The efficiency of muscle-derived cell-mediated bone formation.

The development of new clinically applicable methods for the delivery of bone morphogenic protein (BMP) is an area of intensive research. Cell-mediated gene therapy approaches are being explored as a potential delivery vehicle. Primary muscle-derived cells isolated from an adult mouse were transduced with an adenoviral-BMP-2 construct. These cells were injected into the triceps surae of severe combined immune deficient (SCID) mice where they induced heterotopic bone formation. BMP-2 expression by these muscle-derived cell constructs was measured in vitro to estimate in vivo BMP-2 delivery. In vitro expression of BMP-2 by 3 x l0(5) muscle-derived cells was 87.89 ng/72 h. These results suggest that the efficiency of muscle cell-based gene delivery of BMP-2 exceeds the direct delivery of recombinant BMP-2 protein.