使用基于微珠的组合筛选方法对胚胎干细胞进行定向分化。

Directed differentiation of embryonic stem cells using a bead-based combinatorial screening method.

作者信息

Tarunina Marina, Hernandez Diana, Johnson Christopher J, Rybtsov Stanislav, Ramathas Vidya, Jeyakumar Mylvaganam, Watson Thomas, Hook Lilian, Medvinsky Alexander, Mason Chris, Choo Yen

机构信息

Plasticell Ltd, Stevenage Bioscience Catalyst, Stevenage, United Kingdom.

Plasticell Ltd, Stevenage Bioscience Catalyst, Stevenage, United Kingdom; Advanced Centre for Biochemical Engineering, University College London, London, United Kingdom.

出版信息

PLoS One. 2014 Sep 24;9(9):e104301. doi: 10.1371/journal.pone.0104301. eCollection 2014.

DOI:10.1371/journal.pone.0104301

PMID:25251366

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4174505/

Abstract

We have developed a rapid, bead-based combinatorial screening method to determine optimal combinations of variables that direct stem cell differentiation to produce known or novel cell types having pre-determined characteristics. Here we describe three experiments comprising stepwise exposure of mouse or human embryonic cells to 10,000 combinations of serum-free differentiation media, through which we discovered multiple novel, efficient and robust protocols to generate a number of specific hematopoietic and neural lineages. We further demonstrate that the technology can be used to optimize existing protocols in order to substitute costly growth factors with bioactive small molecules and/or increase cell yield, and to identify in vitro conditions for the production of rare developmental intermediates such as an embryonic lymphoid progenitor cell that has not previously been reported.

摘要

我们开发了一种基于微珠的快速组合筛选方法，以确定引导干细胞分化产生具有预定特征的已知或新型细胞类型的变量的最佳组合。在此，我们描述了三个实验，包括将小鼠或人类胚胎细胞逐步暴露于10,000种无血清分化培养基组合中，通过这些实验，我们发现了多种新颖、高效且稳健的方案，可生成多种特定的造血和神经谱系。我们进一步证明，该技术可用于优化现有方案，以便用生物活性小分子替代昂贵的生长因子和/或提高细胞产量，并确定体外生产罕见发育中间体（如先前未报道过的胚胎淋巴祖细胞）的条件。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3f04/4174505/1e2023f4516d/pone.0104301.g001.jpg

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使用基于微珠的组合筛选方法对胚胎干细胞进行定向分化。

Directed differentiation of embryonic stem cells using a bead-based combinatorial screening method.

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