ABSTRACT
It is well known that posterior capsule opacification (PCO), one of the most common late postoperative complications of cataract surgery, is mainly caused by proliferation and differentiation of remaining lens epithelial cells (LECs) on the posterior lens capsule. Many authors suggest that alterations induced by the pathophysiology of cataracts, its metabolism and the use of 0.1% trypan blue (TB) must cause some degree of cellular damage on these cells, wicht would help to prevent and/or reduce the incidence of PCO after cataract surgery in humans. Therefore, the aim of this study was to evaluate the expression of cell death markers on LECs of older dogs with diabetic and hypermature cataracts, after capsulorhexis, both using 0.1% TB. Twenty samples collected from 13 dogs of different breeds, with ages varying from 8 to 12 years-old, with diabetic and hypermature cataracts, which had been subjected to phacoemulsification surgery (Phaco) using 0.1% TB for staining were studied. Animals were classified as dogs with diabetic (DC) and hypermature cataracts (HC), and expression of molecular markers for apoptosis and autophagy (caspase-3 and beclin-1) on LECs were obtained by immunofluorescence technique. The expression of caspase-3 and beclin-1 was observed in every studied sample and did not differ between groups. In conclusion, our findings suggest that apoptosis and autophagy processes occur to LECs in older dogs presenting diabetic and hypermature cataracts after Phaco utilizing 0.1% TB. Our results may be helpful to future studies of PCO in post-phacoemulsification surgery patients.(AU)
A opacificação da cápsula posterior da lente do globo ocular é a complicação mais observada após a remoção da lente. Essa patologia é causada principalmente pela proliferação e diferenciação das células do epitélio anterior da lente em sua cápsula posterior. Muitos autores sugerem que alterações induzidas pelo metabolismo e/ou patofisiologia da catarata e o uso do corante de azul de tripan a 0,1% devam causar algum dano a essas células, o que supostamente ajudaria a prevenir e reduzir a incidência de tal complicação em humanos. Este trabalho avaliou a expressão de marcadores de morte celular no epitélio anterior da lente de cães idosos com catarata diabética e hipermadura, após capsulorrexe realizada com o emprego do azul de tripan a 0,1%. Foram estudadas vinte amostras colhidas de treze cães de diferentes raças, com idades variando de oito a doze anos, que apresentavam catarata diabética ou hipermadura e que foram submetidos à facoemulsificação utilizando corante de azul de tripan a 0,1%. Foram designados dois grupos: com catarata diabética (DC) e com catarata hipermadura (HC). A expressão molecular dos marcadores de morte celular por apoptose a autofagia (caspase-3 e beclina-1) no epitélio anterior da lente foi avaliada pela técnica de imunofluorescência. Observou-se que a expressão de caspase-3 e beclina-1 ocorreu em todas as amostras e não foi diferente entre os grupos. Os achados deste estudo sugerem que o processo de morte celular por apoptose e autofagia ocorre no epitélio anterior da lente de cães idosos com catarata diabética e hipermadura submetidos à facoemulsificação com o corante de azul de tripan a 0,1%. Este resultado pode ser útil para estudos futuros da opacidade da cápsula posterior da lente em cães submetidos à facoemulsificação.(AU)
Subject(s)
Animals , Dogs , Apoptosis , Cataract/veterinary , Epithelium, Corneal/physiopathology , Autophagy , Diabetes Complications/veterinaryABSTRACT
Objective To investigate the effects of rapamycin on human lens epithelial cells (HLECs) against high glucose-induced oxidative stress.Methods A oxidative damage model of HLECs induced by high glucose was established,and intervention with different concentrations of rapamycin for the cells was performed for detecting the survival rate by CCK-8 assay,observing cell morphology by inverted microscope,and measuring the level of intracellular reactive oxygen species (ROS) by H2DCFDA staining,as well as determining the expression of apoptosis related Bcl-2 and Bax proteins by Western blot in all groups.Results CCK-8 results showed that the survival rate of HLECs was increased to 62.00% ± 3.74% and 79.57% ± 5.26% after treated with 10 nmol · L-1 and 100 nmol · L 1 rapamycin,and the difference was statistically significant when compared with the high glucose group (42.32% ± 3.10%) (all P < 0.05);H2DCFDA fluorescent probe staining demonstrated that rapamycin could suppress ROS generation in HLECs and alleviate oxidative damage to cells;besides,rapamycin could downregulate the expression of Bcl-2 and Bax protein in HLECs and the inhibitory effects were positively correlated with the concentration of rapamycin.Conclusion Rapamycin can inhibit high glucose-induced oxidative damage and apoptosis m human HLECs,which provides a prevention effect for diabetic cataract.
ABSTRACT
Abstract?AIM: To investigate the effect of epigallocatechin-3-gallate ( EGCG ) against oxidative stress induced by high glucose in human lens epithelium ( HLE) cells.? METHODS: The HLE cell oxidative damage model induced by high concentration glucose was established, and was intervented with different concentrations of EGCG. Cell viability was determined by MTT assay, cell morphology was investigated by convert microscope, cells apoptosis was assayed by flow cytometry with Hoechst-PI staining. Moreover, the levels of super oxide dismutase ( SOD) , glutathione peroxidase ( GSH-Px) and malondialdehyde ( MDA) in supernatant were also tested after different treatment either with high concentration glucose or with different concentrations of EGCG.?RESULTS: MTT results showed that HLE cells activity increased to 50. 33%± 3. 52% and 63. 33%± 4. 63% after treated with 10 μmol/L and 100 μmol/L EGCG respectively, the difference was statistically significant compared with oxidative injury group(32. 67%±3. 10%)(P<0. 05 ); HLE cells maintained better morphology intervented with EGCG under high glucose conditions, the number of apoptotic cells reduced, SOD and GSH-Px level within HLE cells increased and MDA levels decreased.?CONCLUSION:EGCG plays its strong antioxidant effect by increasing SOD, GSH-Px content and decreasing MDA content in cells, therefore provides a reliable experimental basis for the search for effective prevention and treatment of cataract drug.