Mélanie Marie scite author profile

AimsBlue light is an identified risk factor for age-related macular degeneration (AMD). We investigated oxidative stress markers and mitochondrial changes in A2E-loaded retinal pigment epithelium cells under the blue–green part of the solar spectrum that reaches the retina to better understand the mechanisms underlying light-elicited toxicity.ResultsPrimary retinal pigment epithelium cells were loaded with a retinal photosensitizer, AE2, to mimic aging. Using a custom-made illumination device that delivers 10 nm-wide light bands, we demonstrated that A2E-loaded RPE cells generated high levels of both hydrogen peroxide (H2O2) and superoxide anion (O2•−) when exposed to blue–violet light. In addition, they exhibited perinuclear clustering of mitochondria with a decrease of both their mitochondrial membrane potential and their respiratory activities. The increase of oxidative stress resulted in increased levels of the oxidized form of glutathione and decreased superoxide dismutase (SOD) and catalase activities. Furthermore, mRNA expression levels of the main antioxidant enzymes (SOD2, catalase, and GPX1) also decreased.ConclusionsUsing an innovative illumination device, we measured the precise action spectrum of the oxidative stress mechanisms on A2E-loaded retinal pigment epithelium cells. We defined 415–455 nm blue–violet light, within the solar spectrum reaching the retina, to be the spectral band that generates the highest amount of reactive oxygen species and produces the highest level of mitochondrial dysfunction, explaining its toxic effect. This study further highlights the need to filter these wavelengths from the eyes of AMD patients.

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Taurine Depletion Causes ipRGC Loss and Increases Light-Induced Photoreceptor Degeneration

García‐Ayuso

Pierdomenico

Hadj-Saïd

et al. 2018

Invest. Ophthalmol. Vis. Sci.

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METHODS. Albino rats received b-alanine in the drinking water to induce taurine depletion. One month later, half of the animals were exposed to white light (3000 lux) continuously for 48 hours and the rest remained in normal environmental conditions. A control group of animals nontreated with b-alanine also was prepared, and half of them were exposed to light using the same protocol. All the animals were processed 2 months after the beginning of the experiment. Retinas were dissected as wholemounts and immunodetected with antibodies against Brn3a, melanopsin, S-opsin, and L-opsin to label different retinal populations: Brn3a þ retinal ganglion cells (RGCs) (image-forming RGCs), m þ RGCs (non-image-forming RGCs), and S-and L/M-cones, respectively. RESULTS. Light exposure did not affect the numbers of Brn3aþ RGCs or m þ RGCs but diminished the numbers of S-and L/M-cones and caused the appearance of rings devoid of cones, mainly in an ''arciform'' area in the superotemporal retina. Taurine depletion caused a diminution of all the studied populations, with m þ RGCs the most affected, followed by Scones. Light exposure under taurine depletion increased photoreceptor degeneration but did not seem to increase Brn3a þ RGCs or m þ RGCs loss. CONCLUSIONS.Our results document that taurine is necessary for cell survival in the rat retina and even more under light-induced photoreceptor degeneration. Thus, taurine supplementation may help to prevent retinal degenerations, especially those that commence with S-cone degeneration or in which light may be an etiologic factor, such as inherited retinal degenerations, AMD, or glaucoma.

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Mélanie Marie

Light action spectrum on oxidative stress and mitochondrial damage in A2E-loaded retinal pigment epithelium cells

Taurine Depletion Causes ipRGC Loss and Increases Light-Induced Photoreceptor Degeneration

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