AI Article Synopsis
- Iron is crucial for eye health but can lead to damage if there's too much, necessitating careful regulation of iron levels in the retina.
- Researchers tested the delivery of transferrin (Tf), a protein that binds iron, in animal models to see if it could help protect against retinal degeneration caused by light exposure.
- Results showed that Tf not only reduced harmful iron levels and oxidative stress but also improved retinal function and structure, indicating its potential as a safe treatment for retinal diseases linked to oxidative damage.
Article Abstract
Iron is essential for retinal function but contributes to oxidative stress-mediated degeneration. Iron retinal homeostasis is highly regulated and transferrin (Tf), a potent iron chelator, is endogenously secreted by retinal cells. In this study, therapeutic potential of a local Tf delivery was evaluated in animal models of retinal degeneration. After intravitreal injection, Tf spread rapidly within the retina and accumulated in photoreceptors and retinal pigment epithelium, before reaching the blood circulation. Tf injected in the vitreous prior and, to a lesser extent, after light-induced retinal degeneration, efficiently protected the retina histology and function. We found an association between Tf treatment and the modulation of iron homeostasis resulting in a decrease of iron content and oxidative stress marker. The immunomodulation function of Tf could be seen through a reduction in macrophage/microglial activation as well as modulated inflammation responses. In a mouse model of hemochromatosis, Tf had the capacity to clear abnormal iron accumulation from retinas. And in the slow P23H rat model of retinal degeneration, a sustained release of Tf in the vitreous via non-viral gene therapy efficently slowed-down the photoreceptors death and preserved their function. These results clearly demonstrate the synergistic neuroprotective roles of Tf against retinal degeneration and allow identify Tf as an innovative and not toxic therapy for retinal diseases associated with oxidative stress.
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| http://dx.doi.org/10.1016/j.freeradbiomed.2015.08.018 | DOI Listing |
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