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Insulin Receptor Signaling in Cones
Authors:Ammaji Rajala  Radhika Dighe  Martin-Paul Agbaga  Robert E. Anderson  Raju V.S. Rajala
Affiliation:From the Departments of Ophthalmology.;Cell Biology, and ;Physiology, University of Oklahoma Health Sciences Center and ;the §Dean A. McGee Eye Institute, Oklahoma City, Oklahoma 73104
Abstract:
In humans, age-related macular degeneration and diabetic retinopathy are the most common disorders affecting cones. In retinitis pigmentosa (RP), cone cell death precedes rod cell death. Systemic administration of insulin delays the death of cones in RP mouse models lacking rods. To date there are no studies on the insulin receptor signaling in cones; however, mRNA levels of IR signaling proteins are significantly higher in cone-dominant neural retina leucine zipper (Nrl) knock-out mouse retinas compared with wild type rod-dominant retinas. We previously reported that conditional deletion of the p85α subunit of phosphoinositide 3-kinase (PI3K) in cones resulted in age-related cone degeneration, and the phenotype was not rescued by healthy rods, raising the question of why cones are not protected by the rod-derived cone survival factors. Interestingly, systemic administration of insulin has been shown to delay the death of cones in mouse models of RP lacking rods. These observations led to the hypothesis that cones may have their own endogenous neuroprotective pathway, or rod-derived cone survival factors may be signaled through cone PI3K. To test this hypothesis we generated p85α−/−/Nrl−/− double knock-out mice and also rhodopsin mutant mice lacking p85α and examined the effect of the p85α subunit of PI3K on cone survival. We found that the rate of cone degeneration is significantly faster in both of these models compared with respective mice with competent p85α. These studies suggest that cones may have their own endogenous PI3K-mediated neuroprotective pathway in addition to the cone viability survival signals derived from rods.
Keywords:Cell Death   Insulin   Neurodegeneration   Neuroprotection   Phosphatidylinositol 3-Kinase   Photoreceptors   Insulin Receptor   Photoreceptor Degeneration   Cone Photoreceptors
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