Objective To study the effect of transforming growth factor β1 (TGF-β1) plasmid on poly frosted-defrosted allogenic nerve transplantation. Methods Forty Wistar rats were randomly divided into two groups equally. A 2.0 cm sciatic nerve segment, 5 mm away from infrapiriformis muscle space, was removed and the defect was repaired with poly frosteddefrosted allogenic nerve. The TGF-β1 plasmids were injected into the nerve anastomosis and adjacent muscles in the experimental group, normal saline in the control group. The nerve specimens were sectioned for staining in the 6th and 12th weeks . Axonal count and statistical analyses were done. Results The grafted and distal nerve segments showed regenerated fibers in both groups. In the experimental group,less edema and more nerve fibers were observed in the 6th week. The grafted nerve segment was filled with regeneration axons, the myelinated nerve fibers arranged regularly, and the axons and the myelin sheaths developed well in the 12th week. There was significant difference in the number of regenerating axons between the experimental group 98.6±4.8/μm2 and control group 75.8±5.1/μm2 (Plt;0.01). Conclusion Multiple frost-defrost of allogenic nerve can reduce its antigenicity and increase itsusefulness in repairing nerve defects. Local use of TGF-β1 plasmid can enhance immunosuppression to reduce immuno rejection.
Objective To study the effect of direct bone morphogenetic protein 2 (BMP-2) gene therapy mediated by adenovirus on repairing bone defect. Methods The radial defect models were made on 60 rabbits, which were evenly divided into 4 groups randomly. The 4 groups were treated with different materials: group A, adenovirus carrying BMP-2 gene (AdBMP-2) plus bovine cancellous bone (BCB); group B, reconstructed BMP-2 plus BCB; group C, AdLacz plus BCB; and group D, only BCB scaffolds. The X-ray, histological examination, biomechanics analysis, and immunohistochemical staining were made 4, 8, and 12 weeks after the operation. Results Group A gained better effect in the volume of new bones, the anti-bending intensity of the healing bone, and the expression of BMP-2 than those of group B. The defect in group A was healed. No new bones were observed in group C and group D. Conclusion Direct BMP-2 gene therapy is easy to perform and has veryb osteoinduction ability. It is a good method to repair segmental bone defects.
Objective To study the vascularization of the compositeof bone morphogenetic protein 2 (BMP-2) gene transfected marrow mesenchymal stem cells (MSCs) and biodegradable scaffolds in repairing bone defect. Methods Adenovirus vector carrying BMP-2 (Ad-BMP-2) gene transfected MSCs and gene modified tissue engineered bone was constructed. The 1.5 cm radial defect models were made on 60 rabbits, which were evenly divided into 4 groups randomly(n=15, 30 sides). Different materials were used in 4 groups: Ad-BMP-2 transfected MSCs plus PLA/PCL (group A), AdLacz transfected MSCs plus PLA/PCL (group B), MSCs plus PLA/PCL (group C) and only PLA/PCL scaffolds (group D). The X-ray, capillary vessel ink infusion, histology, TEM, VEGF expression and microvacular density counting(MVD) were made 4, 8, and 12 weeks after operation. Results In group A after 4 weeks, foliated formed bones image was observed in the transplanted bones, new vessels grew into the bones, the pores of scaffolds were filled with cartilage callus, osteoblasts with active function grew around the microvessels, and VEGF expression and the number of microvessels were significantly superior to those of other groups, showing statistically significant difference (Plt;0.01); after 8 weeks, increasingly more new bones grew in the transplanted bones, microvessels distended and connected with each other, cartilage callus changed into trabecular bones; after 12 weeks, lamellar bone became successive, marrow cavity recanalized, microvessels showed orderly longitudinal arrangement. In groups B and C, the capability of bone formation was weak, the regeneration of blood vessels was slow, after 12 weeks, defects were mostly repaired, microvessels grew among the new trabecular bones. In group D, few new vessels were observed at each time, after 12 weeks, broken ends became hardened, the defectedarea was filled with fibrous tissue. Conclusion BMP-2 gene therapy, by -upregulating VEGF expression, indirectly induces vascularization ofgrafts,promotes the living of seed cells, and thus accelerates new bone formation.
