骨形态发生蛋白受体IB型的正向选择促进人脂肪来源的基质细胞向成骨谱系的分化和定向分化。
Positive selection for bone morphogenetic protein receptor type-IB promotes differentiation and specification of human adipose-derived stromal cells toward an osteogenic lineage.
作者信息
McArdle Adrian, Chung Michael T, Paik Kevin J, Duldulao Chris, Chan Charles, Rennert Robert, Walmsley Graham G, Senarath-Yapa Kshemendra, Hu Michael, Seo Elly, Lee Min, Wan Derrick C, Longaker Michael T
机构信息
1 Hagey Laboratory for Pediatric Regenerative Medicine, Division of Plastic and Reconstructive Surgery, Department of Surgery, Stanford University School of Medicine , Stanford, California.
出版信息
Tissue Eng Part A. 2014 Nov;20(21-22):3031-40. doi: 10.1089/ten.TEA.2014.0101. Epub 2014 Jun 30.
BACKGROUND
Adipose tissue represents an abundant and easily accessible source of multipotent cells that may serve as an excellent building block for tissue engineering. However, adipose-derived stromal cells (ASCs) are a heterogeneous group and subpopulations may be identified with enhanced osteogenic potential.
METHODS
Human ASC subpopulations were prospectively isolated based on expression of bone morphogenetic protein receptor type-IB (BMPR-IB). Unsorted, BMPR-IB(+), and BMPR-IB(-) cells were analyzed for their osteogenic capacity through histological staining and gene expression. To evaluate their in vivo osteogenic potential, critical-sized calvarial defects were created in immunocompromised mice and treated with unsorted, BMPR-IB(+), or BMPR-IB(-) cells. Healing was assessed using microcomputed tomography and pentachrome staining of specimens at 8 weeks.
RESULTS
Increased osteogenic differentiation was noted in the BMPR-IB(+) subpopulation, as demonstrated by alkaline phosphatase staining at day 7 and extracellular matrix mineralization with Alizarin red staining at day 14. This was also associated with increased expression for osteocalcin, a late marker of osteogenesis. Radiographic analysis demonstrated significantly enhanced healing of critical-sized calvarial defects treated with BMPR-IB(+) ASCs compared with unsorted or BMPR-IB(-) cells. This was confirmed through pentachrome staining, which revealed more robust bone regeneration in the BMPR-IB(+) group.
CONCLUSION
BMPR-IB(+) human ASCs have an enhanced ability to form bone both in vitro and in vivo. These data suggest that positive selection for BMPR-IB(+) and manipulation of the BMP pathway in these cells may yield a highly osteogenic subpopulation of cells for bone tissue engineering.
背景
脂肪组织是多能细胞的丰富且易于获取的来源,可作为组织工程的优良构建单元。然而,脂肪来源的基质细胞(ASC)是一个异质性群体,可识别出具有增强成骨潜能的亚群。
方法
基于骨形态发生蛋白受体IB型(BMPR-IB)的表达对人ASC亚群进行前瞻性分离。通过组织学染色和基因表达分析未分选细胞、BMPR-IB(+)细胞和BMPR-IB(-)细胞的成骨能力。为评估它们在体内的成骨潜能,在免疫缺陷小鼠中制造临界大小的颅骨缺损,并用未分选细胞、BMPR-IB(+)细胞或BMPR-IB(-)细胞进行治疗。在8周时使用微型计算机断层扫描和标本的五色素染色评估愈合情况。
结果
在BMPR-IB(+)亚群中观察到成骨分化增加,如第7天碱性磷酸酶染色和第14天茜素红染色显示的细胞外基质矿化所示。这也与成骨晚期标志物骨钙素的表达增加有关。影像学分析表明,与未分选细胞或BMPR-IB(-)细胞相比,用BMPR-IB(+) ASC治疗的临界大小颅骨缺损愈合明显增强。通过五色素染色证实了这一点,该染色显示BMPR-IB(+)组有更强的骨再生。
结论
BMPR-IB(+)人ASC在体外和体内均具有增强的成骨能力。这些数据表明,对BMPR-IB(+)进行阳性选择并操纵这些细胞中的BMP途径可能产生用于骨组织工程的高成骨亚群细胞。
Zotero 插件