EFFECTS OF TRANSFORMING GROWTH FACTOR β AND RECOMBINANT HUMAN BONE MORPHOGENETIC PROTEIN 2 ON HUMAN PERIODONTAL LIGAMENT FIBROBLASTS

Objective To evaluate the effects of transforming growth factor β(TGF-β) and recombinant human bone morphogenetic protein 2 (rhBMP2) on human periodontal ligament fibroblasts (HPDLFs). Methods HPDLFs were done primary culture to detect the distinct concentrations of TGF-P and rhBMF2 on its proliferation, alkaline phosphatase (ALP) activity, osteocalcin (OC) synthesis and formation of the minerali-zed nodules, respectively. Results TGF-β (5～100ng/ml) significantly stimulated the proliferation of HPDLFs. The ALP activity of HPDLFs was evaluated evidently by 5ng/ml TGF-β. TGF-β( 0. 5 ～ 100ng/ml) had no effects on OC synthesis and formation of the mineralized nodules of HPDLFs. rhBMP2 (0. 25～2mg/ ml) had no remarkable effect on the proliferation of HPDLFs. The ALP activity, OC synthesis and forma-tion of the mineralized nodules of HPDLFs were significantly stimulated by 0. 5～ 2mg /ml rhBMP2. Conclusion The effects of TGF-β and rhBMP2 on HPDLFs are dose-dependent. TGF-P can stimulate HPDLFs to express the early marker of osteoblastic phenotype, and it lacks the ability to promote maturation of the osteogenic phenotype. rhBMP2 can not only stimulate the expression but also promote the maturation of osteoblas-tic phenotype of HPDLFs.

Construction of bicistronic green fluorescent protein labeled pSELECT GFPzeo human bone morphogenetic protein 2 eukaryotic expression vector

Objective To construct green fluorescent protein (GFP)-labeled pSELECT-GFP zeohBMP2 eukaryotic expression vector.Methods The encoding fragment of hBMP2 gene was obtained from a recombinant plasmid pcDNA3.1/CT-hBMP2 by using polymerase

SPECIFIC BINDING OF HUMAN BONEMORPHOGENETIC PROTEIN （2A） WITH MOUSEOSTEOBLASTIC CELLS

Human bone morphogenetic protein 2A (hBMP2A) cDNA terminal 567 nucleotides were cloned and expressed in a phage display vector pCSM21. Human BMP2A C-terminal peptide displayed on the surface of the phage can bind specifically to the surface of mouse osteoblastic cell (MC3T3) membrane. ELISA assay showed a positive signal of the binding by using antibody against M13 phage gene 8 protein. After labeling with 3HTdR,the counts of the binding groups were 3 to 10 times higher than the control groups. It suggests that the surface of MC3T3 cells exist the receptor for hBMP2A.

CORAL AS A CARRIER FOR RECOMBINANT HUMAN BONE MORPHOGENETIC PROTEIN-2

By combining coral with recombinant human bone morphogenetic protein-2 (rhBMP-2), rhBMP-2/coral composite was obtained in this study. Following implantation of the composite into the muscle pouches of mice, cartilage growth was induced in the pores or on the surface of the implants at one week, woven bone at three week and lamellar bone with bone marrow at six week, and coral was absorbed partially. The induced formation of endochondral bone was time-related and rhBMP-2 dose-related. The results of this study indicate that the composite possesses a superior ability of osteogenesis, and coral acts as one of the most suitable rhBMP-2 slowrelease carriers currently available. The composite will be a new type of bone substitute to be used in orthopaedics and maxillofacial surgery.

CLONING AND SEQUENCING OF MATURE FRAGMENT OF HUMAN BMP4 GENE

Objective To study the cloning and sequencing of mature fragment of human bone morphogenetic protein 4 gene. Methods The template DNA was obtained from the human osteosarcoma cell line U2OS. By using RT PCR method, the cDNA coding for the mature fragment of BMP 4 was amplified, cloned into the vector pUC19, and sequenced by Sanger Dideoxy mediated Chain Termination method. Results The mature fragment of BMP4 cDNA was obtained by RT PCR and determined by sequencing. Through the computer search on Genebank, the analysis showed that the homology of nucleotides and amino acids between cDNA of rhBMP4 mature fragment of this study and the published sequence was 99%. Sequence analysis showed that there were two differences, one was at base 1154(201): G→C, which had no influence on the corresponding amino acids(Val). Another was at base1222(269):C→T, the mutation at the base 1222 had the change of Ala to Val. Conclusion The mature fragment of BMP4 gene has been cloned. The results will be of great significance in treatment of skeletal injuries and diseases.

Harvest of functional mesenchymal stem cells derived from in vivo osteo-organoids

Bone marrow-derived mesenchymal stem cells(BM-MSCs)play a crucial role in stem cell therapy and are extensively used in regenerative medicine research.However,current methods for harvesting BM-MSCs present challenges,including a low yield of primary cells,long time of in vitro expansion,and diminished differentiation capability after passaging.Meanwhile mesenchymal stem cells(MSCs)recovered from cell banks also face issues like toxic effects of cryopreservation media.In this study,we provide a detailed protocol for the isolation and evaluation of MSCs derived from in vivo osteo-organoids,presenting an alternative to autologous MSCs.We used recombinant human bone morphogenetic protein 2-loaded gelatin sponge scaffolds to construct in vivo osteo-organoids,which were stable sources of MSCs with large quantity,high purity,and strong stemness.Compared with protocols using bone marrow,our protocol can obtain large numbers of high-purity MSCs in a shorter time(6 days vs.12 days for obtaining passage 1 MSCs)while maintaining higher stemness.Notably,we found that the in vivo osteo-organoid-derived MSCs exhibited stronger anti-replicative senescence capacity during passage and amplification,compared to BM-MSCs.The use of osteo-organoid-derived MSCs addresses the conflict between the limitations of autologous cells and the risks associated with allogeneic sources in stem cell transplantation.Consequently,our protocol emerges as a superior alternative for both stem cell research and tissue engineering.