Abstract
Simple SummaryThere is an urgent need to develop new therapeutic approaches for diseases of the retina, like glaucoma. In their pathogenesis, oxidative stress and the corresponding defense reactions play an important role. In porcine retinal organ cultures, hydrogen peroxide can be used to simulate oxidative stress. In the present study, we investigated whether the treatment with an inducible nitric oxide synthase inhibitor protects retinal cells from oxidative stress. Therefore, porcine retinal explants were damaged with hydrogen peroxide and treated with the nitric oxide synthase inhibitor. Analyzes of the retina at four and eight days showed that a inhibitor was able to prevent degeneration in porcine retinas, since retinal ganglion cells were protected to some extent. Moreover, in the later course, there was also protection of other retinal cells (bipolar cells). Hence, this inhibitor seems to be a promising treatment option for retinal diseases.In retinal organ cultures, H2O2 can be used to simulate oxidative stress, which plays a role in the development of several retinal diseases including glaucoma. We investigated whether processes underlying oxidative stress can be prevented in retinal organ cultures by an inducible nitric oxide synthase (iNOS)-inhibitor. To this end, porcine retinal explants were cultivated for four and eight days. Oxidative stress was induced via 300 µM H2O2 on day one for three hours. Treatment with the iNOS-inhibitor 1400 W was applied simultaneously, remaining for 72 h. Retinal ganglion cells (RGC), bipolar and amacrine cells, apoptosis, autophagy, and hypoxia were evaluated immunohistologically and by RT-qPCR. Additionally, RGC morphology was analyzed via transmission electron microscopy. H2O2-induced RGCs loss after four days was prevented by the iNOS-inhibitor. Additionally, electron microscopy revealed a preservation from oxidative stress in iNOS-inhibitor treated retinas at four and eight days. A late rescue of bipolar cells was seen in iNOS-inhibitor treated retinas after eight days. Hypoxic stress and apoptosis almost reached the control situation after iNOS-inhibitor treatment, especially after four days. In sum, the iNOS-inhibitor was able to prevent strong H2O-induced degeneration in porcine retinas. Hence, this inhibitor seems to be a promising treatment option for retinal diseases.
Highlights
Ex vivo organ cultures represent a unique research option as they combine both the advantages of animal models and those of cell cultures
We investigated the neuroprotective effect of the inducible nitric oxide synthase (iNOS)-inhibitor 1400 W on CoCl2-induced hypoxic retinal damage and revealed a neuroprotective effect on Retinal ganglion cells (RGC) and bipolar cells [5,23]
The results indicate that the iNOS-inhibitor has protective effects, especially on the RGCs of H2O2-stressed retinas (H2O2) damaged retinas, mainly based on the lowering of the apoptosis rate
Summary
Ex vivo organ cultures represent a unique research option as they combine both the advantages of animal models and those of cell cultures. In ophthalmological research, which traditionally mainly uses laboratory animals or immortalized single cell cultures, organ cultures have increasingly come into focus. Our research groups have adapted retinal organ culture models to investigate the pathomechanisms of retinal diseases and to test new therapeutic options [5,6,7,8]. These models are based on porcine retinas, which can be obtained as a waste product from the food industry. Morphology and physiology of the porcine retina is quite similar to the human retina, more so than those of commonly used (rodent) laboratory animals [5,9]
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