Synthetic thermoreversible polymers are compatible with osteoinductive activity of recombinant human bone morphogenetic protein 2.

Recombinant human bone morphogenetic protein 2 (rhBMP-2) is currently in clinical studies as part of an implantable device that contains a biomaterial carrier. Implant retention of rhBMP-2 by the biomaterial carrier is important for the osteoinductive activity. To control in situ retention of rhBMP-2, thermoreversible polymers were synthesized and characterized, and their compatibility with rhBMP-2-induced osteoinduction was investigated. The results indicated that polymers with a controlled "solubility <-> insolubility" transition temperature could be prepared from N-isopropylacrylamide, ethylmethacrylate, and N-acryloxysuccinimide (NASI). NASI-containing polymers were able to conjugate to rhBMP-2 without additional cross-linkers. Implantation in the rat ectopic model, where alkaline phosphatase and calcium deposition were utilized as markers of osteoinductive activity, indicated that rhBMP-2 mixed with the polymers were effective for osteoinduction. Moreover, rhBMP-2 conjugated to the chosen polymers was as effective as native rhBMP-2 in inducing ALP activity and calcium deposition. We conclude that thermoreversible polymers are compatible with rhBMP-2-induced osteogenesis and can serve as novel biomaterials for rhBMP-2 delivery.