原代骨源细胞在无外源性因子的情况下诱导人胚胎干细胞发生成骨分化。

Primary bone-derived cells induce osteogenic differentiation without exogenous factors in human embryonic stem cells.

作者信息

Ahn Seong Eun, Kim Sinae, Park Kyu Hyung, Moon Sung Hwan, Lee Hae Jin, Kim Gi Jin, Lee Young Jae, Park Keun Hong, Cha Kwang Yul, Chung Hyung Min

机构信息

Stem Cell Research Laboratory, Cell and Gene Therapy Research Institute, Pochon CHA University, Seoul 135-081, Republic of Korea.

出版信息

Biochem Biophys Res Commun. 2006 Feb 10;340(2):403-8. doi: 10.1016/j.bbrc.2005.12.020. Epub 2005 Dec 15.

DOI:10.1016/j.bbrc.2005.12.020

PMID:16389066

Abstract

We developed a new and efficient method for osteoblastic differentiation of human embryonic stem cells (hESCs) using primary bone-derived cells (PBDs). Three days after embryoid body (hEB) formation, cells were allowed to adhere to culture surface where PBDs were pre-plated and mitomycin C-treated in DMEM/F12 medium supplemented with 5% knockout serum replacement. As early as 14 days, mineralization and formation of nodule-like structures in cocultured hEBs were prominent by von Kossa and Alizarin S staining, and expressions of osteoblast-specific markers including bone sialoprotein, alkaline phosphates, osteocalcin, collagen 1, and core binding factor alpha1 by RT-PCR. In addition, FACS analysis revealed that over 19% of the differentiated cells expressed osteocalcin. These results suggest that PBDs not only have osteogenic effects releasing osteogenic factors as bone morphogenic protein (BMP) 2 and BMP 4 but also have exerted other effects, whether chemical or physical, for the differentiation of hESCs.

摘要

我们开发了一种利用原代骨源细胞（PBDs）诱导人胚胎干细胞（hESCs）向成骨细胞分化的高效新方法。胚状体（hEB）形成三天后，将细胞接种到预先接种有PBDs并经丝裂霉素C处理的培养表面，培养基为添加5%敲除血清替代品的DMEM/F12培养基。早在14天时，通过冯科萨染色和茜素红S染色可明显观察到共培养的hEBs中有矿化现象和结节样结构形成，通过逆转录聚合酶链反应（RT-PCR）可检测到成骨细胞特异性标志物包括骨唾液蛋白、碱性磷酸酶、骨钙素、胶原蛋白1和核心结合因子α1的表达。此外，流式细胞术分析显示超过19%的分化细胞表达骨钙素。这些结果表明，PBDs不仅具有通过释放骨形态发生蛋白（BMP）2和BMP 4等成骨因子发挥成骨作用，还对hESCs的分化产生了其他化学或物理效应。

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原代骨源细胞在无外源性因子的情况下诱导人胚胎干细胞发生成骨分化。

Primary bone-derived cells induce osteogenic differentiation without exogenous factors in human embryonic stem cells.

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