在转基因小鼠模型中，人类野生型扭转蛋白A和人类ΔGAG扭转蛋白A的过表达会导致表型异常。

Overexpression of human wildtype torsinA and human DeltaGAG torsinA in a transgenic mouse model causes phenotypic abnormalities.

作者信息

Grundmann K, Reischmann B, Vanhoutte G, Hübener J, Teismann P, Hauser T-K, Bonin M, Wilbertz J, Horn S, Nguyen H P, Kuhn M, Chanarat S, Wolburg H, Van der Linden A, Riess O

机构信息

Department of Medical Genetics, University of Tuebingen, Calwerstr. 7, 72076 Tuebingen, Germany.

出版信息

Neurobiol Dis. 2007 Aug;27(2):190-206. doi: 10.1016/j.nbd.2007.04.015. Epub 2007 May 18.

DOI:10.1016/j.nbd.2007.04.015

PMID:17601741

Abstract

Primary torsion dystonia is an autosomal-dominant inherited movement disorder. Most cases are caused by an in-frame deletion (GAG) of the DYT1 gene encoding torsinA. Reduced penetrance and phenotypic variability suggest that alteration of torsinA amino acid sequence is necessary but not sufficient for development of clinical symptoms and that additional factors must contribute to the factual manifestation of the disease. We generated 4 independent transgenic mouse lines, two overexpressing human mutant torsinA and two overexpressing human wildtype torsinA using a strong murine prion protein promoter. Our data provide for the first time in vivo evidence that not only mutant torsinA is detrimental to neuronal cells but that also wildtype torsinA can lead to neuronal dysfunction when overexpressed at high levels. This hypothesis is supported by (i) neuropathological findings, (ii) neurochemistry, (iii) behavioral abnormalities and (iv) DTI-MRI analysis.

摘要

原发性扭转性肌张力障碍是一种常染色体显性遗传性运动障碍。大多数病例是由编码扭转蛋白A的DYT1基因的框内缺失（GAG）引起的。外显率降低和表型变异性表明，扭转蛋白A氨基酸序列的改变对于临床症状的发展是必要的，但并不充分，而且其他因素必定对该疾病的实际表现有影响。我们使用强鼠朊病毒蛋白启动子生成了4个独立的转基因小鼠品系，其中两个过表达人突变型扭转蛋白A，两个过表达人野生型扭转蛋白A。我们的数据首次在体内证明，不仅突变型扭转蛋白A对神经元细胞有害，而且野生型扭转蛋白A在高水平过表达时也会导致神经元功能障碍。这一假设得到了以下几方面的支持：（i）神经病理学发现；（ii）神经化学；（iii）行为异常；（iv）弥散张量成像磁共振成像（DTI-MRI）分析。

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在转基因小鼠模型中，人类野生型扭转蛋白A和人类ΔGAG扭转蛋白A的过表达会导致表型异常。

Overexpression of human wildtype torsinA and human DeltaGAG torsinA in a transgenic mouse model causes phenotypic abnormalities.

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