Objective To review the application of genipin for the modification of natural biomaterials as a crosslinking agent and progress in research. Methods Domestic and foreign literature on application of genipin for the modification of natural biomaterials as a crosslinking agent was thoroughly reviewed. Results Genipin is an effective natural crosslinking agent with a very low level of cytotoxicity compared with conventional synthetic crosslinking agents. Tissues fixed with genipin can maintain a high level of stability as well as resistance to enzymatic degradation. Conclusion Genipin is a promising substitute for conventional synthetic crosslinking agents, which has offered an alternative for modification of natural biomaterials for tissue engineering.
Objective To investigate the effects of NGF on the prol iferation, mitotic cycle, collagen synthesis and migration of human dermal fibroblasts (HDFs), and to explore the function of NGF on the wound heal ing. Methods The 3rd generation of HDFs were incubated with various concentrations of NGF (0, 25, 50, 100, 200 and 400 ng/mL), the cell prol iferation was measured with MTT assay. After treated with NGF at 0, 100 ng/mL, the cell cycle of HDFs was determined by flow cytometry (FCM). Hydroxyprol ine and real-time fluorescence quantitative PCR (FQ-PCR) were used to measure collagen synthesis at protein level and mRNA level respectively. The in vitro cell scratch wound model was set up to observe the effect of NGF (0, 50, 100 and 200 ng/mL) on the migration of HDFs after 24 hours of culture. Results Absorbance value of HDFs for different concentrations of NGF (0, 25, 50, 100, 200, and 400 ng/ mL) showed that NGF did not influence the prol iferation of HDFs (P gt; 0.05). When HDFs were treated with NGF at 0 and 100 ng/mL, the result of FCM analysis showed that percentage of HDFs in G0/G1, S, G2/M phases were not changed (P gt; 0.05). Compared with control group, the expression of Col I and Col III were not significantly different, measured by both hydroxyprol ine and FQ-PCR (P gt; 0.05). The rates of HDFs’ migration at various concentrations of NGF (0, 50, 100, 200 ng/ mL) were 52.12% ± 6.50%, 80.67% ± 8.51%, 66.33% ± 3.58%, and 61.19% ± 0.97%, respectively, indicating that NGF could significantly enhanced the migration of HDFs at 50 and 100 ng/mL (P lt; 0.05). Conclusion NGF does not influence prol iferation, mitotic cycle and collagen synthesis of HDFs, but significantly enhanced migration in an in vitro model of wounded fibroblasts.
【Abstract】 Objective To review the recent progress of cell therapy in cl inical appl ications. Methods Therecent l iterature about cell therapy in cl inical appl ications was extensively reviewed. Results Based on the advances in cell biology, especially the rapid progress in stem cell biology, an increasing number of cl inical trials about cell therapy for management of various diseases, such as cardiovascular system diseases, neural system diseases, musculo-skeletal diseases, diabetes, stress urinary incontinence, and others, had been reported with encouraging results. All these showed that cell therapy had great potentials in cl inical appl ication. Conclusion Cell therapy provides a novel approach for the treatment of many human diseases. However, the mechanism remains to be fully elucidated.
Objective To review and summarize the latest development of the therapy for the Duchenne muscular dystrophy (DMD). Methods Therecentlypublished articles related to the therapies for DMD were extensively reviewed and briefly summarized. Results The therapeutic approaches for DMD included the gene therapy, the cell therapy, and the pharmacological therapy. The gene therapy and the cell therapy were focused on the treatment for the cause of DMD by the delivery of the missing gene, the modification of the mutated gene, and the transfer of the normal cells including the stem cells, while the pharmacological therapy dealt with the downstream events caused by the dystrophin gene defect, slowed down the pathologic progress of DMD, and improved the DMD patient’s life quality and life span, by medication and other factor treatments. Conclusion There is still no cure for DMD because of various difficulties in replacing or repairing thedefected gene and of the multifaceted nature of the severe symptoms. Therefore,it is imperative for us to find out a more effective treatment that can solve these problems.
Objective To investigate the effect of WO-1 on the proliferation and differentiation of human embryonic osteoblasts (HEO) and to provide research methods of bone tissue engineering. Methods HEO were isolated from periosteum and calvaria and then cultrued in vitro. The doseeffect relationship between WO-1 concentration and biological effect of HEO was evaluated by growth curve and 3 H-TdR count. The effect of WO-1 on cell activity and proliferation was investigated by cloning efficiency,cell cycle analysis was determined by flow cytometer and morphological was examined through transmission electron microscope. Moreover, the effect of WO-1 on osteoblastic function was evaluated at protein and mRNA levels by ALP activity, 3 H-proline incorporation, osteocalcin secretion (RIA) and mRNA expression of type I collagen and osteocalcin (RT-PCR). Results The proliferation of HEO was inhibited in high concentration of WO-1,while it was promoted in low concentration of WO-1. The optimal dose was 8 μg/ml, and there was dose-effect relationship in the certain range of WO-1 concentration (0.25 μg/ml to 8 μg/ml). In 8 μg/ml of WO-1, the cloning efficiency and cloning volume of HEO were inereased, population doubling time was decreased.All indexes of ostoblastic function including ALP activity, type I collagen synthesis and osteocalcin secertion were inereased, the more sufficed cell organs were observed under transmission electron microscope than control group(P<0.05). Conclusion WO-1 can promote the cell activity and proliferation of HEO cultured in vitro inlow concentration, enhance the synthesis of extracellular mamix, such as type Icollagen and osteocalcin, and accelerate the mineralization of osteoid. WO-1 can be used as a stimulant of proliferation and differentiation of HEO in the research of bone tissue engineering, which provide the theoretical basis in clinical application.
