Objective To construct recombinant adenovirus vector containing human transforming growth factor beta 3 (TGF-β3), which was transfected into marrow mesenchymal stem cells(MSCs) and to observe its expression. Methods The cDNA TGF-β3 was intergraded into the shuttle vector of pAdTrack-CMV and recombinated with adenovirus skeleton vector pAdEasy-1 by homologous recombination. Then the product was transfected into package cell HEK293 by lipofedtamine and the recombinant adenovirus expressing the TGF-β3genewas generated. The rabbit’s MSCs were isolated, cultivated, purified, and then transfected with recombinant adenovirus containing the TGF-β3 gene. The green fluorescence protein expression was observed after 10 days, and the TGF-β3 expression was observed in MSCs transfected by recombinated adenovirus with TGF-β3 gene after 4 days. Results PCR showed that TGF-β3 cDNA was inserted into the recombinantadenoviral plasmid. The recombinant virus vectors with TGF-β3 gene were collected by the packaging HEK293 cells. The fusion rate of MSCs was 70%-80% with an intensive adhesion and uninform shape after the cultured 10th day. Fluorescent microscopy and immunocytochemistry demonstrated that TGF-β3 was expressed in MSCs. Conclusion Successful construction of human TGF-β3 recombinant adenovirus and its expression in MSCs provide a basis of research for the gene therapy of wound healing.
【Abstract】 Objective To investigate the effects on forming of hypertrophic scar after BMSCs infected with adenovirus carrying TGF-β3c2s2 were transplanted into the wound of animal scar model. Methods The third passage of rabbit’ s BMSCs were infected with 150 mutiple infection, and were cultured 24 hours. The concentration of the BMSCs infected with recombinant adenovirus containing the TGF-β3c2s2 gene was 1×105cell/mL. The purified and evaporated recombinant adenovirus grains containing the TGF-β3c2s2 gene were diluted by DMEM/F12 (without FBS) to 1×108 pfu/mL. The animal scar model of the standard Japanese big ear rabbit was establ ished. Eighty wounds were generated on the gastroside of ear and were randomized to 4 groups in each rabbit, which were divided into 3 control groups (A: control, B: Ad-TGF-β3c2s2, C: BMSCs) and 1 experimental group (D: BMSCs/Ad-TGF-β3c2s2). Then the wounds were tranplanted with cells. On 45 days and 90 days after wounded, thicknessand hardness of scars were measured with color ultrasound diagnostic unit and especial measurement for skin and scar hardness. On 21, 45 and 90 days, three specimens were harvested respectively for further histological study. Results The wound of groups A, B, C gradually formed the different degree scars after epithel ial ization. The hyperplasty of scars reached peak on 45 days after wounded and lasted about 90 days. There was no prominent scar formed in group D during the whole observed procedure. Thickness and hardness of scar of group D and group E were approximate on 45 days and 90 days. Thickness and hardness of scar of groups A, B and C were lower than those of group D (P lt; 0.01), and group B showed more lower than group A and group C (P lt; 0.01). Disorder structure and overlapping arrangement, enlargement collagen fibers were showed in the HE histological sections of the scars of groups A, C. The structure of the scars of groups B, C were similar to Group E. The constitutionsof groups A, B, C, D on 90 days resembled to each one on 45 days. In section of immunohistochemistry after wounded on21 days and 45 days, positive expressions of BrdU in nucleus of Groups C, D were observed. Negative expressions of BrdU in Groups A, B, E were showed. Conclusion BMSCs with Ad-TGF-β3c2s2 gene transplanted into wound could inhibit the forming of hypertrophic scar.
Objective To summarize the current research progress of anterior cruciate ligament (ACL) anatomy, and discuss its effect on the reconstruction technique. Methods The literature concerning ACL anatomy and reconstruction at home and abroad was extensively reviewed and summarized. Results The anatomy and morphology of ACL has gained new recognition in recent years, and the " Ribbon-like” ACL has gradually been paid attention to by researchers. In present researches, it seems the " Ribbon-like” anatomy theory has advantages in theory when compared with the previous anatomy theory. It is more in line with the anatomy and isometric reconstruction. Conclusion The understanding of ACL anatomy guided the development of ACL reconstruction. The " Ribbon-like” ACL anatomy theory is the different understanding of the anatomy theory, which remains controversy. The " Ribbon-like” reconstruction maybe has more advantages in theory, but further study is needed.