Objective To observe the permeability and stability of the transfection of antisense oligonucleotide (ASODN) hybridized epidermal growth factor receptor (EGFR) to retinal glial cells (RG).Methods Phosphorothioate and unmodified EGFR ASODN conjugated with 5′-isothioc yanate (5′-FITC) were encapsulated with or without lipofectin, and then added into human retinal glial cells culture media. The cellular permeability and stability of the transfection were observed by fluorescence microscopy in fixed cells.Results In the absence of lipofectin, phosphorothioate and unmodified EGFR ASODN were found in a few RG cells at 30 minutes, and in about 50% RG cells at 4 hours. Phosphorothioate EGFR ASODN were kept in RG cells for 3-4 hours and disappeared at about 8 hours. In the presence of lipofectin, phosphoro thioate and unmodified EGFR ASODN were found in a few RG cells at 15 minutes and about 70%-80% RG cells at 4 hours. Phosphorothioate EGFR ASODN were kept in cells for 10-12 hours, and phosphorothioate and unmodified EGFR ASODN were disapp eared at about 14 hours and 4 hours respectively.Conclusion 5′-FITC EGFR ASODN encapsulated with lipofectin could enter RG cells and express stably in RG cells. (Chin J Ocul Fundus Dis,2003,19:52-54)
Objective To construct the lentiviral vector containing homo sapiens forkhead box C2 (Foxc2) gene and to detect its expression in bone marrow mesenchymal stem cells (BMSCs) of rabbits. Methods Human Foxc2 gene coding region fragment was obtained by RT-PCR and then cloned into the plasmid of LV-green fluorescent protein (GFP) to prepare Foxc2 lentiviral plasmid. Foxc2 lentiviral plasmid, pGC-LV, pHelper1.0, and pHelper2.0 were co-transfected into 293T cells to obtain recombinant virus containing Foxc2 gene. The lentiviral titer was detected. BMSCs were isolated from bone marrow of rabbit and infected with Foxc2 recombined lentiviral, then the optimum multiplicity of infection (MOI) was determined by detecting the intensity of fluorescence expression. The expression of Foxc2 in the infected BMSCs was determined at 1, 3, and 7 days after transfection by inverted fluorescence microscope and Western blot. After osteogenic induction, Alizarin red staining was done to observe the formation of mineralized nodule. Results The Foxc2 recombinant lentiviral vector was constructed and was confirmed by restriction enzyme digestion and sequencing analysis. It could efficiently transfect 293T cells and express in 293T cells. The lentiviral titer was 2 × 108 TU/mL. The optimum MOI was 200. The inverted fluorescence microscope observation showed that the Foxc2 gene expressed in 84.5% ± 4.8% of infected BMSCs at 3 days after transfection. The expression of Foxc2 in infected BMSCs was stable and high, and increased gradually within 7 days after transfection by Western blot. At 2 weeks after osteogenic induction, Alizarin red staining showed that there were a large number of red calcified matrix deposition in the cytoplasm. Conclusion Foxc2 recombined lentivirus with high viral titer is successfully constructed and packaged, and the Foxc2 gene can be transfected into BMSCs with stable and high expression of Foxc2 in infected cells, and these cells may be applied for gene therapy of avascular necrosis of the femoral head.
Objective To review the current concepts of gene therapy approachesmediated by adenovirus vectors for bone trauma and bone disease. Methods The recent literature concerned gene therapy mediated by adenovirus vectors was reviewed, which provides new insights into the treatments of bone trauma and bone disease. Results Adenovirus vectors was efficient, achieved high expression after transduction, and could transfer genes to both replicating and nonreplicating cells, such as osteoblasts, osteoclasts, fibroblasts, chondrocytes, bone marrow stromal cells, etc. Gene therapy mediated by adenovirus vectors achieved affirmative results in enhancing bone union and in curing bone diseases, such as osteoporosis and rheumatoid arthritis. Conclusion Gene therapy mediatedby adenovirus offers an exciting avenue for treatment of bone trauma and bone diseases.
