Combinatorial Gene Therapy with BMP2/7 Enhances Cranial Bone Regeneration

Abstract

BMP2/7 heterodimer expression by adenovirus can stimulate bone formation at subcutaneous sites. In the present study, we evaluate whether this approach will also promote healing of cranial defects. Adenovirus expressing BMP2 or BMP7 (AdBMP2, AdBMP7) was titrated to yield equivalent BMP protein levels after transduction into murine BLK cells. Analysis of conditioned medium showed that BMP2/7 heterodimers have enhanced ability to stimulate alkaline phosphatase and Smad 1,5,8 phosphorylation relative to equivalent amounts of BMP2 or BMP7 homodimers. To measure bone regeneration, we implanted virally transduced BLK cells into critical-sized calvarial defects generated in C57BL6 mice. AdBMP2/7-transduced cells were more effective in healing cranial defects than were cells individually transduced with AdBMP2 or BMP7. Dramatic increases in bone volume fraction, as measured by microCT, as well as fusion of regenerated bone with the defect margins were noted. Thus, the use of gene therapy to express heterodimeric BMPs is a promising potential therapy for healing craniofacial bones.