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Synaptic Transmission in the Rod Pathway of the Mammalian Retina

$286,207R01FY2013EYNIH

Univ Of Maryland, College Park, College Park MD

Investigators

Linked publications & trials

Abstract

Project Summary: Within the mammalian retina, the AII amacrine cell is positioned to function during both rod- and cone-mediated vision within most of the parallel pathways that generate retinal output. Therefore, understanding the AII is a critical to comprehending signaling within the inner retina. This proposal comprises two specific aims that will generate insight into the regulation of synaptic input to AIIs and the mechanisms shaping AIIs' outputs both in the normal and in the degenerating retina. Specific Aim 1 tests the hypothesis that RB - AII synapse serves a dual purpose in rod-mediated visual signaling: under conditions in which the RB pathway is the only means of conveying rod output, the synapse serves as an event detector; at light intensities sufficient to permit rod-mediated signals pass into the cone pathway via rod-cone gap junctions, the synapse serves as an indicator of mean luminance. Specific Aim 2 tests the hypothesis that altered K channel function generates aberrant oscillatory activity in AIIs of the rd1 mouse retina, a model for the study of human retinitis pigmentosa (RP). Relevance to Public Health: Retinitis pigmentosa (RP), which affects approximately 1 in 4,000 - 5,000 individuals worldwide (and 100,000 patients in the US alone), refers to a collection of retinal diseases in which photoreceptors die (rods followed by cones). The rd1 mouse is an established model of human RP and exhibits aberrant patterned activity in its retinal output. Our preliminary work, which forms the foundation for the proposed work, demonstrates that this activity arises from cellular changes to AIIs specifically. Therefore, the results arising from the proposed studies will provide new information about how the inner retinal circuitry changes following photoreceptor degeneration and may provide insight into treatments that will prevent activity-dependent changes in the visual systems of patients awaiting treatment for blinding diseases. The aims of this project address three explicit goals of the Retinal Diseases Program in the National Plan for Eye and Vision Research: 1) determining potential threaputic strategies for treatment of retinitis pigmentosa, 2) increasing understanding of post-photoreceptor adaptation (i.e., gain control in neural circuits), and 3) Increasing understanding of how retinal cellular interactions within neural networks generate signals that are interpretable as visual images. 1

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