Enhancing the biological activity of immobilized osteopontin using a type-1 collagen affinity coating

The covalent attachment of biomolecules onto surfaces represents a step toward the improvement of biomaterial properties by providing relevant biological signals of interest to the cell culture or tissue environment. The chemistries involved, however, often attach proteins to the surface in a random...

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Veröffentlicht in:Journal of biomedical materials research 2004-07, Vol.70A (1), p.10-19
Hauptverfasser: Martin, Stephanie M., Schwartz, Jeffrey L., Giachelli, Cecilia M., Ratner, Buddy D.
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Sprache:eng
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Zusammenfassung:The covalent attachment of biomolecules onto surfaces represents a step toward the improvement of biomaterial properties by providing relevant biological signals of interest to the cell culture or tissue environment. The chemistries involved, however, often attach proteins to the surface in a random fashion, rather than the conformation or orientation most easily recognized by cells and other proteins both in vitro and in vivo. An alternative approach is to take advantage of natural interactions to both bind and orient a biomolecule “naturally,” thereby enhancing its biological activity. Type 1 collagen has been shown to bind to osteopontin (OPN), a protein implicated in processes such as wound healing, endothelial cell survival, and angiogenesis. This study seeks to characterize, quantify, and exploit this interaction in order to present a more naturally recognized form of OPN to the environment surrounding a biomaterial. Binding of OPN to type 1 collagen was confirmed using Surface Plasmon Resonance (SPR). Radio‐iodination of OPN showed that binding to collagen was dose‐dependent and maximal in basic conditions. Principal component analysis of Time‐of‐Flight Secondary Ion Mass Spectrometry (ToF‐SIMS) data identified differences in OPN immobilized via different techniques. Adhesion of bovine aortic endothelial cells on OPN immobilized using the affinity coating was also significantly enhanced compared to controls. Investigation into the in vivo relevance of this immobilization method is currently underway. © 2004 Wiley Periodicals, Inc. J Biomed Mater Res 70A: 10–19, 2004
ISSN:1549-3296
0021-9304
1552-4965
1097-4636
DOI:10.1002/jbm.a.30052