While human bone morphogenetic protein-2 (rhBMP-2) is a promising growth factor for bone regeneration, its clinical efficacy has recently shown to be below expectation. In order to improve the clinical translation of rhBMP-2, there exists strong motivation to engineer better delivery systems. Hyaluronic acid (HA) hydrogel is a suitable carrier for the delivery of rhBMP-2, but a major limitation of this scaffold is its low cell adhesive properties. In this study, we have determined whether covalent grafting of an integrin-specific ligands into HA hydrogel could improve cell attachment and further enhance the osteogenic potential of rhBMP-2. A structurally stabilized fibronectin (FN) fragment containing the major integrin-binding domain of full-length FN (FN III9*-10) was engineered, in order to be incorporated into HA hydrogel. Compared to non-functionalized HA hydrogel, HA-FN hydrogel remarkably improved the capacity of the material to support mesenchymal stem cell attachment and spreading. In an ectopic bone formation model in the rat, delivery of rhBMP-2 with HA-FN hydrogel resulted in the formation of twice as much bone with better organization of collagen fibers compared to delivering the growth factor in non-functionalized HA hydrogel. This engineered hydrogel carrier for rhBMP-2 can be relevant in clinical bone repair.
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