ObjectiveTo investigate the effect of phosphorylatable short peptide (pSP) conjugated chitosan (CS) (pSP-CS) mediated insul in-l ike growth factor 1 (IGF-1) gene and human interleukin 1 receptor antagonist (IL-1Ra) gene local transfection on the repair of articular cartilage defect. MethodsCo-expression plasmid pBudCE4.1-IL-1Ra+IGF-1, single gene expression plasmid pBudCE4.1-IL-1Ra and pBudCE4.1-IGF-1 were constructed and combined with pSP-CS to form pSP-CS/ pDNA complexes. Thirty 3-month-old healthy male New Zealand white rabbits, weighing 2.0-2.5 kg, double legs were randomly divided into 5 groups (n=12). Lateral femoral condyle articular surface was only exposed in sham-operated group (group A); full-thickness cartilage defects were created in the articular surface of the lateral femoral condyle of the knee in 4 intervention groups: pSP-CS/pBudCE4.1 (group B), pSP-CS/pBudCE4.1-IL-1Ra (group C), pSP-CS/pBudCE4.1-IGF-1(group D), and pSPCS/ pBudCE4.1-IL-1Ra+IGF-1 (group E). At 1 week after operation, intra-articular injection of pSP-CS/pDNA complexes was administrated 2 times a week for 7 weeks in each intervention group, the same volume normal sal ine in group A. The general condition of animal was observed after operation, and rabbits were sacrificed at 8 weeks. Knee joint synovial fluid was collected to measure the concentrations of the IL-1Ra and IGF-1 by ELISA; mRNA expressions of Aggrecan, matrix metalloproteinase 3 (MMP-3), and MMP inhibitor 1 (TIMP-1) were detected by real-time fluorescent quantitative PCR; the chondrogenic phenotype of nascent cells in the damage zone was identified by alcian blue-periodic acid/schiff (AB-PAS) histochemistry and Aggrecan immunohistochemistry staining. ResultsThirty experimental rabbits all survived to the end of experiment, without infection and death. Large amounts of exogenous proteins of IGF-1 and IL-1Ra were detected in the synovial fluid of 4 intervention groups. There were significant differences between groups D, E and group A in IGF-1 protein expression, and between goups C, E and group A in IL-1Ra protein expression (P < 0.05). Aggrecan and TIMP-1 mRNA expressions were significantly up-regulated in group E, simultaneously MMP-3 mRNA expression was significantly down-regulated when compared with groups C and D (P < 0.05). Varying degrees of cartilage repair appeared in groups C, D, and E, showing positive staining of AB-PAS and Aggrecan, and group E had better results than groups C and D (P < 0.05); inflammatory cell infiltration and fibrous tissue prol iferation were seen in the defect region of group B, without significant cartilage repairing. ConclusionpSP-CS is an ideal gene del ivery system for cartilage defect gene therapy; IL-1Ra and IGF-1 double gene transfection has better biologic effect on cartilage defect repair.
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.