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Defining Kinome Activity for Novel Therapies in Triple Negative Breast Cancer

$195,169P50FY2012CANIH

Univ Of North Carolina Chapel Hill, Chapel Hill NC

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Abstract

Protein kinases are arguably the most tractable candidates for development of new therapies to treat breast cancer. Recent data has shown that kinase cascades and signaling pathways are interrelated; inhibition by one pharmacologic kinase inhibitor has consequences beyond its cognate targets. Our hypothesis predicts that defining tumor kinome activity, and overall kinome-level response to therapy, will identify kinase signatures that can be targeted to accelerate development of new therapies for clinical trials. Project 5 uses an innovative new technology to study the kinome in the Basal-like and Claudin-low subtypes elucidating novel kinase targets and defining differences between these two subtypes. The technology affinity captures endogenous kinases and analyzes their activity with quantitative mass spectrometry, providing us with large scale, kinome activity profiles in tumors and cells. The quantitative proteomic assessment can also be used in dynamic tests determining what fraction of the kinome responds to inhibition of targeted kinases. The Raf- MEK-ERK pathway is often activated in Basal-like and Claudin-low breast cancer. For proof of concept, we defined the kinome response to MEK inhibition in a Claudin-low cell line and mouse tumor model of Basal- like/Claudin-low breast cancer. The tumor response to targeted kinase inhibition involved a highly reproducible induction and activation of multiple RTKs that contributed to drug resistance. Given the repertoire of RTKs whose expression and activity was induced with MEK inhibition, we predicted that a combination therapy that would

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