人脂肪组织来源的多能干细胞在体外和体内均可分化为骨细胞样细胞。

Human adipose tissue-derived multipotent stem cells differentiate in vitro and in vivo into osteocyte-like cells.

作者信息

Elabd Christian, Chiellini Chiara, Massoudi Ali, Cochet Olivia, Zaragosi Laure-Emmanuelle, Trojani Christophe, Michiels Jean-François, Weiss Pierre, Carle Georges, Rochet Nathalie, Dechesne Claude A, Ailhaud Gérard, Dani Christian, Amri Ez-Zoubir

机构信息

ISBDC, Université de Nice Sophia-Antipolis, CNRS, 28 Avenue de Valrose, 06100 Nice, France.

出版信息

Biochem Biophys Res Commun. 2007 Sep 21;361(2):342-8. doi: 10.1016/j.bbrc.2007.06.180. Epub 2007 Jul 20.

DOI:10.1016/j.bbrc.2007.06.180

PMID:17651696

Abstract

Cell-based therapies are used to treat bone defects. We recently described that human multipotent adipose-derived stem (hMADS) cells, which exhibit a normal karyotype, self renewal, and the maintenance of their differentiation properties, are able to differentiate into different lineages. Herein, we show that hMADS cells can differentiate into osteocyte-like cells. In the presence of a low amount of serum and EGF, hMADS cells express specific molecular markers, among which alkaline phosphatase, CBFA-1, osteocalcin, DMP1, PHEX, and podoplanin and develop functional gap-junctions. When loaded on a hardening injectable bone substitute (HIBS) biomaterial and injected subcutaneously into nude mice, hMADS cells develop mineralized woven bone 4 weeks after implantation. Thus hMADS cells represent a valuable tool for pharmacological and biological studies of osteoblast differentiation in vitro and bone development in vivo.

摘要

基于细胞的疗法被用于治疗骨缺损。我们最近描述了人多能脂肪来源干细胞（hMADS细胞），其具有正常的核型、自我更新能力以及分化特性的维持能力，能够分化为不同的细胞谱系。在此，我们表明hMADS细胞可分化为骨细胞样细胞。在低血清和表皮生长因子（EGF）存在的情况下，hMADS细胞表达特定的分子标志物，其中包括碱性磷酸酶、核心结合因子A1（CBFA-1）、骨钙素、牙本质基质蛋白1（DMP1）、磷酸盐调节基因同源物（PHEX）和血小板内皮细胞黏附分子（podoplanin），并形成功能性缝隙连接。当接种在可硬化注射性骨替代物（HIBS）生物材料上并皮下注射到裸鼠体内后，hMADS细胞在植入4周后形成矿化编织骨。因此，hMADS细胞是体外成骨细胞分化和体内骨发育的药理学和生物学研究的宝贵工具。

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人脂肪组织来源的多能干细胞在体外和体内均可分化为骨细胞样细胞。

Human adipose tissue-derived multipotent stem cells differentiate in vitro and in vivo into osteocyte-like cells.

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