Light‐Induced Retinal Degeneration Is Prevented by Zinc,a Component in the Age‐related Eye Disease Study Formulation† |
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| Authors: | Daniel Organisciak Paul Wong Christine Rapp Ruth Darrow Alison Ziesel Rekha Rangarajan John Lang |
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| Affiliation: | 1. Petticrew Research Laboratory, Department of Biochemistry and Molecular Biology, Boonshoft School of Medicine, Wright State University, Dayton, OH;2. Department of Ophthalmology, Emory University, Atlanta, GA;3. Alcon Research Ltd., Fort Worth, TX |
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| Abstract: | Mineral supplements are often included in multivitamin preparations because of their beneficial effects on metabolism. In this study, we used an animal model of light‐induced retinal degeneration to test for photoreceptor cell protection by the essential trace element zinc. Rats were treated with various doses of zinc oxide and then exposed to intense visible light for as long as 8 h. Zinc treatment effectively prevented retinal light damage as determined by rhodopsin and retinal DNA recovery, histology and electrophoretic analysis of DNA damage and oxidized retinal proteins. Zinc oxide was particularly effective when given before light exposure and at doses two‐ to four‐fold higher than recommended by the age‐related eye disease study group. Treated rats exhibited higher serum and retinal pigment epithelial zinc levels and an altered retinal gene expression profile. Using an Ingenuity database, 512 genes with known functional annotations were found to be responsive to zinc supplementation, with 45% of these falling into a network related to cellular growth, proliferation, cell cycle and death. Although these data suggest an integrated and extensive regulatory response, zinc induced changes in gene expression also appear to enhance antioxidative capacity in retina and reduce oxidative damage arising from intense light exposure. |
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