1. Oxygen-induced retinopathy induces short-term glial stress and long-term impairment of photoentrainment in mice
- Author
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Dominique Sage-Ciocca, Etienne Challet, André Malan, David Hicks, and Madah Khawn i Muhammad Mehdi
- Subjects
Retinal Ganglion Cells ,Retinal degeneration ,medicine.medical_specialty ,Light ,Cell Survival ,Blotting, Western ,Cell Count ,Nerve Tissue Proteins ,Hyperoxia ,Motor Activity ,Biology ,Chronobiology Disorders ,Retinal ganglion ,Mice ,Cellular and Molecular Neuroscience ,chemistry.chemical_compound ,Pregnancy ,Internal medicine ,medicine ,Animals ,Retinopathy of Prematurity ,Circadian rhythm ,Retinal Degeneration ,Rod Opsins ,Retinal ,Retinopathy of prematurity ,Anatomy ,medicine.disease ,eye diseases ,Sensory Systems ,Oxygen ,Disease Models, Animal ,Ophthalmology ,Light intensity ,Endocrinology ,Animals, Newborn ,chemistry ,Astrocytes ,Female ,sense organs ,medicine.symptom ,Retinal Neurons ,Retinopathy - Abstract
Retinopathy of prematurity is a serious potentially blinding disease of pre-term infants. There is extensive vascular remodeling and tissue stress, but data concerning alterations in retinal neurons and glia, and long-term functional sequelae are still incomplete. ROP was induced using the oxygen-induced retinopathy (OIR) mouse model. Postnatal day 7 (P7) 129SVE mice were exposed to hyperoxia (75 ± 0.5 % oxygen) for 5 days, and then returned to normoxia to induce OIR. Exposed animals were euthanized at 5 (P17-OIR) and 14 days (P26-OIR) after return to normal air, together with corresponding age-matched control mice (P17-C and P26-C respectively) raised only in room air. Their retinas were examined by immunohistochemistry using a battery of antibodies against key glial and neuronal proteins. A further group of OIR mice and controls were examined at 10 weeks of age for their ability to re-entrain to changing 12 h light/12 h dark cycles, assayed by wheel-running actimetry. In this protocol, animals were subjected to three successive conditions of 300 lux, 15 lux and 1 lux ambient light intensity coupled with 6 hours of jetlag. Animals were euthanized at 4 months of age and used in immunoblotting for rhodopsin. Compared to P17-C, immunohistochemical staining of P17-OIR sections showed up-regulation of stress-related and glutamate-regulatory proteins in astrocytes and Muller glial cells. In contrast, glial phenotypic expression in P26-OIR retinas largely resembled that in P26-C. There was no loss in total retinal ganglion cells (RGC) at either P17-OIR or P26-OIR compared to corresponding controls, whereas intrinsically photosensitive RGC showed significant decreases, with 375 ± 13/field in P26-OIR compared to 443 ± 30/field in P26-C (p
- Published
- 2014
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