In order to explore further the regulatory factors to the potentiality in inducing osteogenesis by fibroblasts, the fibroblasts were isolated, and purified from human skin, and were grown in incubation in the media of EGF, IL-6, TNF-alpha and BMP2 at different concentrations for two weeks, then, the markers for osteogenic features were investigated by biochemistry, histochemistry and electron microscopic observations. It was found that the combined use of TNF-alpha and BMP2 could stimulate fibroblasts to secrete alkaline phosphatase, osteocalcin and collagen, and the morphological changes of the fibroblasts were also very striking. In the extracellular matrix, the collagen fibrils, with or without periodicity, were arranged regularly or randomly oriented, and numerous minute calcium granules were interspersed among them. The fibroblasts were interwoven one on top of another in the form of multilayer structure and on the surface, there were secreting granules and piling up of calcium crystals which coalessed steadily and increased in size in forming bony nodules. It was considered that TNF-alpha and BMP2 were capable of inducing the fibroblasts to form bone.
OBJECTIVE To observe the osteogenesis of percutaneous autogenous bone marrow grafting in cicatricial bone defect, to seek a good method for treating fracture nonunion. METHODS Eighteen rabbits were adopted in this study. 1 cm bone defect model was made in each side of radius, 6 weeks later, 2 ml autogenous bone marrow was injected in the right radial bone defect as experimental group, 2 ml autogenous peripheral blood in the left side as control group. X-ray features, histologic changes, Ca and P content in the site of bone defect were studied in various times. Also 15 patients were treated clinically for the nonunion fracture, the average time from nonunion to bone marrow grafting was 13 months. RESULTS In experimental group, the increasing new bone tissue were observed in X-ray and histologic examination. While in control group, no osteogenesis was observed. Ca and P content of experimental group was higher than that of control group. For the 15 patients, 13 cases healed in 5-9 months, 2 cases failed. CONCLUSION Percutaneous autogenous bone marrow grafting is capable of osteogenesis in the cicatricial bone defects. It can be used in nonunion cases which are not fit for operation of bone grafting because of poor condition of the skin.
ObjectiveTo investigate the regulation of human bone marrow mesenchymal stem cells (hBMSCs) osteogenic and adipogenic differentiations mediated by Wnt10b adenoviral vector in vitro. MethodsThe hBMSCs from ilial bone tissue in adults at passage 4 were infected by Wnt10b gene expression adenoviral vector (group A), Wnt10b-shRNA adenoviral vector (group B), and empty vector (group C), and non-transfected hBMSCs served as the blank control group. Then the cells were cultured separately in the circumstance of osteogenic induction, adipogenic induction, and non-induction. The alkaline phosphatase (ALP) staining, alizarin red staining, and oil red O staining were used to detect the osteogenic and adipogenic differentiations; real-time fluorescent quantitative PCR and Western blot were used to analyze the expressions of osteoblast and adipocyte genes and proteins. ResultsThe results of ALP staining were positive after osteogenic induction, group A showed strong staining, and group B showed the weakest staining. The results of alizarin red staining showed that there were a lot of patchy confluent brown mineralized nodules in group A; a few punctate brown mineralized nodules were seen in group B; and many punctuate brown mineralized nodules were found in groups C and D. The results of oil red O staining showed strong staining in groups B, C, and D after adipogenic induction, especially in group B; scattered or small clustered staining was observed in group A. The expressions of osteoblast genes and proteins were significantly higher in group A than groups B, C, and D, and in groups C and D than group B by real-time fluorescent quantitative PCR and Western blot test; however, the expressions of adipocyte genes and proteins showed a contrary tendency. ConclusionThe high level expression of Wnt10b can enhance osteogenic differentiation of hBMSCs, and the low level expression of Wnt10b can increase adipogenic differentiation of hBMSCs.
Objective To study the effect of recombinant adeno-associated virus (rAAV) vector co-expressing human vascular endothel ial growth factor 165 (hVEGF165) and human bone morphogenetic protein 7 (hBMP-7) genes on bone regeneration and angiopoiesis in vivo so as to provide a theoretical basis for the gene therapy of avascular necrosis of thefemoral head (ANFH). Methods Twenty-four male adult New Zealand rabbits were made the ischemic hind l imb model and divided into 4 groups (n=6). The 3rd generation rabbit bone marrow mesenchymal stem cells (BMSCs) were transfected with the following 4 virus and were administered intramuscularly into the ischemic thigh muscle of 4 groups, respectively: rAAVhVEGF165- internal ribosome entry site (IRES)-hBMP-7 (group A), rAAV-hVEGF165-green fluorescent protein (GFP) (group B), rAAV-hBMP-7-GFP (group C), and rAAV-IRES-GFP (group D). At 8 weeks after injection, the blood flow of anterior tibial artery in the rabbit hind l imb was detected by ultrasonographic image. Immunohistochemical staining for CD34 was performed to identify the prol iferation of capillary. Another 24 male adult New Zealand rabbits were made the femur muscle pouch model and divided into 4 groups (n=6). The above 4 BMSCs transfected with rAAV were administered intramuscularly into the muscle pouch. At 8 weeks after injection, X-ray radiography was used to assess orthotopic bone formation, and von Kossa staining to show mineral ization. Results No symptoms of local or systemic toxicity were observed after rAAV injection. At 8 weeks after injection, the ratio of ischemic to normal blood flow and the number of capillaries in group A were the highest among 4 groups (P lt; 0.05). The ratio of ischemic to normal blood flow and the number of capillaries in group B were significantly higher than those in group C and group D (P lt; 0.05). However, there was no significant difference between group C and group D (P gt; 0.05). At 8 weeks after injection, orthotopic ossification and mineral ization were evidently detected in group A and group C, and group A was ber than group C. No obvious evidence of orthotopic ossification and mineral ization were observed in group B and group D. Conclusion rAAV-hVEGF165-IRES-hBMP-7 vector has the biological activities of inductive bone regeneration and angiopoiesis in vivo.
