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Tissue Eng Part A. 2018 Sep;24(17-18):1377-1389. doi: 10.1089/ten.TEA.2017.0448. Epub 2018 May 21.

Human Osteoblast-Derived Extracellular Matrix with High Homology to Bone Proteome Is Osteopromotive.

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1 Department of Internal Medicine, Erasmus University Medical Center , Rotterdam, The Netherlands .
2 Department of Precision and Microsystems Engineering, Delft University of Technology (TU Delft) , Delft, The Netherlands .
3 Department of Biomechanical Engineering, Delft University of Technology (TU Delft) , Delft, The Netherlands .
4 Proteomics Center, Erasmus University Medical Center , Rotterdam, The Netherlands .


Efficient osteogenic differentiation of mesenchymal stromal cells (MSCs) is crucial to accelerate bone formation. In this context, the use of extracellular matrix (ECM) as natural 3D framework mimicking in vivo tissue architecture is of interest. The aim of this study was to generate a devitalized human osteogenic MSC-derived ECM and to investigate its impact on MSC osteogenic differentiation to improve MSC properties in bone regeneration. The devitalized ECM significantly enhanced MSC adhesion and proliferation. Osteogenic differentiation and mineralization of MSCs on the ECM were quicker than in standard conditions. The presence of ECM promoted in vivo bone formation by MSCs in a mouse model of ectopic calcification. We analyzed the ECM composition by mass spectrometry, detecting 846 proteins. Of these, 473 proteins were shared with the human bone proteome we previously described, demonstrating high homology to an in vivo microenvironment. Bioinformatic analysis of the 846 proteins showed involvement in adhesion and osteogenic differentiation, confirming the ECM composition as key modulator of MSC behavior. In addition to known ECM components, proteomic analysis revealed novel ECM functions, which could improve culture conditions. In summary, this study provides a simplified method to obtain an in vitro MSC-derived ECM that enhances osteogenic differentiation and could be applied as natural biomaterial to accelerate bone regeneration.


bone; bone tissue engineering; extracellular matrix; mesenchymal stromal cells

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