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整个小鼠丘脑底核基因表达水平降低会导致细胞丢失和结构紊乱,随后运动活动增加和糖消耗减少。

Reduced Gene Expression Levels throughout the Mouse Subthalamic Nucleus Cause Cell Loss and Structural Disorganization Followed by Increased Motor Activity and Decreased Sugar Consumption.

作者信息

Schweizer Nadine, Viereckel Thomas, Smith-Anttila Casey J A, Nordenankar Karin, Arvidsson Emma, Mahmoudi Souha, Zampera André, Wärner Jonsson Hanna, Bergquist Jonas, Lévesque Daniel, Konradsson-Geuken Åsa, Andersson Malin, Dumas Sylvie, Wallén-Mackenzie Åsa

机构信息

Department of Organismal Biology, Uppsala University , SE-752 36 Uppsala, Sweden.

Department of Organismal Biology, Uppsala University, SE-752 36 Uppsala, Sweden; Department of Neuroscience, Uppsala University, SE-751 24 Uppsala, Sweden.

出版信息

eNeuro. 2016 Sep 29;3(5). doi: 10.1523/ENEURO.0264-16.2016. eCollection 2016 Sep-Oct.

DOI:10.1523/ENEURO.0264-16.2016
PMID:27699212
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5041164/
Abstract

The subthalamic nucleus (STN) plays a central role in motor, cognitive, and affective behavior. Deep brain stimulation (DBS) of the STN is the most common surgical intervention for advanced Parkinson's disease (PD), and STN has lately gained attention as target for DBS in neuropsychiatric disorders, including obsessive compulsive disorder, eating disorders, and addiction. Animal studies using STN-DBS, lesioning, or inactivation of STN neurons have been used extensively alongside clinical studies to unravel the structural organization, circuitry, and function of the STN. Recent studies in rodent STN models have exposed different roles for STN neurons in reward-related functions. We have previously shown that the majority of STN neurons express the vesicular glutamate transporter 2 gene () and that reduction of Vglut2 mRNA levels within the STN of mice [conditional knockout (cKO)] causes reduced postsynaptic activity and behavioral hyperlocomotion. The cKO mice showed less interest in fatty rewards, which motivated analysis of reward-response. The current results demonstrate decreased sugar consumption and strong rearing behavior, whereas biochemical analyses show altered dopaminergic and peptidergic activity in the striatum. The behavioral alterations were in fact correlated with opposite effects in the dorsal versus the ventral striatum. Significant cell loss and disorganization of the STN structure was identified, which likely accounts for the observed alterations. Rare genetic variants of the human gene exist, and this study shows that reduced gene expression levels exclusively within the STN of mice is sufficient to cause strong modifications in both the STN and the mesostriatal dopamine system.

摘要

丘脑底核(STN)在运动、认知和情感行为中起着核心作用。对STN进行深部脑刺激(DBS)是晚期帕金森病(PD)最常见的手术干预措施,最近STN作为神经精神疾病(包括强迫症、饮食失调和成瘾)DBS的靶点受到关注。使用STN-DBS、损毁或使STN神经元失活的动物研究已与临床研究广泛结合,以阐明STN的结构组织、神经回路和功能。最近对啮齿动物STN模型的研究揭示了STN神经元在奖赏相关功能中的不同作用。我们之前已经表明,大多数STN神经元表达囊泡谷氨酸转运体2基因(),并且小鼠STN内Vglut2 mRNA水平的降低[条件性敲除(cKO)]会导致突触后活动减少和行为性活动亢进。cKO小鼠对脂肪奖赏的兴趣降低,这促使对奖赏反应进行分析。目前的结果表明糖消耗量减少和强烈的竖毛行为,而生化分析显示纹状体中多巴胺能和肽能活性发生改变。行为改变实际上与背侧纹状体和腹侧纹状体的相反效应相关。已确定STN结构存在明显的细胞丢失和紊乱,这可能是观察到的改变的原因。人类基因存在罕见的遗传变异,并且本研究表明仅小鼠STN内基因表达水平的降低就足以在STN和中脑纹状体多巴胺系统中引起强烈的改变。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f493/5041164/57d8c9df98d4/enu0051621340008.jpg
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