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R-Ras signaling in vascular biology

$360,499R01FY2013HLNIH

Temple Univ Of The Commonwealth, Philadelphia PA

Investigators

Linked publications & trials

Abstract

DESCRIPTION (provided by applicant): Support is requested to analyze the interaction between the Ras family small GTPase R- Ras and a novel effector molecule, RLIP76; the effect of this interaction on R-Ras signaling; the mechanisms by which R-Ras/RLIP76 interactions and signaling regulate vascular cell spreading, migration, proliferation and differentiation; and the roles of this signaling node in angiogenesis and injury-induced neointimal hyperplasia leading to arterial restenosis. Ras GTPases regulate cell proliferation, differentiation, apoptosis, adhesion and migration. The binding of specific effectors to activated Ras proteins propagates signaling cascades resulting in unique outcomes depending on the Ras family isotype. R-Ras in particular functions to regulate adhesiveness, motility, proliferation and differentiation of cells of the vessel wall, and to modulate these processes during angiogenesis and vascular regeneration in response to injury. Thus R-Ras signaling has unique, pleiotropic effects in vascular cells and in vascular functions, but the specific pathways involved are unknown. We identified RLIP76 in a proteomic screen for R-Ras effectors and found that RLIP76 regulates some of the unique cellular functions of R-Ras including cell signaling, spreading, migration, and angiogenesis in vitro. This is the first identification of a specific, unique effector for R-Ras with these distinct cellular functions. We hypothesize that R-Ras/RLIP76 binding controls distinct signaling pathways to mediate vascular cell functions and the unique effects of R-Ras in the vasculature. To test this hypothesis we will map the binding sites in R-Ras and RLIP76 and will identify mutations which will selectively disrupt this interaction. We will use these mutants to determine the effect of blockade of R- Ras/RLIP76 interaction on R-Ras signaling in cells of the vessel wall. We will then evaluate a putative scaffolding function for RLIP76 and will map the protein components of the RLIP76/R- Ras signaling complex in vascular cells. Next we will investigate the contributions of R- Ras/RLIP76 binding and the characterized signaling pathways to R-Ras-mediated vascular cell spreading, migration, proliferation and differentiation. Lastly, we will investigate a role for this signaling axis in R-Ras functions in vivo, namely blockade of angiogenesis, and injury-induced neointimal hyperplasia and arterial restenosis. These studies will characterize the regulation and mechanisms of novel signaling pathways that control cell signaling, migration, proliferation and vascular function. Therefore these studies will provide new insights into processes essential in physiological and pathophysiological function and may indicate new therapeutic targets in the treatment of cardiovascular disease.

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