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三种携带亨廷顿舞蹈症特定突变的人类胚胎干细胞系在体外分化为心肌细胞时,CAG重复序列数量稳定。

Three Huntington's Disease Specific Mutation-Carrying Human Embryonic Stem Cell Lines Have Stable Number of CAG Repeats upon In Vitro Differentiation into Cardiomyocytes.

作者信息

Jacquet Laureen, Neueder Andreas, Földes Gabor, Karagiannis Panagiotis, Hobbs Carl, Jolinon Nelly, Mioulane Maxime, Sakai Takao, Harding Sian E, Ilic Dusko

机构信息

Stem Cell Laboratory, Assisted Conception Unit, Division of Women's Health, King's College London, Guy's Hospital, London, SE1 9RT, United Kingdom.

Division of Genetics and Molecular Medicine, King's College London, Guy's Hospital, London, SE1 9RT, United Kingdom.

出版信息

PLoS One. 2015 May 20;10(5):e0126860. doi: 10.1371/journal.pone.0126860. eCollection 2015.

DOI:10.1371/journal.pone.0126860
PMID:25993131
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4438866/
Abstract

Huntington disease (HD; OMIM 143100), a progressive neurodegenerative disorder, is caused by an expanded trinucleotide CAG (polyQ) motif in the HTT gene. Cardiovascular symptoms, often present in early stage HD patients, are, in general, ascribed to dysautonomia. However, cardio-specific expression of polyQ peptides caused pathological response in murine models, suggesting the presence of a nervous system-independent heart phenotype in HD patients. A positive correlation between the CAG repeat size and severity of symptoms observed in HD patients has also been observed in in vitro HD cellular models. Here, we test the suitability of human embryonic stem cell (hESC) lines carrying HD-specific mutation as in vitro models for understanding molecular mechanisms of cardiac pathology seen in HD patients. We have differentiated three HD-hESC lines into cardiomyocytes and investigated CAG stability up to 60 days after starting differentiation. To assess CAG stability in other tissues, the lines were also subjected to in vivo differentiation into teratomas for 10 weeks. Neither directed differentiation into cardiomyocytes in vitro nor in vivo differentiation into teratomas, rich in immature neuronal tissue, led to an increase in the number of CAG repeats. Although the CAG stability might be cell line-dependent, induced pluripotent stem cells generated from patients with larger numbers of CAG repeats could have an advantage as a research tool for understanding cardiac symptoms of HD patients.

摘要

亨廷顿舞蹈症(HD;OMIM 143100)是一种进行性神经退行性疾病,由HTT基因中三核苷酸CAG(多聚谷氨酰胺)基序的扩增引起。心血管症状在HD患者早期通常会出现,一般归因于自主神经功能障碍。然而,多聚谷氨酰胺肽的心脏特异性表达在小鼠模型中引发了病理反应,这表明HD患者存在一种不依赖于神经系统的心脏表型。在体外HD细胞模型中也观察到HD患者CAG重复序列大小与症状严重程度之间存在正相关。在此,我们测试携带HD特异性突变的人类胚胎干细胞(hESC)系作为体外模型来理解HD患者心脏病理分子机制的适用性。我们已将三个HD - hESC系分化为心肌细胞,并在开始分化后长达60天研究CAG稳定性。为了评估其他组织中的CAG稳定性,这些细胞系还被用于体内分化形成畸胎瘤10周。无论是体外定向分化为心肌细胞还是体内分化为富含未成熟神经组织的畸胎瘤,均未导致CAG重复序列数量增加。尽管CAG稳定性可能依赖于细胞系,但由具有更多CAG重复序列的患者产生的诱导多能干细胞作为理解HD患者心脏症状的研究工具可能具有优势。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1c2f/4438866/5cb4bf9fd560/pone.0126860.g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1c2f/4438866/265678e6d09e/pone.0126860.g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1c2f/4438866/210721da7973/pone.0126860.g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1c2f/4438866/5cb4bf9fd560/pone.0126860.g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1c2f/4438866/265678e6d09e/pone.0126860.g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1c2f/4438866/210721da7973/pone.0126860.g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1c2f/4438866/5cb4bf9fd560/pone.0126860.g003.jpg

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本文引用的文献

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Direct evidence of progressive cardiac dysfunction in a transgenic mouse model of Huntington's disease.亨廷顿舞蹈病转基因小鼠模型中心脏功能进行性障碍的直接证据。
J Huntingtons Dis. 2012;1(1):57-64. doi: 10.3233/JHD-2012-120004.
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Oxidative stress causes DNA triplet expansion in Huntington's disease mouse embryonic stem cells.氧化应激导致亨廷顿舞蹈症小鼠胚胎干细胞中的DNA三联体扩增。
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J Assist Reprod Genet. 2021 May;38(5):1215-1229. doi: 10.1007/s10815-021-02106-3. Epub 2021 Feb 20.
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Modifiers of CAG/CTG Repeat Instability: Insights from Mammalian Models.CAG/CTG 重复不稳定的修饰因子:来自哺乳动物模型的见解。
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Mitochondrial and Redox Modifications in Huntington Disease Induced Pluripotent Stem Cells Rescued by CRISPR/Cas9 CAGs Targeting.通过CRISPR/Cas9靶向CAGs拯救亨廷顿病诱导多能干细胞中的线粒体和氧化还原修饰
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