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CDK4 和细胞周期蛋白 D1 允许人类成肌细胞在不损害分化潜能的情况下重新获得生长特性。

CDK4 and cyclin D1 allow human myogenic cells to recapture growth property without compromising differentiation potential.

机构信息

Department of Regenerative Medicine, National Institute for Longevity Sciences, National Center for Geriatrics and Gerontology, Oobu, Japan.

出版信息

Gene Ther. 2011 Sep;18(9):857-66. doi: 10.1038/gt.2011.44. Epub 2011 Apr 14.

DOI:10.1038/gt.2011.44
PMID:21490680
Abstract

In vitro culture systems of human myogenic cells contribute greatly to elucidation of the molecular mechanisms underlying terminal myogenic differentiation and symptoms of neuromuscular diseases. However, human myogenic cells have limited ability to proliferate in culture. We have established an improved immortalization protocol for human myogenic cells derived from healthy and diseased muscles; constitutive expression of mutated cyclin-dependent kinase 4, cyclin D1 and telomerase immortalized human myogenic cells. Normal diploid chromosomes were preserved after immortalization. The immortalized human myogenic cells divided as rapidly as primary human myogenic cells during the early passages, and underwent myogenic, osteogenic and adipogenic differentiation under appropriate culture conditions. The immortalized cells contributed to muscle differentiation upon xenotransplantation to immunodeficient mice under conditions of regeneration following muscle injury. We also succeeded in immortalizing cryopreserved human myogenic cells derived from Leigh disease patients following primary culture. Forced expression of the three genes shortened their cell cycle to < 30 h, which is similar to the doubling time of primary cultured human myogenic cells during early passages. The immortalization protocol described here allowed human myogenic cells to recapture high proliferation activity without compromising their differentiation potential and normal diploidy.

摘要

体外培养的人类肌细胞系极大地促进了阐明肌细胞终末分化和神经肌肉疾病症状的分子机制。然而,人类肌细胞在培养中增殖能力有限。我们建立了一种改良的永生化方案,用于源自健康和患病肌肉的人类肌细胞;突变型细胞周期蛋白依赖性激酶 4、细胞周期蛋白 D1 和端粒酶的组成型表达可使人类肌细胞永生化。永生化后仍保留正常的二倍体染色体。永生化的人类肌细胞在早期传代时与原代人类肌细胞一样快速分裂,并在适当的培养条件下进行肌源性、成骨源性和脂肪源性分化。在肌肉损伤后再生的条件下,将这些永生化细胞异种移植到免疫缺陷小鼠中,可促进肌肉分化。我们还成功地对来自 Leigh 病患者的冷冻保存的原代培养人类肌细胞进行了永生化。这三种基因的强制表达将其细胞周期缩短至<30 小时,与早期传代的原代培养人类肌细胞的倍增时间相似。本文描述的永生化方案使人类肌细胞在不损害其分化潜能和正常二倍体的情况下,重新获得高增殖活性。

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