A specific phosphorylation regulates the protective role of αA-crystallin in diabetes
Anne Ruebsam, Jennifer E. Dulle, Angela M. Myers, Dhananjay Sakrikar, Katelyn M. Green, Naheed W. Khan, Kevin Schey, Patrice E. Fort
Anne Ruebsam, Jennifer E. Dulle, Angela M. Myers, Dhananjay Sakrikar, Katelyn M. Green, Naheed W. Khan, Kevin Schey, Patrice E. Fort
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Research Article Ophthalmology

A specific phosphorylation regulates the protective role of αA-crystallin in diabetes

Abstract

Neurodegeneration is a central aspect of the early stages of diabetic retinopathy, the primary ocular complication associated with diabetes. While progress has been made to improve the vascular perturbations associated with diabetic retinopathy, there are still no treatment options to counteract the neuroretinal degeneration associated with diabetes. Our previous work suggested that the molecular chaperones α-crystallins could be involved in the pathophysiology of diabetic retinopathy; however, the role and regulation of α-crystallins remained unknown. In the present study, we demonstrated the neuroprotective role of αA-crystallin during diabetes and its regulation by its phosphorylation on residue 148. We further characterized the dual role of αA-crystallin in neurons and glia, its essential role for neuronal survival, and its direct dependence on phosphorylation on this residue. These findings support further evaluation of αA-crystallin as a treatment option to promote neuron survival in diabetic retinopathy and neurodegenerative diseases in general.

Authors

Anne Ruebsam, Jennifer E. Dulle, Angela M. Myers, Dhananjay Sakrikar, Katelyn M. Green, Naheed W. Khan, Kevin Schey, Patrice E. Fort

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Figure 3

Reduced cell death in αB-crystallin–KO mice is associated with basal induction of αA-crystallin and alleviation of diabetes-induced endoplasmic reticulum stress by αA-crystallin.

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Reduced cell death in αB-crystallin–KO mice is associated with basal ind...
α-Crystallin expression in the retina was assessed by immunoblot analysis after 12 weeks of diabetes. Representative images of immunoblots for αA- and αB-crystallin (cryAA and cryAB) (A) and graphic representations of the corresponding quantification (B) are shown. Endoplasmic reticulum (ER) stress levels were assessed in retinal lysates by immunoblot analysis of eukaryotic initiation factor α (eif2α) phosphorylation as well as C/EBP homologous protein (CHOP) induction. Representative images of immunoblots for p-eIF2α as well as total protein (t-eIF2α) (C) and actin and CHOP (D) are shown. Retinal lysates from WT, αA-crystallin–KO (Ko-cryAA), αB-crystallin–KO (Ko-cryAB), and double-KO (Ko-cryAA/AB) diabetic mice and nondiabetic control littermates were compared (A and B, n = 10 for diabetics, n = 6 for controls; C and D, n = 6 for diabetics, n = 3 for controls). *P ≤ 0.05, significantly different from nondiabetic WT mice. #P ≤ 0.05, significantly different from WT diabetic mice by 1-way ANOVA followed by Student-Newman-Keuls test.