Signalling strategies for osteogenic differentiation of human umbilical cord mesenchymal stromal cells for 3D bone tissue engineering

Signalling strategies for osteogenic differentiation of human umbilical cord mesenchymal stromal cells for 3D bone tissue engineering

Human umbilical cord mesenchymal stromal cells (hUCMSCs) have recently shown the capacity to differentiate into multiple cell lineages in all three embryonic germ layers. The osteogenic differentiation of hUCMSCs in monolayer culture has been reported, while the differentiation in three‐dimensional...

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Bibliographic Details
Published in:Journal of tissue engineering and regenerative medicine Vol. 3; no. 5; pp. 398 - 404
Main Authors: Wang, Limin, Singh, Milind, Bonewald, Lynda F., Detamore, Michael S.
Format: Journal Article
Language:English
Published: Chichester, UK John Wiley & Sons, Ltd 01-07-2009
Subjects:
Bone and Bones - pathology
Cell Differentiation
Cell Proliferation
Cells, Cultured
Culture Media - pharmacology
Humans
IGF-1
Insulin-Like Growth Factor I - metabolism
Lactic Acid - chemistry
Mesenchymal Stromal Cells - cytology
Osteogenesis
Polyesters
Polymers - chemistry
Signal Transduction
stem cells
Stem Cells - cytology
Stromal Cells - cytology
Tissue Engineering - methods
umbilical cord stroma
Umbilical Veins - cytology
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Summary:Human umbilical cord mesenchymal stromal cells (hUCMSCs) have recently shown the capacity to differentiate into multiple cell lineages in all three embryonic germ layers. The osteogenic differentiation of hUCMSCs in monolayer culture has been reported, while the differentiation in three‐dimensional biomaterials has not yet been reported for tissue‐engineering applications. Thus, the aim of this study was to evaluate the feasibility of using hUCMSCs for bone tissue engineering. hUCMSCs were cultured in poly(L‐lactic acid) (PLLA) scaffolds in osteogenic medium (OM) for 3 weeks, after which the scaffolds were exposed to several different media, including the OM, a mineralization medium (MM) and the MM with either 10 or 100 ng/ml insulin‐like growth factor (IGF)‐1. The osteogenic differentiation was confirmed by the up‐regulation of Runx2 and OCN, calcium quantification and bone histology. Switching from the OM to the MM promoted collagen synthesis and calcium content per cell, while continuing in the OM retained more cells in the constructs and promoted higher osteogenic gene expression. The addition of IGF‐1 into the MM had no effect on cell proliferation, differentiation and matrix synthesis. In conclusion, hUCMSCs show significant potential for bone tissue engineering and culturing in the OM throughout the entire period is beneficial for osteogenic differentiation of these cells. Copyright © 2009 John Wiley & Sons, Ltd.
Bibliography:ark:/67375/WNG-XZT4M80V-6
istex:289A3308CC95B51C7D8C7343AEFC7694F3004EB0
ArticleID:TERM176
Arthritis Foundation (to MSD)
ISSN:1932-6254
1932-7005
DOI:10.1002/term.176