Objective To explore the in vitro osteogenesis of the chitosan-gelatin scaffold compounded with recombinant human bone morphogenetic protein 2 (rhBMP-2). Methods Recombinant human BMP-2 was compounded with chitosan-gelatin scaffolds by freezedrying. 2T3 mouse osteoblasts and C2C12 mouse myoblasts were cultured and seeded onto the complexes at thedensity of 2×104/ml respectively. The complexes were divided into two groups. Group A: 2T3 osteoblasts seeded, consisted of 14 rhBMP-2 modified complexes. Each time three scaffolds were taken on the 3rd, 7th, 14th, and 21st day of the culturing, then the expression of osteocalcin gene (as the marker of bone formation) in adherent cells was detected by semiquantitative RT-PCR with housekeeping gene β-tubulin as internalstandard. The other 2 rhBMP-2 modified complexes were stopped being cultured on 14th day after cell seeding, and the calcification of the complexes was detected by Alizarian Red S staining. Five scaffolds without rhBMP-2 modification as the control group A, they were stopped being cultured on 14th day after cell seeding. Of the 5 scaffolds, 3 were subjected tothe detection of osteocalcin gene expression and 2 were subjected to the detection of calcification. Group B: C2C12 myoblasts seeded, had equal composition andwas treated with the same as group A. Besides these 2 groups, another 2 rhBMP2 modified complexes with 2T3 osteoblasts seeding were cultured for 3 days and then scanned by electron microscope (SEM) as to detect the compatibility of the cell to the complex. ResultsSEM showed that cells attached closely to the complex and grew well. In group A, the expression level(1.28±0.17)of osteocalcin gene in cells on rhBMP-2 modified complexes was higher than that (0.56±0.09) of the control group A, being statistically -significantly different(P<0.05) control. C2C12 myoblasts which did not express osteocalcin normally could also express osteocalcin after being stimulated by rhBMP-2 for at least 7 days. Alizarian Red S staining showed that there was more calcification on rhBMP-2 modified complexes in both groups. There were more calcification in the group compounded with rhBMP-2, when the groups were seeded with the same cells. Conclusion The complexmade of rhBMP-2 and chitosan-gelatin scaffolds has b osteogenesis ability in vitro.
Objective To study the effect of chitosan (CS) mediated insul in-l ike growth factor 1 gene (igf-1) transfection on the repair of articular cartilage defect. Methods Twelve 3-month-old healthy male rabbits weighting 2.0-2.5 kg were randomly divided into 2 primary groups, control and intervention groups (n=6 per group). Control group was further divided into normal control (left knee) and normal saline (NS) control (right knee) groups. While, intervention group was divided into CS (left knee) and CS/igf-1 intervention (right knee) groups. Cartilage defects were created in the knee joints except normalcontrol. Intra-articular injections of CS/igf-1 complex was administrated 2 times a week for 4 weeks in CS/igf-1 interventiongroup, 0.5 mL CS in CS intervention group, and 0.5 mL sal ine solution in normal control and sal ine control groups. At 28days after treatments, the cartilage samples were collected for histological observation and collagen type II and aggrecan mRNA evaluation. Results HE staining and toluidine blue staining revealed that CS/igf-1 and CS intervention could significantly stimulated cartilage regeneration accompanied with fibrosis and inflammatory cell infiltration, however, CS/igf-1 treatment resulted in the best repair of cartilage defect. In contrast, sal ine control group only showed fibrous tissue prol iferation and inflammatory cell infiltration without significant cartilage repairing. In terms of collagen type II and aggrecan gene expression, significant differences were observed in each pairwised comparison among 4 groups in the order of CS/igf-1 gt; CS gt; NS gt; normal control (P lt; 0.05). Conclusion In situ CS/ifg-1 complex transfection can enhance the formation of mesochondrium by upregulating collagen type II or aggrecan expression, which might enhance the repair of articular cartilage defect.