同样获得和培养的 hESC 系在长期培养中向神经元细胞的发育潜能方面存在差异。

Similarly derived and cultured hESC lines show variation in their developmental potential towards neuronal cells in long-term culture.

机构信息

Regea Institute for Regenerative Medicine, University of Tampere & Tampere University Hospital, Tampere, Finland.

出版信息

Regen Med. 2010 Sep;5(5):749-62. doi: 10.2217/rme.10.58.

DOI:10.2217/rme.10.58

PMID:20868330

Abstract

BACKGROUND

Human embryonic stem cells (hESCs) can differentiate into any human cell type, including CNS cells, and thus have high potential in regenerative medicine. Several protocols exist for neuronal differentiation of hESCs, which do not necessarily work for all hESC lines.

MATERIALS & METHODS: We tested the differentiation capacity of four similarly derived and cultured hESC lines (HS181, HS360, HS362 and HS401) in suspension culture in relatively simple neural differentiation medium for up to 20 weeks.

RESULTS

All the hESC lines differentiated into neuronal cells, but in a line-dependent manner. Using our method, the HS181- and HS360-derived neurospheres differentiated in vitro into pure neuronal cell populations within 6 weeks, whereas HS362 and HS401 reached their peak of differentiation in 12 weeks, but never produced pure neuronal cell populations using the present method. The withdrawal of FGF from suspension culture increased the in vitro differentiation potential. The hESC-derived neurospheres formed functional neuronal networks when replated on a microelectrode array and responded as expected to pharmacologic modulation.

CONCLUSION

Simple neurosphere culture is a suitable method for producing hESC-derived neuronal cells that can form functional neuronal networks from a number of hESC lines. The variation in the differentiation potential of hESC lines into neuronal cells must be carefully considered by those comparing various differentiation methods and designing transplantation therapies for neuronal disorders.

摘要

背景

人类胚胎干细胞（hESC）可以分化为包括中枢神经系统细胞在内的任何人类细胞类型，因此在再生医学中有很高的潜力。有几种用于 hESC 神经元分化的方案，但并不一定适用于所有 hESC 系。

材料与方法

我们在相对简单的神经分化培养基中，在悬浮培养中测试了四个类似来源和培养的 hESC 系（HS181、HS360、HS362 和 HS401）的分化能力，时间长达 20 周。

结果

所有 hESC 系均分化为神经元细胞，但具有系依赖性。使用我们的方法，HS181 和 HS360 衍生的神经球在体外 6 周内分化为纯神经元细胞群体，而 HS362 和 HS401 在 12 周时达到分化高峰，但使用目前的方法从未产生纯神经元细胞群体。从悬浮培养中撤出 FGF 可增加体外分化潜能。hESC 衍生的神经球在微电极阵列上再培养时形成功能性神经元网络，并对药物调节做出预期反应。

结论

简单的神经球培养是一种合适的方法，可以从多个 hESC 系产生 hESC 衍生的神经元细胞，这些细胞可以形成功能性神经元网络。在比较各种分化方法和设计神经元疾病移植治疗时，必须仔细考虑 hESC 系向神经元细胞分化的潜在差异。

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同样获得和培养的 hESC 系在长期培养中向神经元细胞的发育潜能方面存在差异。

Similarly derived and cultured hESC lines show variation in their developmental potential towards neuronal cells in long-term culture.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

材料与方法

结果

结论

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