein-coupled pathways, including those that result in the activation of cAMP-dependent protein kinase (PKA). The RIIbeta isoform of PKA is highly enriched in the striatum, and targeted disruption of the RIIbeta gene in mice leads to a dramatic reduction in total PKA activity in this region. Although the mutant mice show typical locomotor responses after acute administration of dopaminergic drugs, they display abnormalities in two experience-dependent locomotor behaviors: training on the rotarod task and locomotor sensitization to amphetamine. In addition, amphetamine induction of fos is absent, and the basal expression of dynorphin mRNA is reduced in the striatum. These results demonstrate that motor learning and the regulation of neuronal gene expression require RIIbeta PKA, whereas the acute locomotor effects of dopaminergic drugs are relatively unaffected by this PKA deficiency.

摘要

运动行为受纹状体中多巴胺反应性神经元的调节,在纹状体中,多巴胺能信号传导利用G蛋白偶联途径,包括那些导致环磷酸腺苷(cAMP)依赖性蛋白激酶(PKA)激活的途径。PKA的RIIβ亚型在纹状体中高度富集,在小鼠中靶向破坏RIIβ基因会导致该区域总PKA活性显著降低。尽管突变小鼠在急性给予多巴胺能药物后表现出典型的运动反应,但它们在两种依赖经验的运动行为中表现出异常:在转棒试验中的训练以及对苯丙胺的运动敏化。此外,苯丙胺诱导的fos缺失,纹状体中强啡肽mRNA的基础表达降低。这些结果表明,运动学习和神经元基因表达的调节需要RIIβ PKA,而多巴胺能药物的急性运动效应相对不受这种PKA缺乏的影响。

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