Objective To evaluate the osteogenesis of three bio-bone derived materials in repairing segmental bone defects. Methods Sixty Japanese rabbits were made 10 mm radius segmental defects and divided into 5 groups(groups A, B, C ,D and E,n=12). Composite fully deproteinised bone(CFDB, group A), partially deproteinised bone(PDPB, group B), partially decalcified bone(PDCB, group C), autogenous iliac bone graft(group D) and no implant(group E) were implanted into the radius segmental bone defects of rabbits. The specimens were examined after 4, 8, 12 and 24 weeks; the osteogenesis was evaluated through X-ray radiograph and undecalcified solid tissue histological examination.Results The border between the material and host’s bone was distinct after 4 weeks and blurred after 8 weeks; the density of partial edge of the material was similar to that of radii after 12 weeks. The medullary cavity of bone reopened in group B; the density of most defect area was similar to that of the host bone and there was a few high density shadow in group C; the density of most defect area was higher than that of host bone in group A after 24 weeks. There was no significant difference in radiograph scoring between groups A, B and C after 4 weeks and 8 weeks(P>0.05); the scores of group B and C were higher than that of group A after 12 weeks(P<0.05); and the scores were arranged as follow: group Dgt;group Bgt; group Cgt;group A after24 weeks(P<0.05). Bone callusgrew toward defect area and new bone adhered to the material after 4 weeks and 8 weeks; more new bone formed, and the materials were absorbed and degraded with time. The quantity of bone formation was more in group D than in group B andin group B than in group C and in group C than in group A after 24 weeks(P<0.05).Conclusion PDPB had good osteogenesis in repairing the segmental bone defect, PDCB was inferior to it, both PDPB and PDCB are fit to repair segmental bone defect. Both of them were inferior to autogenous bone.
OBJECTIVE To study the bone formation and osteogenesis after transplantation of human periosteal mesenchymal stem cells(PMSC). METHODS Suspension of PMSC which obtained from cell culture of periosteal segments in vitro were injected into the backs of nude mice subcutaneously, and the fracture site of neck of femur in old person. RESULTS Subdermal nodules were observed by naked eyes after 11 days of transplantation. 4 weeks later, their anatomic diameter reached 2-7 mm(averaged 3.6 mm). It was proved that the subdermal nodules were trabecular ball trapped with fibrous tissue. The nodules were investigated by human special apoB gene with PCR, and the test of anti-human-tissue precipitin reaction(AHTPR). The results of PCR and AHTPR were positive reaction. There were no subdermal nodules formed in the sites of injection of frozen-melted PMSC or culture medium. The new callus in the sites of fracture were tested by PCR test, and two kinds of apoB gene products were detected. CONCLUSION The results indicated that the implanted PMSC could form new bone directly in nude mice, and the cells of donor and recipient all could form new bone.
