Objective To construct the eukaryotic expression vector of human bone morphogenetic protein 7 (hBMP-7) gene so as to observe its expression in rabbit adipose-derived stem cells (ADSCs) and its effects on osteogenic phe notype. Methods Several healthy 3-month-old Japanese rabbits of clean grade were chosen, female or male and weighing 3-4 kg. ADSCs were isolated and cultured with collagenase digestion, then were detected and identified by CD44, CD49d, andCD106 immunofluorescence staining. The eukaryotic expression vector of hBMP-7 gene (pcDNA3.1-hBMP-7) was constructed, which was transfected into rabbit ADSCs (3rd passage) by Li pofectamineTM 2000 after identified, then the expression of hBMP-7 in transfected ADSCs was detected. The alkal ine phosphatase (ALP) level and the collagen type I expression were detected by intracellular ALP spectrophotometry and immunofluorescence, respectively to assess the effect of hBMP-7 gene on the osteoblastic differentiation of ADSCs. Results ADSCs mostly presented fusiform and polygon shape with positive expressions of CD44 and CD49d and negative expression of CD106. The eukaryotic expression vector of pcDNA3.1-hBMP-7 gene was successfully constructed and the expression of hBMP-7 was confirmed in ADSCs by immunohistochemical staining. The intracellular ALP quantitative detection showed that the activity of ALP was significantly higher in pcNDA3.1-hBMP-7 transfected group (experimental group) than in pcDNA3.1 transfected group (control group) at 7, 10, and 14 days after transfection (P lt; 0.05). The expression of collagen type I was higher in experimental group than in control group at 7 and 14 days after transfection (P lt; 0.05). Conclusion The eukaryotic expression vector of pcDNA3.1-hBMP-7 gene is successfully constructed, which can express in ADSCs. The expressions of collagen type I and ALP in experimental group are higher than those in control group, which lays a basis for the local gene therapy of skeletal regeneration.
Objective To investigate the feasibil ity and effect of inducing adi pose-derived stem cells (ADSCs) treated with growth differentiation factor 5 (GDF-5) to undergo chondrogenic differentiation in vitro. Methods Six healthy Japanese rabbits aged 3 months (2-3 kg) of clean grade were chosen, irrespective of sex. ADSCs were isolated and cultured with collagenase digestion, then were detected and identified by vimentin immunohistochemistry and CD44, CD49d, CD106immunofluorescence staining. ADSCs at passage 3 were used and the cell density was adjusted to 1 × 106/mL, then the ADSCs were treated with 0, 10, 100 ng/mL GDF-5 and common cultural medium, respectively. The morphology changes of the induced ADSCs were observed by inverted contrast phase microscope and their growth state were detected by MTT. The mRNA quantities of Col II and proteoglycan expressed by the induced ADSCs were detected with RT-PCR. The Col II proteoglycan synthesized by the induced ADSCs were detected with alcian blue staining, toluidine blue staining, immunohistochemistry staining, and Western blot method. Results ADSCs mostly presented small sphere, fusiform and polygon shape with positive expression of CD44 and CD49d and negative expression of CD106 and vimentin. The ADSCs treated with 100 ng/mL GDF-5 presented sphere or sphere-l ike change and vigorous prol iferation. The mRNA quantities of Col II and proteoglycan synthesized by the induced ADSCs treated with 0, 10, 100 ng/mL GDF-5 and common cultural medium increased in a dose-dependent manner at 7 days. There were significant differences among all the groups (P lt; 0.05), except that no significant difference was evident between the 0 ng/mL group and the 10 ng/mL group (P gt; 0.05). When ADSCs were treated with 100 ng/mL GDF-5 for 14 days, the Col II and the mRNA and protein quantities of ptoteoglycan reached the peak, and the results of alcian blue, toluidine blue and Col IIimmunohistochemistry staining were positive. Conclusion ADSCs treated with certain concentration of GDF-5 have higher expression of Col II and proteoglycan and possess partial biological function of chondrocyte.