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AIM:To explore the effect of different concentrations of salidroside on H2 O2 induced oxidative stress damage in human lens epithelium cells ( HLEC) . · METHODS: HLEC were cultured and divided into negative control group: cultured in normal cultivation;oxidative damage group: treated with 100μmol/L H2 O2 for 12h; Salidroside low concentration group: 10μmol/L salidroside treated for 24h and H2 O2 treated for 12h;Salidroside high concentration group: 100μmol/L salidroside treated for 24h and H2 O2 treated for 12h. MTT method was applied to observe the effect of salidroside on HLEC survival rate. Morphological change of each group were observed and recorded under inverted microscope. DCFH-DA fluorescent probe was applied to detect intracellular ROS changes; content of malondialdehyde ( MDA ) , superoxide dismutase ( SOD ) and glutathione peroxidase ( GSH-Px ) in supernatants were detected by pectrophotometer. · RESULTS: Salidroside obviously inhibited H2 O2 -induced HLEC vitality decline, inhibited ROS generation in cells, causing SOD, GSH-Px levels increased and MDA levels decreased. ·CONCLUSION:Salidroside inhibited H2 O2 induced HLEC injury by decreasing the intracellular MDA content levels and increasing SOD, GSH-Px content levels, which conclude that salidroside may have a certain role in the treatment of HLEC damage.
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Background Posterior capsular opacification(PCO) is common complication after extrecapsular extract of cataract.Matrix metalloproteinases-3 (MMP-3) can degrade all the extracellular matrix except polyose.The gene therapy of PCO upon MMP-3 is the researching hot topic.Fibronectin ( FN ) is a degrade gelatin,so its expression can reflect the effect of MMP-3 on LECs indirectly. Objective The aim of this study was to construct MMP-3 eukaryotic recombination plasmid and transfect to lens epithelium cells(LECs) for the observation of MMP3 expression,and to explore the feasibility of gene therapy for after cataract. Methods Six fresh lenses were obtained from pigs.LECs were cultured using explant method.The eukaryotic expression vector pEGFP-N1-MMP-3 was reconstructed with MMP-3 and pEGFP-N1 plasmids.The accuracy of MMP-3 gene fragment was confirmed by double enzyme digestion and DNA sequencing analysis.After transfecting pEGFP-N1-MMP-3 into LECs of pig,the expression of MMP-3 protein in the cells was indirectly observed by green fluorescent protein.The expression of FN in LECs was detected using Western blot. Results The result of double enzyme digestion was consistent with the base number of pEGFP-N1 plasmids and target fragment.By enlacing the result of DNA sequencing analysis with software,the resemblance of the DNA sequence of MMP-3 from recombination plasmid pEGFP-N1-MMP-3 and that of homo MMP-3 was 99.6%,indicating that the target fragment was inserted to pEGFP-N1 plasmids successfully.Green fluorescence for GFP was seen in the LECs in pEGFP-N1-MMP-3 transfected group,but absent response for GFP was in empty vector group.Western blot revealed that the relative expression level of FN in LECs was 0.666±0.008 in pEGFP-N1-MMP-3 trasfected group and 0.326 ±0.071 in empty vector group,with a significant difference between these two groups(P=0.000). Conclusions Eukaryotic recombination plasmid pEGFP-N1-MMP-3 is successfully constructed,and MMP-3 can be expressed in LECs after transfected.These results lay a foundation for the further research of MMP-3 gene therapy for PCO.
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Objective The generate of posterior capsular opacification(PCO)is associated with the adhensive and migration of residual subcapsular lens epithelial cells(LECs).Titanium dioxide(TiO_2)nanometer is proved to have the ability of killing tumor cells and cultured bovine LECs.This study tried to observe the effects of TiO_2 nanometer thin film provoked by light on adhesiveness and migration of bovine LECs in vitro.MethodsThe fresh bovine lenses were obtained and cultured in DMEM containing 10% of newborn bovine serum.The second to fifth generation of cells were used in this experiment.The slide modified by TiO_2 photocatalyst film was prepared by sol-gel method.Cultured cells were seeded in filmed or unfilmed slides respectively and exposed to ultraviolet(wavelength 365 nm)for 20 or 40 minutes.The contact angle between water drop and slide was measured by droping method and the cells adhered to slides were calculated after 24 and 48 hours of culture.The growth status and migration distance of bovine LECs were assayed and compared between filmed and unfilmed groups.ResultsThe contact angle between water drop and slide was 0°±2°and 18.825°±2.342° in filmed and unfilmed group respectively,indicating a obviously smaller contact angle in TiO_2 filmed group than unfilmed one.The numbers of bovine LECs adhered to filmed slide was considerably reduced in TiO_2 filmed group compared with unfilmed group in different UVA exposure time(t_(0 min)=5.492,P=0.001;t_(20 min)=6.031,P=0.000;t_(40 min)=6.828,P=0.000).However,no significant difference was found in the numbers of adhensive cells among 3 UVA irradiation time points(F=1.278,P=0.297).The migration distance of the cells was significantly shorter in TiO_2 filmed group in comparison with unfilmed group in 24 and 48 hours after UVA irradiation(F_(group)=14.965,P=0.000;F_(time)=38.033,P=0.000).ConclusionThe TiO_2 nanometer thin film is characterized by the superhydrophilic property.So it can effectively impede the adhesion and migration of bovine LECs in vitro.