Objective To observe the changes in the peripheral blood T lymphocyte subsets and the histomorphology of the transplanted tissues in the rabbits in the early stage after transplantation of the tissue engineered boneconstituted by the biologically-derived scaffold and to confirm the feasibility of the biologicallyderived materials as a scaffold in the bone tissue engineering. Methods Forty-eight healthy New Zealand rabbits (weight, 2.0-2.5 kg) with a 1-cm defect were equally and randomly divided into 4 groups: Groups A-D. The partial demineralized freeze-dried bone (PDFDB), the tissue engineered bone constructed by the osteoblasts derived from the lactant rabbit periosteum as a seeding cell, the xenogeneic cancellous bone undergoing the antigen self-digestion, partial demineralization and freeze-driedprocess as a scaffold, and the fresh xenogeneic allografting bone were respectively transplanted into the segmental defects of the rabbit radii in Groups A-D.To examine the effects of the 4 different materials, the flow cytometry was used to observe the changes in the T lymphocyte subsets in the rabbit peripheral blood at 1, 2, and 4 weeks after the operations and to examine the osteogenesis achieved by the 4 materials, the histological observations were also performed at 2, 4, 8, and 12 weeks after the operations. Results Two weeks after the tissue engineered bone transplantation in Group B, the osteoblasts and chondroblasts were found in the apertures of the scaffold, the new bone formation could be observed, the osteoclasts could be seen in the peripheral zone, and some of the netlike frameworks were destroyed and absorbed. Four weeks after the operation, the histological observation revealed that the osteocartilagionous callus turned into a woven bone. The peripheral blood T lymphocyte subsets of CD4+ and CD8+ were significantly greater in number 1-2 weeks after the operations and in Groups A and B than before the operations and in the other groups (.Plt;0.05);4 weeks after the operations the T lymphocyte subset of CD4+ was only slightly greater in number than before the operations, but with no statistically significant difference (Pgt;0.05). In Group C, the increase of the T lymphocyte subsets of CD4+ and CD8+ was not significant after the operation (Pgt;0.05). The T lymphocyte subsets of CD4+ and CD8+ were significantly greater in number 1, 2 and 4 weeks after the operations and in Group D than before the operation and in the other groups (Plt;0.05). Conclusion The tissue engineered bone constructed by the partial demineralized freezedried bone as a scaffold does not cause a serious immunologic rejection in the early stage after the transplantation and does not affect its good ability to repair the bone defect. The biologicallyderived bone canbe used as a scaffold in the bone tissue engineering.
Ceramiclike xenogeneic bone (CXB) was obtained from the fresh bone of pig ribs being treated by physical and chemical methods to deprive of its organic substance. The CXB possessed the same natural porous network system as that of the human. The CXB was cultured with the bone marrow stromal cells of rabit. When the marrow cells had integrated with the CXB, thus a new material was obtained. (CXB-BM), and was implanted sacro-spinal muscle of rabbit. The specimens were observed under phase microscope, light microscope and electronic scanning microscope. The results showed that: at the 2nd week after the implantation of CBX-BM composite material there began the new bone formation, and the rate of bone formation was increased with time. There was evident new bone formation after 24 weeks. The process of the new bone formation were quite similar to the composite graft of HAP red autogenous and marrow, but the former degraded faster and formed typical cancellous structure earlier. There was no new bone formation when CXB was implanted alone in the control. Both the mechanism of osteogenetic potential and its clinical application were discussed.
Objective To investigate the role of micro RNA-451 (miRNA-451) in promoting the osteogenesis of mesenchymal stem cells (MSCs) by targeting regulatory calcium binding protein 39 (CAB39). Methods pMIR-report and pRL-TK vectors were selected to identify the relationship between miRNA-451 and CAB39 by using dual-luciferase reporter assay. pre-miRNA-451 (group A), anti-miRNA-451 (group C), pre-miRNA negative control (group B), and anti-miRNA negative control (group D) were transfected into the C3H10T1/2 cells, respectively. Then, the cells were collected after osteogenic induction for 7 and 14 days. At 7 and 14 days, the real-time fluorescent quantitative PCR and Western blot assays were performed to detect the related osteogenetic biomarkers [Runx2 and alkaline phosphatase (ALP) mRNA] and expressions of CAB39 protein. At 14 days, the extracellular calcium deposition during the osteogenesis of MSCs was tested by Alizarin red staining method. Results CAB39 was the target gene of miRNA-451. At 7 and 14 days after osteogenic induction, the mRNA expressions of Runx2 and ALP in group A were significantly higher than those in group B (P lt; 0.05), and the expressions in group C was significantly lower than those in group D (P lt; 0.05). Furthermore, at 14 days after osteogenic induction, the protein expression of CAB39 in group A (0.55 ± 0.05) was significantly lower than that in group B (1.00 ± 0.07), and the protein expression in group C (1.21 ± 0.05) was significantly higher than that in group D (1.00 ± 0.04), all showing significant difference (P lt; 0.05). Finally, at 14 days after osteogenic induction, the extracellular calcium deposition in group A was obviously more than that in group B, and group C was downregulated when compared with group D. Conclusion miRNA-451 can promote the osteogenesis process of MSCs by downregulating the CAB39.
Objective To evaluate the bone regenerative potential of reconbinant human bone morphogenetic protein 2(rhBMP-2) / collagen on adult rat calvarial bone. Methods A tight subperiosteal pocket was produced under both sides ofthe temporal muscle in rats. rhBMP-2 / collagen was implanted in one side and collagen alone was implanted in the other side as control. The rats were sacrificed 2, 4 and 8 weeks after operation. The specimen was harvested and examined histologically. For morphometric analysis, the thickness of the temporal bone of both sides was measured and compared. Results The rhBMP-2 / collagen onlay implant resulted in active bone formation and the augmented bone was connected directly with the original bone, whereas the collagen alone resulted in neither bone nor cartilage production. The ossification process in the rhBMP-2 / collagen occurred directly through bone formation, similar to intramembranous ossification. Conclusion rhBMP-2 / collagen is an effective material as a biological onlay implant.