ABSTRACT
Objective To investigate the influence of calcium elevation on oxida tive stress in human lens epithelial cells (HLEC) SRA01/04.Method The cells (2 x 103 cells/well) which in the period of logarithmic phase were seeded into 96-well plates with three replicates for the two groups;and in the experimental group,SRA01/04 cells were exposed to a CaCI2 concentration gradient (3 mmol · L-1,5 mmol · L-1,7 mmol · L-1,9 mmol · L-1,11 mmol · L-1,13 mmol · L-1,15 mmol · L-1,17 mmol · L-1,19 mmol · L-1) for 0 h,12 h,24 h,36 h;while the cells in the control group were cultured in complete 1640 medium.Cell counting kit-8 (CCK-8) assay was used to measure cell viability.The levels of intracellular superoxide dismutase (SOD),glutathione (GSH) content and oxidized glutathione (GSSG) / total glutathione (T-GSH) were determined by using the microplate-reader method with the commercial total/oxidized glutathione and sod quantification kit.Results At first,the survival rate of SRA01/04 cells treated with 3 mmol · L-1,5 mmol · L-1,7 mmol· L-1 CaCL2 for 24 h showed a significant decrease with the increase of CaCl2 concentration by CCK-8 assays,but gradually increased when the concentration increased to 9 mmol · L-1,and the difference approached statistical significance (P < 0.05).Meanwhile,there was significant difference in the viability of the control group (0.592 + 0.055) and cells exposed to 15 mmol · L-1 CaCI2 (0.293 + 0.02) (t =7.811,P <0.05).Cell treatment with 15 mmol· L-1 CaC12 for 24 h was the most appropriate condition for HLEC apoptosis,followed by the appearance of nuclear fragmentation and dissolution,enhanced intracellular SOD viability (t =-6.417,P < 0.05),decreased T-GSH content (t =13.816,P < 0.05),and increased ratio of GSSG/T-GSH (t =-4.396,P < 0.05) when compared with the control group,and the differences were statistically significant.Conclusion Intracellular calcium elevation can inhibit the cell viability and increase the levels of SOD and GSSG in HLEC to aggravate the intracellular oxidative damage.
ABSTRACT
Objective To investigate the influence of calcium elevation on oxida tive stress in human lens epithelial cells (HLEC) SRA01/04.Method The cells (2 x 103 cells/well) which in the period of logarithmic phase were seeded into 96-well plates with three replicates for the two groups;and in the experimental group,SRA01/04 cells were exposed to a CaCI2 concentration gradient (3 mmol · L-1,5 mmol · L-1,7 mmol · L-1,9 mmol · L-1,11 mmol · L-1,13 mmol · L-1,15 mmol · L-1,17 mmol · L-1,19 mmol · L-1) for 0 h,12 h,24 h,36 h;while the cells in the control group were cultured in complete 1640 medium.Cell counting kit-8 (CCK-8) assay was used to measure cell viability.The levels of intracellular superoxide dismutase (SOD),glutathione (GSH) content and oxidized glutathione (GSSG) / total glutathione (T-GSH) were determined by using the microplate-reader method with the commercial total/oxidized glutathione and sod quantification kit.Results At first,the survival rate of SRA01/04 cells treated with 3 mmol · L-1,5 mmol · L-1,7 mmol· L-1 CaCL2 for 24 h showed a significant decrease with the increase of CaCl2 concentration by CCK-8 assays,but gradually increased when the concentration increased to 9 mmol · L-1,and the difference approached statistical significance (P < 0.05).Meanwhile,there was significant difference in the viability of the control group (0.592 + 0.055) and cells exposed to 15 mmol · L-1 CaCI2 (0.293 + 0.02) (t =7.811,P <0.05).Cell treatment with 15 mmol· L-1 CaC12 for 24 h was the most appropriate condition for HLEC apoptosis,followed by the appearance of nuclear fragmentation and dissolution,enhanced intracellular SOD viability (t =-6.417,P < 0.05),decreased T-GSH content (t =13.816,P < 0.05),and increased ratio of GSSG/T-GSH (t =-4.396,P < 0.05) when compared with the control group,and the differences were statistically significant.Conclusion Intracellular calcium elevation can inhibit the cell viability and increase the levels of SOD and GSSG in HLEC to aggravate the intracellular oxidative damage.