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小鼠 Ataxin-2 扩增下调 CamKII 和其他钙信号因子,损害颗粒浦肯野神经元突触强度。

Mouse Ataxin-2 Expansion Downregulates CamKII and Other Calcium Signaling Factors, Impairing Granule-Purkinje Neuron Synaptic Strength.

机构信息

Experimental Neurology, Medical Faculty, Goethe University, Theodor Stern Kai 7, 60590 Frankfurt am Main, Germany.

Department of Psychiatry, Psychosomatic Medicine and Psychotherapy, Medical Faculty, Goethe University, Heinrich-Hoffmann-Str. 10, 60528 Frankfurt am Main, Germany.

出版信息

Int J Mol Sci. 2020 Sep 12;21(18):6673. doi: 10.3390/ijms21186673.

DOI:10.3390/ijms21186673
PMID:32932600
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7555182/
Abstract

Spinocerebellar ataxia type 2 (SCA2) is caused by polyglutamine expansion in Ataxin-2 (ATXN2). This factor binds RNA/proteins to modify metabolism after stress, and to control calcium (Ca) homeostasis after stimuli. Cerebellar ataxias and corticospinal motor neuron degeneration are determined by gain/loss in ATXN2 function, so we aimed to identify key molecules in this atrophic process, as potential disease progression markers. Our -CAG100-Knock-In mouse faithfully models features observed in patients at pre-onset, early and terminal stages. Here, its cerebellar global RNA profiling revealed downregulation of signaling cascades to precede motor deficits. Validation work at mRNA/protein level defined alterations that were independent of constant physiological ATXN2 functions, but specific for RNA/aggregation toxicity, and progressive across the short lifespan. The earliest changes were detected at three months among Ca channels/transporters (, , , , ), IP metabolism (, , ), and Ca-Calmodulin dependent kinases (, ). CaMKIV-Sam68 control over alternative splicing of , an adhesion component of glutamatergic synapses between granule and Purkinje neurons, was found to be affected. Systematic screening of pre/post-synapse components, with dendrite morphology assessment, suggested early impairment of CamKIIα abundance together with the weakening of parallel fiber connectivity. These data reveal molecular changes due to ATXN2 pathology, primarily impacting excitability and communication.

摘要

脊髓小脑共济失调 2 型(SCA2)是由 Ataxin-2(ATXN2)中的多聚谷氨酰胺扩展引起的。该因子结合 RNA/蛋白质,在应激后改变代谢,并在刺激后控制钙(Ca)稳态。小脑共济失调和皮质脊髓运动神经元变性由 ATXN2 功能的增益/损失决定,因此我们旨在确定该萎缩过程中的关键分子,作为潜在的疾病进展标志物。我们的 -CAG100-Knock-In 小鼠忠实地模拟了发病前、早期和终末期患者观察到的特征。在这里,其小脑全局 RNA 分析显示信号级联的下调先于运动缺陷。在 mRNA/蛋白质水平上的验证工作定义了与恒定生理 ATXN2 功能无关的改变,但与 RNA/聚集毒性特异性相关,并且在短寿命内呈进行性变化。在三个月时,Ca 通道/转运体(、、、、)、IP 代谢(、、)和 Ca-钙调蛋白依赖性激酶(、)中检测到最早的变化。发现 CaMKIV-Sam68 对谷氨酸能突触之间颗粒和浦肯野神经元之间的黏附成分 的可变剪接的控制受到影响。对突触前/后成分进行系统筛选,并评估树突形态,提示 CamKIIα 丰度的早期损害以及平行纤维连接的减弱。这些数据揭示了由于 ATXN2 病理学引起的分子变化,主要影响兴奋性和通讯。

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