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find Author "ZHAO Ronglan" 2 results
  • EXPERIMENTAL STUDY ON CHITOSAN MEDIATED INSULIN-LIKE GROWTH FACTOR GENE TRANSFECTION REPAIRING INJURED ARTICULAR CARTILAGE IN RABBITS

    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.

    Release date:2016-09-01 09:04 Export PDF Favorites Scan
  • Effects of microRNA-140 gene transfection with nucleus localization signal linked nucleic kinase substrate short peptide conjugated chitosan on rabbit articular chondrocytes

    Objective To investigate the effects of nucleus localization signal linked nucleic kinase substrate short peptide (NNS) conjugated chitosan (CS) (NNSCS) mediated the transfection of microRNA-140 (miR-140) in rabbit articular chondrocytes in vitro. Methods Recombinant plasmid GV268-miR-140 and empty plasmid GV268 were combined with NNSCS to form NNSCS/pDNA complexes, respectively. Chondrocytes were isolated and cultured through trypsin and collagenase digestion from articular cartilage of newborn New Zealand white rabbits. The second generation chondrocytes were divided into 3 intervention groups: normal cell control group (group A), NNSCS/GV268 empty plasmid transfection group (group B), and NNSCS/GV268-miR-140 transfection group (group C). NNSCS/GV268 and NNSCS/GV268-miR- 140 complexes were transiently transfected into cells of groups B and C. After transfection, real-time fluorescent quantitative PCR (RT-qPCR) was used to detect the expressions of exogenous miR-140; Annexin Ⅴ-FITC/PI double staining and MTT assay were used to detect the effect of exogenous miR-140 on apoptosis and proliferation of transfected chondrocytes; the expressions of Sox9, Aggrecan, and histone deacetylase 4 (Hdac4) were detected by RT-qPCR. Results RT-qPCR showed that the expression of miR-140 in group C was significantly higher than that in groups A and B (P<0.05). Compared with groups A and B, the apoptosis rate in group C was decreased and the proliferation activity was improved, Sox9 and Aggrecan gene expressions were significantly up-regulated, and Hdac4 gene expression was significantly down-regulated (P<0.05). There was no significant difference in above indexes between groups A and B (P>0.05). Conclusion Exogenous gene can be carried into the chondrocytes by NNSCS and expressed efficiently, the high expression of miR-140 can improve the biological activity of chondrocytes cultured in vitro, which provides important experimental basis for the treatment of cartilage damage diseases.

    Release date:2017-10-10 03:58 Export PDF Favorites Scan
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