一种从人多能干细胞中获得功能性神经嵴细胞的稳健方法。

IF 1.5 Q4 CELL BIOLOGY
American journal of stem cells Pub Date : 2013-06-30 Print Date: 2013-01-01
Faith R Kreitzer, Nathan Salomonis, Alice Sheehan, Miller Huang, Jason S Park, Matthew J Spindler, Paweena Lizarraga, William A Weiss, Po-Lin So, Bruce R Conklin
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引用次数: 0

摘要

神经嵴(NC)细胞在胚胎发生过程中参与了所有三个胚层的许多复杂组织的发育,其异常发育是几种先天性出生缺陷的原因。从人类多能干细胞中产生包括特定亚群(如颅骨、心脏和躯干NC细胞)的NC细胞将为研究人类发育和疾病提供有价值的模型系统。在这里,我们描述了一种称为“LSB-short”的快速而稳健的NC分化方法,该方法基于双重SMAD通路抑制。该方案在8天内从多个人类诱导多能干细胞系和人类胚胎干细胞系产生高百分比的NC细胞群。产生的细胞可以很容易地繁殖,在多次传代中保持NC标记物的表达,并可以自发分化为几种NC衍生的细胞谱系,包括平滑肌细胞、外周神经元和施旺细胞。该方法产生的NC细胞代表了基于全局基因表达分析的颅骨、心脏和躯干NC亚群,与体内类似物相似,并表达一组常见的NC替代亚型。在功能上,它们还能够响应化学引诱剂如SDF-1、FGF8b和Wnt3a而适当迁移。通过在比其他已发表的方法更短的时间内产生可能代表所有NC亚群的NC细胞,我们的LSB短方法为进一步研究人类NC发育和疾病提供了理想的模型系统。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A robust method to derive functional neural crest cells from human pluripotent stem cells.

Neural crest (NC) cells contribute to the development of many complex tissues of all three germ layers during embryogenesis, and its abnormal development accounts for several congenital birth defects. Generating NC cells-including specific subpopulations such as cranial, cardiac, and trunk NC cells-from human pluripotent stem cells will provide a valuable model system to study human development and disease. Here, we describe a rapid and robust NC differentiation method called "LSB-short" that is based on dual SMAD pathway inhibition. This protocol yields high percentages of NC cell populations from multiple human induced pluripotent stem and human embryonic stem cell lines in 8 days. The resulting cells can be propagated easily, retain NC marker expression over multiple passages, and can spontaneously differentiate into several NC-derived cell lineages, including smooth muscle cells, peripheral neurons, and Schwann cells. NC cells generated by this method represent cranial, cardiac and trunk NC subpopulations based on global gene expression analyses, are similar to in vivo analogues, and express a common set of NC alternative isoforms. Functionally, they are also able to migrate appropriately in response to chemoattractants such as SDF-1, FGF8b, and Wnt3a. By yielding NC cells that likely represent all NC subpopulations in a shorter time frame than other published methods, our LSB-short method provides an ideal model system for further studies of human NC development and disease.

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