期刊
BIOMATERIALS
卷 30, 期 6, 页码 1089-1097出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.biomaterials.2008.10.047
关键词
Fibronectin; Integrins; Recombinant protein; Hydrogel; Mesenchymal stem cell; Osteogenesis
资金
- European Commission
- JSPS
- SNSF
- NIH/NCI [CA86997]
- NSF [EEC-9731643]
The extracellular matrix (ECM) exerts powerful control over many cellular phenomena, including stem cell differentiation. As such, design and modulation of ECM analogs to ligate specific integrin is a promising approach to control cellular processes ill vitro and in vivo for regenerative medicine strategies. Although fibronectin (FN), a crucial ECM protein in tissue development and repair, and its RGD peptide are widely used for cell adhesion. the promiscuity with which they engage integrins leads to difficulty in control of receptor-specific interactions. Recent simulations of force-mediated unfolding of FN domains all sequences analysis of human versus mouse FN suggest that the structural stability of the FN's central cell-binding domains (FN 1119-10) affects its integrin specificity. Through production of FN 1119-10 variants with variable stabilities, we obtained ligands that present different specificities for the integrin alpha(5)beta(1) and that can be covalently linked into fibrin matrices. Here, we demonstrate the capacity of 9513, integrin-specific engagement to influence human mesenchymal stem cell (MSC) behavior in 2D and 3D environments. Our data indicate that alpha(5)beta(1), has an important role in the control of MSC osteogenic differentiation. FN fragments with increased specificity for alpha(5)beta(1) versus alpha(v)beta(3) results in significantly enhanced osteogenic differentiation of MSCs in 2D and in a clinically relevant 3D fibrin matrix system, although attachment/spreading and proliferation were comparable with that on full-length FN. This work shows how integrin-dependant cellular interactions with the ECM can be engineered to control stem cell fate, within a system appropriate for both 3D cell Culture and tissue engineering. 2008 (C) Elsevier Ltd. All rights reserved.
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