Identification of novel small molecule inhibitors of Arf6 for the treatment of va
Navigen, Inc., Salt Lake City UT
Investigators
Linked publications & trials
Abstract
DESCRIPTION (provided by applicant): Age-Related Macular Degeneration is the most common cause of legal blindness in people over 60, affecting an estimated 1.6 million patients. Additionally, over 400,000 diabetic Americans are diagnosed each year with vision-threatening retinal edema and/or neovascularization. The main therapeutic strategies that have been successful to date have focused on reducing the signals from the destabilizing pathways. This is the basis of anti-VEGF therapies which are costly biologics administered by intraocular injection, typically once monthly. Navigen seeks to explore an alternative and innovative approach to treating the pathologic angiogenesis and endothelial hyperpermeability of the retinal and choroidal vascular beds. Our approach restores the balance toward vascular homeostasis by stimulating vascular stabilization signals. Through its work on guidance cues, the laboratory of Navigen's scientific co-founder, Dr. Dean Li, identified a novel endothelial- specific receptor, Robo4, that when activated by its cognate ligand, Slit2, stabilizes the endothelium and inhibits pathologic cytokine- and growth factor-induced angiogenesis and vascular leak by inhibiting the activation of ADP-ribosylation factor-6 (Arf6). These findings suggest that Robo4 activation, and specifically inhibition of Arf6, provides vascular stabilization signals that actively instruct the endothelium to maintain cell- cell junctions and limit vascular leak and invasion. Our preliminary data and the published literature support the relevance of Arf6 in vascular eye disease. This proposal outlines a strategy to identify novel small molecule inhibitors of Arf6 and to test these in in vitro models of vascular eye disease. By adopting an approach based on identifying small molecule inhibitors of Arf6, we anticipate that potential market advantages include: a small molecule for which topical or oral administration are feasible; a broad based approach to blocking VEGF and other cytokine mediated leak and angiogenesis, and a distinct biochemical pathway that may either replace or augment current anti-VEGF centric therapies.
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