Objective To study the gene expressions of human osteoblasts during the construction of tissue engineered bone with the bioderived material. Methods The fetal osteoblasts were used to construct tissue engineered bone with the bio-derived material and then were cultured 2,4,6,8 and 10 days in vitro. Real-time PCR analysis indicated that Cbfa 1, Osterix, Collagen type Ⅰ,osteocalcin(OC) and Integrin α5 and β1 were present in osteoblasts with bio-derived materials.Results The change ofCbfa1 was consistent with the change of Osterix. On 2nd day and 8th day, the expression of Osterix in experimental group was higher than that in control group, P<0.05. Collagen type Ⅰ’s change was consistent with change of OC expression, and its expression was higher in experimental group than that in control group on 2nd, 4th, 6th and 8th day. The Integrinexpression was high all along. Conclusion The important genes can be expressed normally by integrating osteoblasts with bioderived scaffolds. As skeleton tissue engineering scaffold, the bio-derived bone is conducive to keepthe osteoblast’s phenotype and differentiation with osteoconductive ability. The osteoblast can enter proliferation stage favorably and the scaffold materials exert no effects on it. Bio-derived bone can also supply more space for cellsto proliferate. The bio-derived materials promote osteoblasts adhesion.
Objective To compare biological characteristics between articular chondrocyte and meniscal fibrochondrocyte cultured in vitro andto investigate the possibility of using cultured cartilage as a substitute for meniscus.Methods Chondrocytes isolated from articular cartilage and meniscus of rabbits aged 3 weeks were respectively passaged in monolayer and cultured in centrifuge tube. Cartilages cultured in centrifuge tube and meniscus of rabbit aged 6 weeks were detected by histological examination and transmission electron microscopy. Growth curves of articular chondrocytes and meniscalfibrochondrocytes were compared; meanwhile, cell cycles of articular chondrocytes and meniscal fibrochondrocytes in passage 2and 4 were separately measured by flow cytometry.Results Articular chondrocytes in passage 4 were dedifferentiated. Articular chondrocytes formed cartilage 2 weeks after cultivation in centrifuge tube, but meniscal fibrochondrocytes could not generate cartilage. The differences in ultrastructure and histology obviously existed between cultured cartilage and meniscus; moreover, apoptosis of chondrocytes appeared in cultured cartilage. Proportion of subdiploid cells in articular chondrocytes passage 2 and 4 was markedly higher than that in passage 2 and 4 fibrochondrocytes(Plt;0.05). Conclusion Meniscal fibrochondrocytes can not form cartilage after cultivationin centrifuge tube, while cartilage cultured in centrifuge tube from articular chondrocytes can not be used as graft material for meniscus. Articular cartilage ismarkedly different from meniscus.
OBJECTIVE: To explore the SV40-mediated immortalization, the related factors and their roles in cell immortalization. METHODS: The original articles about cell immortalization and replicative senescence in recent decade were reviewed. RESULTS: Cell immortalization was a multifaceted phenomenon, it was involved in viral DNA integration, activation of telomerase, inactivation of growth suppressors, and so on, and their roles were closely related. CONCLUSION: The research on cell immortalization may be expected to provide important insights into a broad range of cellular biological phenomenon, and the immortalized cells can play important roles in the research of cell engineering and tissue engineering as standard cells.
OBJECTIVE: To investigate the biological characteristics of continuously subcultured human embryonic skeletal myoblasts, and choose the optimal seeding cells for muscle tissue engineering. METHODS: Human embryonic skeletal myoblasts were subcultured in vitro. The growth curve, rate of myotube formation(RMF) were used to evaluate the proliferative and differentiation ability of myoblasts, and to investigate the influence of fibroblasts contamination on myoblasts. RESULTS: The beginning 6 passages of myoblasts showed b proliferative and differentiation ability. From the 8th to 20th passage, the rate of fibroblasts contamination was increased, it mainly showed the growth characteristics of fibroblasts with increased proliferation and low differentiation. After subcultured to the 20th passage, the degeneration of myoblasts was obvious. CONCLUSION: The myoblasts within 6 passages should be used as the seeding cells of muscle tissue engineering because of b proliferative ability and high rate of myotube formation.
ObjectiveTo explore a simple and rapid pathological slices method to observe the porous structure and the composition distribution of composite materials. MethodsTaking polyurethane/small intestinal submucosa (PU/SIS) composite as an example, PU/SIS was OCT-embedded and sliced into sections by frozen section technology, after which general observation of the section integrity was carried out. After dyed with water-soluble eosin in alcoholic solution, the staining effect and the porous structure of the composite were observed under light field microscope. Sections were sealed with five different sealing methods. Group A: sealing piece using glycerogelatin method; group B: anhydrous alcohol dehydration→transparency using TO transparent reagent→sealing piece using neutral quick drying glue; group C: color separation using deionized water→air-drying→sealing piece using neutral quick drying glue; group D: air-drying→transparency using TO transparent reagent→sealing piece using neutral quick drying glue; group E: air-drying→sealing piece using neutral quick drying glue. Then, the morphology and the components distribution of the composite were observed under light field microscope, and the simple and feasible method was selected as optimum method. ResultsFrom general observation, the frozen section of the PU/SIS composite, which was 6 μm in thickness, was complete and continuous. Although the outline of the material and the porous structure in the sections could be observed clearly under light field microscope, the two components still could not be identified by using eosin staining method. After sealing piece, the material components in groups A, B, and C still could not be identified or be dissolved and deformed; the morphology of the material in groups D and E were preserved and the two components in the composite were clearly visible. ConclusionThe morphology and the components distribution of PU/SIS frozen sections can be characterized after soluble eosin staining and neutral quick drying glue sealing.