Bunatian Institute of Biochemistry

Yerevan, Armenia

Bunatian Institute of Biochemistry

Yerevan, Armenia

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Cronin T.,University Pierre and Marie Curie | Raffelsberger W.,Laboratoire Of Bioinformatique Et Genomique Inte Gratives | Lee-Rivera I.,University Pierre and Marie Curie | Jaillard C.,University Pierre and Marie Curie | And 9 more authors.
Cell Death and Differentiation | Year: 2010

Rod-derived cone viability factor (RdCVF) is a thioredoxin-like protein, which has therapeutic potential for rod-cone dystrophies such as retinitis pigmentosa (RP). Cone loss in rodent models of RP is effectively reduced by RdCVF treatment. In this study, we investigate the physiological role of RdCVF in the retina by analyzing the phenotype of the mouse lacking the RdCVF gene, Nxnl1. Although the mice do not show an obvious developmental defect, an age-related reduction of both cone and rod function and a delay in the dark-adaptation of the retina are recorded by electroretinogram (ERG). This functional change is accompanied by a 17% reduction in cone density and a 20% reduction in thickness of the outer nuclear layer. The transcriptome of the retina reveals early changes in the expression of genes involved in programmed cell death, stress-response and redox-signaling, which is followed by a generalized injury response with increased microglial activation, GFAP, FGF2 and lipid peroxidation levels. Furthermore, cones of the mice lacking Nxnl1 are more sensitive to oxidative stress with a reduction of 65% in the cone flicker ERG amplitude measured under hyperoxic conditions. We show here that the RdCVF gene, in addition to therapeutic properties, has an essential role in photoreceptor maintenance and resistance to retinal oxidative stress. © 2010 Macmillan Publishers Limited All rights reserved.

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