Abstract

Bone morphogenic protein 2 (BMP-2) plays a key role in skeletal development, repair and regeneration. To gain a better understanding of the role of BMP-2 in periosteum-mediated bone repair, we deleted BMP-2 postnatally at the initiation stage of healing utilizing a Tamoxifen-inducible CreER mouse model. To mark the mutant cells, we further generated a BMP-2 f/f; CreER; RosaR mouse model that enabled the activation of a LacZ reporter gene upon treatment of Tamoxifen. We demonstrated that deletion of BMP-2 at the onset of healing abolished periosteum-mediated bone/cartilage callus formation. In a chimeric periosteal callus with cells derived from both wild type and the mutant, over 90% of the mutant mesenchymal progenitors remained undifferentiated. Within differentiated bone and cartilage tissues, only a few cells could be identified as mutants. Using a bone graft transplantation approach, we further showed that transplantation of a mutant bone graft into a wild type host failed to rescue the deficient differentiation of the mutant cells at day 10 post-grafting. These data strongly suggest that the endogenous expression of BMP-2 plays a critical role in osteogenic and chondrogenic differentiation of periosteal progenitors during repair. To determine whether BMP-2 deficient cells remained responsive to exogenous BMP-2, we isolated periosteal mesenchymal progenitors from BMP-2 deficient bone autografts. The isolated cells demonstrated a 90% reduction of endogenous BMP-2 expression, accompanied by significant decrease in cellular proliferation and a near blockade of osteogenic differentiation. The addition of exogenous BMP-2 partially rescued impaired proliferation and further enhanced osteogenic differentiation in a dose dependent manner. Taken together, our data show that the initiation of the cortical bone repair in vivo is controlled by endogenous BMP-2. Future studies are necessary to determine the mechanisms by which the BMP-2 pathway is activated in periosteal progenitor cells at the onset of cortical bone repair.

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