Objective To research the transfer of adenovirus human bone morphogenetic protein 4 (Ad-hBMP-4) to human degenerative lumbar intervertebral disc cells in vitro and analyze its effect on the proteoglycan, collagen type II, and Sox9 of intervertebral disc cells. Methods Identified Ad-hBMP-4 was amplified and detected. Degenerative lumbar intervertebral disc cells were aspirated from the degenerative lumbar intervertebral disc of patients with Modic III level disc protrusion (aged, 27-50 years). The expressing position of collagen type II was identified in the intervertebral disc cells through the laser confocal microscope. The intervertebral disc cells at passage 1 were transfected with Ad-hBMP-4 as experimental group. After 3 and 6 days of transfection, RT-PCR was used to detect the mRNA expressions of proteoglycan, collagen type II, and Sox9, and Western blot to detect the expressions of proteoglycan and collagen type II proteins. Non-transfected cells at passage 1 served as control group. Results The virus titer of Ad-hBMP-4 was 5 × 106 PFU/mL. No morphological changes in the cells after transfection by Ad-hBMP-4. Collagen type II mainly expressed in the cell cytoplasm. The mRNA expressions of the proteoglycan, collagen type II, and Sox9 in experimental group at 3 and 6 days after transfection were significantly higher than those in control group by RT-PCR (P lt; 0.05), and the expressions of proteoglycan and collagen type II proteins were significantly higher than those in contorl group by Western blot (P lt; 0.05). There were significant differences between 3 days and 6 days in experimental group (P lt; 0.05). Conclusion Ad-hBMP-4 could transfect human degenerative lumbar intervertebral cells with high efficiency and promote collagen type II, proteoglycan, and Sox9 expressions. hBMP-4 may play an important role in the repair process during early disc degeneration.
Objective To investigate if the course of intervertebral disc degeneration (IDD) is delayed by injecting lentivirus (Lv) vector carrying bone morphogenetic protein 2 (BMP-2) and inhibitor of differentiation 1 (Id1) genes directly into the nucleus pulposus. Methods Thirty-two New Zealand white rabbits, 2.0-2.5 kg in weight and 4 months in age, were used to establish the IDD models at L3, 4, L4, 5, and L5, 6 discs with annular puncture via transabdominal approach. Thirty rabbits with successful modeling were randomly divided into 5 groups, 6 rabbits every group. At 4 weeks after modeling, rabbits were injected with Lv-BMP-2 (group A), with Lv-BMP-2 and Lv-Id1 (group B), with Lv-Id1 (group C), with Lv-green fluorescent protein (group D), and with PBS (group E). At 2, 4, and 8 weeks after injection, T2-mapping MRI was performed on 2 rabbits each group to obtain the T2 values, and then subsequently the lumbar disc tissues were harvested to test the mRNA expressions and contents of collagen type II and proteoglycan by real-time fluorescent quantitative PCR and ELISA methods. Results T2-mapping MRI demonstrated that there was no significant difference in the T2 value between different groups at immediate and 2 weeks after injection (P>0.05). The T2 value of groups A and B was significantly higher than that of groups C, D, and E at 4 weeks after injection (P<0.05), but no significant difference was observed between group A and group B (P>0.05). The T2 value of group B was significantly higher than that of the other groups at 8 weeks after injection (P<0.05). The real-time fluorescent quantitative PCR and ELISA showed that the expressions and contents of collagen type II and proteoglycan in group B were significantly higher than those in the other groups at 2, 4, and 8 weeks after injection (P<0.05). Conclusion Combined application of Lv-BMP-2 and Lv-Id1 can delay IDD changes in rabbit IDD models.