Inflammasome Activation in Geographic Atrophy
University Of Virginia, Charlottesville VA
Investigators
Linked publications & trials
Abstract
DESCRIPTION (provided by applicant): Geographic atrophy (GA) is an untreatable advanced form of age-related macular degeneration (AMD) that is characterized by degeneration of the retinal pigmented epithelium (RPE). Neither the mechanisms that promote this RPE degeneration nor the basis for the centrifugal expansion of GA that can ultimately lead to blindness have been resolved. This enigmatic nature of GA pathogenesis has precluded the development of any FDA-approved therapy for the one million Americans diagnosed with GA and the millions more at risk of developing GA. In new and exciting studies, we discovered an unconventional immune activation of the NLRP3 inflammasome complex in the RPE of human eyes with GA (Tarallo et al. Cell 2012) that occurs in response to a specific accumulation of toxic non-coding Alu RNAs during deficiency in the RNase DICER1 and induces RPE degeneration (Kaneko et al. Nature 2011). This surprising finding of pathologic inflammasome activation in a non-immune cell is a critical step in understanding GA pathogenesis and elucidating the essential effector pathways that determine retinal vitality. Our findings, which introduce a novel definition of auto-immunity: The RPE activation of the NLRP3 inflammasome in response to self-derived Alu RNAs represents the first description of inflammasome activation to endogenous, all the while causing pathology in a classically immune privileged ocular milieu. Crucially, blockade at multiple molecular steps along NLRP3 inflammasome activation blocked RPE cell death, thus providing an important mechanism-based strategy to alleviating the worldwide burden of GA. However, we still lack an integrated understanding of whether other AMD-related stressors also cause inflammasome activation in GA, and if so, precisely how these mechanisms converge upon common effector pathways that induce RPE degeneration. A rigorous definition of these mechanisms is crucial to enhancing our understanding of the molecular drivers of GA and to developing rational treatments. We will provide novel functional insights into how dysregulated NLRP3 inflammasome activation contributes to GA pathogenesis and develop a novel therapeutic strategy via the following Aims: (1) Generate a spatiotemporal map of known AMD-related stressors and markers of NLRP3 inflammasome activation in relation to the locus of pathology in GA and early AMD eyes; (2) Decipher the molecular mechanisms underlying inflammasome activation by known GA-associated stresses; (3) Determine whether blockade of inflammasome machinery and its effector pathways in acute and chronic animal models of AMD inhibit RPE degeneration. These studies will illuminate novel aspects of the molecular and biochemical bases of GA, and help validate a molecular targeting strategy that could be translated into clinical trials. As such, this proposal is aligned with the -year goals of the NEI's Retinal Diseases Program strategic plan.
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