Objective To investigate the differentiation of theadipose-derived adult stem cell (ADASC) induced by the recombinant adenovirus’s containing fibers derived from B-group serotype 35 (rAd5/F35)mediated human bone morphogenetic protein 7 (hBMP-7) gene and to explore a new cell sourcefor the bone tissue engineering. Methods The hBMP-7 gene wasamplified with the pcDNA1.1/AMP-hBMP-7 plasmid as a formwork. After the purification, the gene fragment was cloned into the pDC316 carrier for the recombination of the plasmid of pDC316-hBMP-7. The 293 cells were cotransfected by the skeleton plasmid of pBHG-fiber5/35 and the shuttle plasmid of pDC316-hBMP-7, and the recombinant plasmid of Ad5/F35-hBMP-7 was obtained; the recombinant plasmid of Ad5/F35enhancd green fluorescent protein(EGFP) was obtained by the similar method. The rat ADASCs were cultured and transfected by the Ad5/F35-hBMP-7plasmid and the Ad5/F35-EGFP plasmid, respectively; the remaining untransfected ADASC were used as the controls. The morphology and the growth pattern of the transfected cells were evaluated. The transcription and the expression of the transfected genes and the steogenic phenotypes such as calcium nodules and osteocalcin were evaluated by ELISA. Results The identification of PCR and enzyme cutting showed that the construction of the recombinant Ad5/F35-hBMP-7 plasmid could be confirmed. The transfection rate of the ADASC by the Ad5/F35-EGFP plasmid was determined to be greater than 90%. The hBMP-7 gene in thetransfected ADASC could express the corresponding protein, and the formation ofthe calcium nodules could be found in the induced group. The electron microscopy showed that there was a calcium element in the cytoplasm, the alkaline phosphatase result was positive, and the expression of osteocalcin was increased. Conclusion The rAd5/F35-hBMP-7 gene can promote the differentiation of the adiposederived adult stem cells to the osteoblasts in the bone tissue engineering.
Objective To investigate the possibility of differentiation of theisolated and cultured adipose-derived adult stem cells into chondrocytes, which is induced by the recombinant human bone morphogenetic protein 2 (rhBMP-2). Methods The rabbit adipose tissue was minced and digested by collagenase Type Ⅰ. The adposederived adult stem cells were obtained and then they were cultured inthe micropellet condition respectively in the rhBMP-2 group, the rhTGF-β1 group, the combination group, and the control group for 14 days. The differentiation of the adiposederived stem cells into chondrocytes was identifiedby the histological methods including HE, Alcian blue, Von kossa, and immunohistochemical stainings. Results After the continuous induction by rhBMP-2 and continuous culture for 14 days, the HE staining revealed a formation of the cartilage lacuna; Alcian blue indicated that proteoglycan existed in the extracellular matrix; the immunohistochemical staining indicated that collagen Ⅱ was in the cellular matrix; and Von kossa indicated that the adipose-derived stem cells couldnot differentiate into the osteoblasts by an induction of rhBMP-2. Conclusion In the micropellet condition, the adipose-derived adult stemcells can differentiate into the chondrocytes, which is initially induced by rhBMP-2. This differentiation can provide a foundation for the repair of the cartilage injury.