Abstract
Activation of the unfolded protein response has been detected in various animal models of retinal degeneration. The PERK branch converges on eIF2α to regulate protein synthesis. We previously reported that diseased retinas produce less protein as they degenerate. We also proposed that the majority of this reduction in protein synthesis may not be due to control of eIF2α. Nevertheless, multiple research groups have reported that modulating eIF2α levels may be a viable strategy in the treatment of neurodegenerative diseases. Here, using two genetic approaches, a systemic Gadd34 knockout and a photoreceptor conditional Perk knockout, to alter p-eIF2α levels in rd16 mice, we demonstrate not only that degenerating retinas may not use this mechanism to signal for a decline in protein synthesis rates but also that modulation of p-eIF2α levels is insufficient to delay retinal degeneration.
Highlights
Inherited retinal degeneration (IRD) is a class of retinal dystrophies in which there is currently no cure and few treatment options available
Strategy to modulate the eIF2a activity The ability of eIF2α to regulate protein synthesis and allow the cell to cope with stress depends on its phosphorylation status
growth arrest and DNA-damage 34 (GADD34) was only upregulated at P20
Summary
Inherited retinal degeneration (IRD) is a class of retinal dystrophies in which there is currently no cure and few treatment options available. Activation of the unfolded protein response (UPR) has been detected in multiple animal models of retinal degeneration[1,2,3,4,5]. PERK signals for a halt in translation following ER stress by phosphorylating eukaryotic initiation factor 2 alpha (eIF2α)[6,7]. This translational attenuation of new protein synthesis aims to reduce the burden on the cell and provides cells with an opportunity to refold incorrectly folded proteins and adapt[7]. Multiple groups have reported elevated activation of the PERK branch in animal models of retinal degeneration. There are no known roles of eIF2α other than protein synthesis regulation, so it has been assumed that its
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