Objective To determine if mesenchymal stem cells ( MSCs) could be reconstructed as a vehicle for angiopoietin-1 ( Ang1) gene therapy in lung injury. Methods MSCs were obtained from adult male inbred mice and cultured to passage four. The cells were identified by fluorescence-activated cell sorting ( FACS) analysis and cell differentiation detection. Lentiviral vectors contained GFP and Ang1 gene were conducted in 293T cells through three plasmids co-transfection method. Then MSCs were transduced with Ang1 gene efficiently through lentiviral vectors. The mRNA expression of Ang1 in MSCs was detected by RT-PCR before and after transfection. Also fluorescence from MSCs was detected by fluorescence microscope every day after transfection. Two hours after LPS inhalation, mice were infused via jugular veinwith normal saline ( NS group) , lentiviral vector carrying Ang1 ( Ang1 group) , lentiviral vector carrying GFP ( MSCs group) , and lentiviral vector carrying Ang1 /GFP ( MSCs-Ang1 group) , respectively. Kaplan-Meier survival analysis was performed to compare the effects of MSCs-Ang1 on survival. And ectogenic MSCs origined lung cells were investigated in receipt mice. Results After passaged and purification,MSCs were confirmed to have the potential of differentiation. The lentiviral vectors carrying Ang1 and GFP were also identified. After transfection, the mRNA expression of Ang1 in MSCs was enhanced. Through the fluorescence microscope,MSCs get the most green fluorescence expression five days after the transfection when MOI was 20. Kaplan-Meier survival analysis showed that MSCs-Ang1 infusion had improved survival rates of lung injury rats compared with the control, but it did not reach statistical significance ( P = 0. 066) . Cells expressing GFP in lung tissues can be observed after MSCs were transplanted in vivo. Conclusions MSCs expressing Ang1 high can be constructed through lentiviral vector transfer, and MSCs-origined cells can be detected in receipt lungs after transplantation. So MSCs may serve as a vehicle for gene therapy in lung injury.
The application of gene therapy in ocular diseases is gradually expanding from mono-gene inherited diseases to multigene, multifactorial, common and chronic diseases. This emerging therapeutic approach is still in the early exploratory stage of treating diseases, and the expected benefits and risks remain highly uncertain. In the delivery process of gene therapy drugs, viral vector is currently one of the most mature and widely used vectors. The occurrence of vector-associated immunity will affect the short-term and long-term effects of gene therapy, and even cause permanent and serious damage to visual function. Therefore, gene therapy vector-associated immunity is the focus and challenge for the safety and long-term efficacy of gene therapy. During the perioperative and follow-up of gene therapy, attention should be paid to the monitoring of vector-associated immune inflammation, and appropriate measures should be taken to deal with the corresponding immune response, so as to achieve the best visual benefits for patients.
Objective To investigate the inhibitive effect of E2F decoy oligodeoxynucleotides (E2F decoy ODNs) on cultured human retinal pigment epithelial (HRPE) cells.Methods E2F decoy ODNs or scramble decoy ODNs at varied concentrations were put into the HRPE cells mediated by lipofectamineTM2000. The proliferative activity of HRPE was detected by methythiazolyl-terazollium assay, and the competitive combinative activity of E2F decoy ODNs and transcription factor E2F was detected by electrophoresis mobility-shift assay. Results The proliferation of HRPE was inhibited markedly by E2F decoy ODNs at the concentration of 0.2 μmol/L (P=0.002) in a dose-dependent manner but not by scrambled decoy. The results of electrophoresis mobility-shift assay showed that the combinative activity of transcription factor E2F was abolished completely by E2F decoy ODNs. Conclusions E2F decoy ODNs may sequence-specifically inhibit the combinative activity of transcripti on factor E2F,and inhibit the proliferation of HRPE cells.(Chin J Ocul Fundus Dis,2004,20:182-185)
Objective To investigate the expression of multigenes mediated by adenovirus in liver cancer cells and the effects on growth of cells transducted with multigenes. MethodsBy construction of recombinant adenovirus containing human p53, B7-1, GM-CSF, and IL-2 genes (Ad-multigenes), the expression level of target genes in three human hepatocellular carcinoma cell lines and a human hepatocellular cell line L02 was detected using ELISA, immunohistochemistry and FACS assay and the change of growth of these cells and the tumor cell apoptosis were observed. Results The human hepatic cells and liver cancer cells were all sensitive to adenovirus infection. At a MOI of 50 PFU/cell, among the cells examined nearly 90% were positive expression and except IL-2, other three genes were expressed with high efficiency. The growth of Ad-multigenes-transduced liver cancer cell lines was inhibited and apoptosis was induced, but the growth of Ad-multigenes-transduced normal hepatic cell line L02 did not change. Conclusion These results indicate that the adenovirus is an efficient vector for gene transfer into human liver cancer cells. These liver cancer cell lines transduced with multigenes constructed on one recombinant adenoviral vector can highly express target genes and their growth was inhibited, and apoptosis appeared.