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本文引用的文献

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Engineering embryonic stem-cell aggregation allows an enhanced osteogenic differentiation in vitro.工程化胚胎干细胞聚集可增强体外成骨分化。
Tissue Eng Part C Methods. 2010 Aug;16(4):583-95. doi: 10.1089/ten.TEC.2009.0462.
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Engineering the embryoid body microenvironment to direct embryonic stem cell differentiation.构建胚状体微环境以引导胚胎干细胞分化。
Biotechnol Prog. 2009 Jan-Feb;25(1):43-51. doi: 10.1002/btpr.139.
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Vascular engineering using human embryonic stem cells.利用人类胚胎干细胞进行血管工程。
Biotechnol Prog. 2009 Jan-Feb;25(1):2-9. doi: 10.1002/btpr.129.
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Homogeneous and organized differentiation within embryoid bodies induced by microsphere-mediated delivery of small molecules.微球介导的小分子递送诱导胚胎样体内的均匀且有序分化。
Biomaterials. 2009 May;30(13):2507-15. doi: 10.1016/j.biomaterials.2009.01.007. Epub 2009 Jan 21.
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Gene expression profiles during early differentiation of mouse embryonic stem cells.小鼠胚胎干细胞早期分化过程中的基因表达谱
BMC Dev Biol. 2009 Jan 9;9:5. doi: 10.1186/1471-213X-9-5.
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Establishing a dynamic process for the formation, propagation, and differentiation of human embryoid bodies.建立人类胚胎体形成、增殖和分化的动态过程。
Stem Cells Dev. 2008 Dec;17(6):1227-41. doi: 10.1089/scd.2007.0272.
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Size of the embryoid body influences chondrogenesis of mouse embryonic stem cells.胚状体的大小影响小鼠胚胎干细胞的软骨形成。
J Tissue Eng Regen Med. 2008 Dec;2(8):499-506. doi: 10.1002/term.125.
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Embryoid body morphology influences diffusive transport of inductive biochemicals: a strategy for stem cell differentiation.胚状体形态影响诱导性生物化学物质的扩散运输:一种干细胞分化策略。
Biomaterials. 2008 Dec;29(34):4471-80. doi: 10.1016/j.biomaterials.2008.08.012. Epub 2008 Sep 14.
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The method of mouse embryoid body establishment affects structure and developmental gene expression.小鼠胚胎体的建立方法会影响其结构和发育基因表达。
Tissue Cell. 2009 Feb;41(1):79-84. doi: 10.1016/j.tice.2008.06.005. Epub 2008 Aug 23.
10
Improvement of culture conditions of human embryoid bodies using a controlled perfused and dialyzed bioreactor system.使用可控灌注和透析生物反应器系统改善人胚状体的培养条件。
Tissue Eng Part C Methods. 2008 Dec;14(4):289-98. doi: 10.1089/ten.tec.2008.0029.

通过表面修饰和亲和素-生物素交联来控制类胚体的形成。

Controlled embryoid body formation via surface modification and avidin-biotin cross-linking.

机构信息

STEM, Centre for Biomolecular Sciences, School of Pharmacy, University of Nottingham, Nottingham, NG7 2RD, UK.

出版信息

Cytotechnology. 2009 Dec;61(3):135-44. doi: 10.1007/s10616-010-9255-3. Epub 2010 Feb 10.

DOI:10.1007/s10616-010-9255-3
PMID:20145998
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2825297/
Abstract

Cell-cell interaction is an integral part of embryoid body (EB) formation controlling 3D aggregation. Manipulation of embryonic stem (ES) cell interactions could provide control over EB formation. Studies have shown a direct relationship between EB formation and ES cell differentiation. We have previously described a cell surface modification and cross-linking method for influencing cell-cell interaction and formation of multicellular constructs. Here we show further characterisation of this engineered aggregation. We demonstrate that engineering accelerates ES cell aggregation, forming larger, denser and more stable EBs than control samples, with no significant decrease in constituent ES cell viability. However, extended culture >/=5 days reveals significant core necrosis creating a layered EB structure. Accelerated aggregation through engineering circumvents this problem as EB formation time is reduced. We conclude that the proposed engineering method influences initial ES cell-ES cell interactions and EB formation. This methodology could be employed to further our understanding of intrinsic EB properties and their effect on ES cell differentiation.

摘要

细胞间相互作用是胚胎体(EB)形成的一个组成部分,控制着 3D 聚集。对胚胎干细胞(ES)细胞相互作用的操纵可以提供对 EB 形成的控制。研究表明,EB 形成与 ES 细胞分化之间存在直接关系。我们之前描述了一种用于影响细胞间相互作用和多细胞构建体形成的细胞表面修饰和交联方法。在这里,我们进一步描述了这种工程化聚集的特性。我们证明,工程化加速了 ES 细胞的聚集,形成了比对照样品更大、更密集和更稳定的 EB,而组成 ES 细胞的活力没有显著下降。然而,延长培养时间>/=5 天会导致核心明显坏死,形成分层的 EB 结构。通过工程化加速聚集可以避免这个问题,因为 EB 形成时间缩短了。我们得出结论,所提出的工程方法影响 ES 细胞-ES 细胞相互作用和 EB 的形成。该方法可用于进一步了解内在的 EB 特性及其对 ES 细胞分化的影响。