We cultured retinal g[ial cells(RGC)from immature rats and observed the migratory responses to fetal bovine serum(FBS).We found thai FItS stimulats the migration of RGC in a dose response manner. We also observed the inhibition of heparin on RGC cben,otaxis,and found that heparin(10U/ml)decreased significantly the RGC migration stimulated by serum(0%to 10%)(all Plt;0.0001).but 1U/ml of heparin bad no effect on RGC chemotaxis(P=0.5118).These results showed that FBS contains chemoattractants for RGC,and heparin can inhibit RGC chemotaxis stimulated by serum. (Chin J Ocul Fundus Dis,1994,10:170-173)
The purpose of this study was to find some solutions to the problem of tendon cell proliferation control. Under the condition of in vitro culture, several materials including IGF-1 receptor antibody and mRNA antisense oligonucleotide were added to the culture medium to block the IGF-1-Receptor system. The effect of the material on the tendon cell proliferation was judged by cell count after incubation of 48 hours. The results showed that both IGF-1 Receptor antibody (IGF-1R alpha) and IGF-1 Receptor mRNA antisense oligonucleotide had negative effect on tendon cell proliferation (P lt; 0.01 and P lt; 0.05). These findings lead us to think that the above two materials could be used in the experiment of tendon adhesion preventing and living ready-made tendon producing.
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 establish a purified model of rat retinal ganglion cells (RGCs) cultured by serum-free medium,and provide a good cell model to investigate the damage of RGCs in glaucoma,retinal ischemia,and degenerative retinopathy. Methods Two monoclonal antibodies,anti-rat SIRP(OX-41)against rat macrophage and antibody against rat Thy-1(OX-7),were used to purify and characterize RGCs from 1-3-day old Sprague-Dawley(SD)rats by means of two-step filtration.Purified RGCs were cultured in serum-free neurobasal medium containing B27 and ciliary neurotrophic factor(CNTF) meeting the neuronal cellrsquo;s special requirements.Photomicrographs illustration,immunfluorescence staining of Thy-1,calcein-acetoxymethyl ester(calcein-AM)fluorescence images were used to observe and identify cultured retinal cells and purified RGCs. Results Among the primary cultured rat retinal cells,91% were retinal neurons.Protuberances of RGCs were seen after cultured for 24 hours.At the4th to 8th day,many cells had uniform configuration,large body,and long protuberances. At the 14th day,over 60% cells maintained viability.Immunoflurescence staining of Thy-1 showed the purity of RGCs was about 90%. The results of calcein-AM staining,which stained the living cells only,showed large cell body of RGCs and most of RGCs had a protuberance whose length was twice longer than the diameter of the cells. Conclusion RGCs cultured by serum-free medium has uniform size,good configuration,and high purity,which is adapt to the research of damage of RGCs caused by various factors and to evaluate the protective effects of neuroprotective agents. (Chin J Ocul Fundus Dis, 2006, 22: 200-203)
【摘要】 目的 通过比较两种原代人脐静脉内皮细胞的分离培养方法并对细胞特异性抗原进行鉴定,探索提高原代内皮细胞体外培养存活率及纯化率的方法。 方法 采用一次性无菌注射器向人脐静脉灌注消化液,消化液的浓度和消化时间分别025%(质量体积比)胰蛋白酶,10 min和01%(质量体积比)胶原酶Ⅱ,15 min。通过在倒置显微镜下观察细胞的形态特点和用免疫荧光染色的方法对细胞进行鉴定,比较两种消化方法的优劣。 结果 01%胶原酶Ⅱ,15 min的消化方法较025%胰蛋白酶,10 min对原代人脐静脉内皮细胞有更好的分离效果,活细胞数量多且细胞纯度较高。免疫荧光染色结果表明细胞内有Ⅷ因子相关抗原表达。结论 胶原酶Ⅱ可以有效分离脐静脉内皮细胞,最佳消化条件是01%胶原酶Ⅱ,37℃,15 min。【Abstract】 Objective To explore the optimal method for primary culture of human umbilical vein endothelial cells (HUVECs). Methods HUVECs were prepared from human umbilical cords by 01% collagenase Ⅱ digestion for 15 minutes and 025 trypsinase digestion for 10 minutes,respectively. HUVECs were observed under inverted microscope and identified by immunofluorescence.The two methods of digestion were compared. Results More HUVECs were harvested through the method of 01% collagenase Ⅱ for 15 minutes,which expressed Ⅷ related antigen. Conclusion The method of 0.1% collagenase Ⅱ digestion for 15 minutes is a better choice to isolate HUVECs.
