Rett综合征模型的复杂性:原代成纤维细胞作为盘中疾病的可靠方法

Q3 Pharmacology, Toxicology and Pharmaceutics Drug Discovery Today: Disease Models Pub Date : 2020-06-01 DOI:10.1016/j.ddmod.2019.11.001
Valeria Cordone , Alessandra Pecorelli , Fernanda Amicarelli , Joussef Hayek , Giuseppe Valacchi
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引用次数: 8

摘要

Rett综合征(RTT)是一种进行性神经发育疾病,几乎只影响女性(患病率约为1:10 000)。RTT的症状通常以手部目的性技能丧失、智力迟钝和运动障碍为特征,导致大量其他系统性合并症。甲基cpg结合蛋白2基因(MECP2)突变是该疾病的主要遗传原因,但MECP2缺陷导致这种复杂病理的分子机制仍有待阐明。为了研究RTT的这方面和其他方面,已经建立了几个实验模型,包括动物模型和体外方法。在本文中,我们简要总结了用于RTT研究的主要模型,并特别关注从RTT患者身上分离的原代成纤维细胞的使用,因为它们代表了一种可靠的疾病培养皿模型,可以帮助研究人员阐明该疾病的细胞和分子机制。
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The complexity of Rett syndrome models: Primary fibroblasts as a disease-in-a-dish reliable approach

Rett syndrome (RTT) is a progressive neurodevelopmental disease, which affects almost exclusively the female gender (prevalence of about 1:10,000). RTT symptoms are usually characterized by loss of purposeful hand skills, mental retardation and motor impairment, resulting in a plethora of other systemic co-morbidities. Mutations in the methyl-CpG binding protein 2 gene (MECP2) are the main genetic cause of the disorder, however molecular mechanisms leading from MeCP2 defects to this complicated pathology still need to be clarified. To investigate this and other aspects of RTT, several experimental models have been generated that include animal models, and in vitro approaches. In this article we briefly summarized the main models used for RTT investigations, and special focus is given to the use of primary fibroblasts isolated from RTT patients, since they represent a reliable disease-in-a-dish model, which can help researcher to elucidate cellular and molecular mechanisms of this disease.

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Drug Discovery Today: Disease Models
Drug Discovery Today: Disease Models Pharmacology, Toxicology and Pharmaceutics-Drug Discovery
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期刊介绍: Drug Discovery Today: Disease Models discusses the non-human experimental models through which inference is drawn regarding the molecular aetiology and pathogenesis of human disease. It provides critical analysis and evaluation of which models can genuinely inform the research community about the direct process of human disease, those which may have value in basic toxicology, and those which are simply designed for effective expression and raw characterisation.
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