Conclusion
Our results indicate that WT OPTN overexpression may lead to photoreceptor apoptosis. However, overexpression also confers a degree of protection against high concentrations of extracellular glutamate. Additionally, EVs released by transfected RGC-5 cells may regulate the cell state. These findings may improve our understanding of the mechanisms of cell-cell interactions in pathological conditions, providing a basis for the use of EVs as novel targets for early diagnosis and treatment of glaucoma.
Methods
A photoreceptor cell line, RGC-5, was transfected with empty plasmids and plasmids expressing wild-type (WT) optineurin (OPTN) or E50K OPTN to investigate the effects of OPTN glaucoma as well as to identify the role of EVs in glaucoma pathology. The RGC-5 cells were also stimulated with glutamate, and their viability was evaluated using flow cytometry or CCK-8 assay. EVs were extracted, labeled with PKH-26, and added into the medium for normal RGC-5 culture, and the status of the cells was observed thereafter.
Objective
To explore the role of extracellular vesicles (EVs) in the pathogenesis of glaucoma caused by E50K mutation.
Results
WT OPTN overexpression, E50K OPTN, and glutamate stimulation induced apoptosis of RGC-5 cells. However, when glutamate stimulation was used as an add-on treatment, the degree of apoptosis in WT OPTN-overexpressing RGC-5 cells was significantly lower than that in E50K OPTN-expressing and normal RGC-5 cells. The viability of normal RGC-5 cells was reduced when co-cultured with WT OPTN-overexpressing RGC-5 or E50K OPTN-overexpressing RGC-5. EVs released by the latter two transfected lines similarly reduced normal RGC-5 survival.