Mechanisms of Pip4k2c and Pip5k1b dependencies in Ras driven squamous cell carcinoma
Fred Hutchinson Cancer Center, Seattle WA
Investigators
Abstract
PROJECT SUMMARY/ABSTRACT The RAS oncogene is mutated in ~19% of all human cancers. However, targeted therapies specific to tumors with RAS mutations are lacking. To identify novel druggable targets to cancers with mutations in Ras we performed arrayed, kinome focused siRNA phenotypic screening utilizing a set of syngeneic Ras mutant squamous cell carcinoma (SCC) cell lines. Out of 571 kinases tested, Pip4k2c and Pip5k1b were top scoring, ranked 18th and 21st respectively and further, Pip4k2c both showed greater dependency in Ras mutant vs. Ras wild type SCC cells. Pip4k2c and Pik5k1b both generate phosphatidyl inositol 4,5-bisphosphate (PIP2) the substrate for Pik3ca (PI3K) and precursor to phosphatidyl inositol 3,4,5-triphosphate (PIP3), a key mediator of oncogenic Ras signaling. While most drug development attention has focused on PI3K, lack of clinical activity associated with PI3K inhibitors has generated renewed interest in targeting other phosphoinositol kinases. Here we propose to credential Pip4k2c and Pip5k1b as a novel dependencies in both mouse and human Ras mutant SCC cells, will establish the basic outline of its prosurvival function, and will identify key cellular and genetic modifiers of this dependency.
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