神经退行性疾病相关突变体p150glue在中脑多巴胺能神经元中的选择性表达导致黑质纹状体通路进行性变性

Jia Yu, C. Sgobio, Xuan Yang, Yuehan Peng, X. Chen, Lixin Sun, Hoon Shim, H. Cai
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A series of behavioral, neuropathological, neurochemical, electrochemical, and biochemical studies were performed on the mice to examine and compare the pathogenic impact of the two mutant p150Glued on the survival and function of midbrain DA neurons. Results: Compared with non-transgenic control mice, transgenic mice overexpressing wild-type human p150Glued showed neither motor phenotypes nor pathological, functional, or biochemical abnormalities of the nigrostriatal DA pathway. Transgenic mice overexpressing G59S mutant p150Glued displayed weight loss, motor deficits, early-onset defects in dopamine transmission, and early-onset loss of DA neurons and axons. Transgenic mice overexpressing G71R p150Glued mutant exhibited hyperactivities, impaired motor coordination, early-onset dysfunction of dopamine uptake, and late-onset loss of DA neurons and axons. 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引用次数: 1

摘要

目的:dynactin亚基p150glue的错义突变与多种神经退行性疾病有关,包括以遗传性帕金森病、抑郁症、体重减轻和通气不足为特征的Perry综合征。本研究旨在研究致病性突变体p150glue如何在体内影响黑质纹状体多巴胺能(DA)通路的完整性和功能。方法:采用四环素控制的转录调控系统,在中脑DA神经元中选择性过表达野生型、运动神经元疾病相关的G59S突变体或Perry综合征相关的G71R突变体人p150glut,建立转基因小鼠模型。我们对小鼠进行了一系列行为学、神经病理学、神经化学、电化学和生化研究,以检验和比较两种突变体p150glue对中脑DA神经元存活和功能的致病影响。结果:与非转基因对照小鼠相比,过表达野生型人p150glue的转基因小鼠既没有出现运动表型,也没有出现黑质纹状体DA通路的病理、功能和生化异常。过表达G59S突变体p150glue的转基因小鼠表现出体重减轻、运动缺陷、早发性多巴胺传递缺陷、早发性DA神经元和轴突缺失。过表达G71R p150glue突变体的转基因小鼠表现出多动症、运动协调性受损、早发性多巴胺摄取功能障碍和晚发性DA神经元和轴突缺失。此外,G59S或G71R突变体p150glue在中脑DA神经元中的过表达可优先下调多巴胺能轴突末端多巴胺转运体的表达。此外,G59S突变体p150glue比G71R突变体p150glue在体内中脑DA神经元中形成聚集体,聚集体捕获动力蛋白/动力蛋白,与溶酶体共定位,并上调泛素化。结论:G59S或G71R突变体p150glue在小鼠中脑DA神经元中的选择性表达可导致黑质纹状体DA通路进行性变性,表明G59S和G71R突变体p150glue在体内对中脑DA神经元的存活和功能有不同的致病影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Selective expression of neurodegenerative diseases-related mutant p150Glued in midbrain dopaminergic neurons causes progressive degeneration of nigrostriatal pathway
Aim: Missense mutations of dynactin subunit p150Glued have been associated with multiple neurodegenerative diseases, including Perry syndrome, characterized by inherited parkinsonism, depression, weight loss, and hypoventilation. The current study investigated how the pathogenic mutant p150Glued affects the integrity and function of the nigrostriatal dopaminergic (DA) pathway in vivo. Methods: Using a tetracycline-controlled transcriptional regulation system, transgenic mouse models were generated with selective overexpression of wild-type, motor neuron disease-related G59S mutant, or Perry syndrome-related G71R mutant human p150Glued in midbrain DA neurons. A series of behavioral, neuropathological, neurochemical, electrochemical, and biochemical studies were performed on the mice to examine and compare the pathogenic impact of the two mutant p150Glued on the survival and function of midbrain DA neurons. Results: Compared with non-transgenic control mice, transgenic mice overexpressing wild-type human p150Glued showed neither motor phenotypes nor pathological, functional, or biochemical abnormalities of the nigrostriatal DA pathway. Transgenic mice overexpressing G59S mutant p150Glued displayed weight loss, motor deficits, early-onset defects in dopamine transmission, and early-onset loss of DA neurons and axons. Transgenic mice overexpressing G71R p150Glued mutant exhibited hyperactivities, impaired motor coordination, early-onset dysfunction of dopamine uptake, and late-onset loss of DA neurons and axons. In addition, overexpression of either G59S or G71R mutant p150Glued in midbrain DA neurons preferentially downregulated the expression of dopamine transporter at dopaminergic axon terminals. Furthermore, G59S mutant p150Glued rather than G71R mutant p150Glued formed aggregates in midbrain DA neurons in vivo, and the aggregates trapped dynein/dynactin, co-localized with lysosomes, and upregulated ubiquitination. Conclusion: These findings demonstrate that selective expression of either G59S or G71R mutant p150Glued in mouse midbrain DA neurons leads to progressive degeneration of the nigrostriatal DA pathway and indicate that G59S and G71R mutant p150Glued exhibit differential pathogenic impact on the survival and function of midbrain DA neurons in vivo.
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