Objective To review the latest development of the research on the selfrenwal signaling pathway and culture system in vitro of the embryonic stem cells(ESCs). Methods The recent articlesabout the selfrenewal signaling pathway and culture system in vitro of the ESCs were extensively reviewed. Results Understanding of the molecular mechanism of the selfrenewalin vitro and pluripotency of the ESCs was considered important for developing improved methods of deriving, culturing and differentiating these cells into the cells that could be successfully used in the clinical practice. Conclusion A further research is needed to elucidate the selfrenewal signaling pathway and the pluripotency of the ESCs and the culture systemin vitro forthe human ESCs remains to be further improved and developed.
Objective To study the differenation of adult marrow mesenchymal stem cells(MSCs) into vascular endothelial cells in vitro and to explore inducing conditions. Methods MSCs were isolated from adult marrow mononuclear cells by attaching growth. MSCs were divided into 4 groups to induce: the cells seeded at a density of 5×103/cm2 in 2% and 15% FCS LDMEM respectively (group1 and group 2), at a density of 5×104/cm2 in 2% and 15% FCS LDMEM respectively (group 3 and group 4); vascular endothelial growth factor(VEGF) supplemented with Bovine pituitary extract was used to induce the cell differentiation. The differentiated cells were identified by measuring surfacemarks (CD34, VEGFR2, CD31 and vWF ) on the 14th day and 21st day and performed angiogenesis in vitroon the 21st day.The cell proliferation index(PI)of different inducing conditions were measured. Results After induced in VEGF supplemented with Bovine pituitary extract, the cells of group 3 expressed the surface marks CD34, VEGFR-2, CD31 and vWF on the 14th day, the positive rates were 8.5%, 12.0%, 40.0% and 30.0% respectively, and on the 21st day the positive ratesof CD34 and VEGFR2 increased to 15.5% and 20.0%, while the other groups did not express these marks; the induced cells of group 3 showed low proliferating state(PI was 10.4%) and formed capillary-like structure in semisolid medium. Conclusion Adult MSCs can differentiate into vascular endothelial cellsafter induced by VEGF and Bovine pituitary extract at high cell densities and low proliferatingconditions,suggesting that adult MSCs will be ideal seed cells forthe therapeutic neovascularization and tissue engineering.
Objective\ To promote the differentiation of cultured endothelial cells and enhance their resistance to fluid shear stress.\ Methods\ Using the mended parallel plate flow apparatus and peristalsis pump providing fluid shear stress, endothelial culture models were established in vitro with the same environment factors as steady culture. According to the increasing degree of shear stress, the experiment included:(1) Group A, exposing to the gradual increasing fluid shear stress, (2) Group B, exposing to step ...
【Abstract】Objective To investigate the effects of ethanol on polarization of cultured hepatocytes.Methods Sandwich hepatocytes were used to study the effects of ethanol on polarization of shortperiod cultured hepatocytes. Expression of albumin mRNA and P450-b mRNA,specific distribution of plasma membrance protein and the morphology were observed before and after ethanol was given. Results After treated ethanol, hepatocytes became flat and polynuclear. Its cellular plasma became watery and anatomical networks like board structure disappeared. Immunohistochemical method proved that the distribution of specific plasma membrane protein was damaged, and in situ hybridization studies demonstrated that the levels of albumin mRNA, P450-b mRNA expression decreased after ethanol was given.Conclusion Ethanol induces significant disturbance of cell polarization in cultured hepatocytes to result in injury. The current study is important for exploring the mechanism of alcohol liver disease from the cellular plane to provide a model.
OBJECTIVE To prevent early closure of growth plate and developmental deformities of limbs by allografts of cultured cartilages into growth plate defects of rabbits. METHODS Chondrocytes isolated from articular cartilage of 1-month rabbits formed cartilage after cultivation in centrifuge tubes. The cartilages cultured for two weeks were implanted into growth plate defects of proximal tibiae of 6-weeks rabbits. At 4th and 16th weeks, X-ray, histologic and immunohistochemical examination were performed. RESULTS The tibiae had no marked deformities after 4 weeks of operation. Histologic examinations showed that the defects were filled with cartilage. Immunohistochemical results of type II collagen were positive. The tibiae with allografts of cultured cartilages had no evident deformities after 16 weeks of operation. Histologic examination showed nearly closure of growth plates. On the contrary, the tibiae on control side formed severe deformities and growth plate were closed. CONCLUSION Allograft of cultured cartilages into growth plate defects may replace lost growth plate tissues, maintain normal growth of limbs and prevent developmental deformity.