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Mechanisms of Glioma Resistance to EGFR Inhibition

$51,463F32FY2012NSNIH

Ludwig Institute For Cancer Res Ltd, La Jolla CA

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Abstract

6. PROJECT SUMMARY/ABSTRACT A common genetic alteration in glioblastoma multiforme (GBM) which confers aggressive tumor growth and poor prognosis is deletional mutation of the epidermal growth factor receptor (EGFR) resulting in a constitutively active, oncogenic form of the protein (EGFR*). However, GBM patients treated with drugs which selectively target EGFR/EGFR* rarely, if ever, benefit from therapy. Moreover, patients which initially respond almost always gain resistance and exhibit rapid disease progression. The proposed project aims to define mechanisms involved in resistance to EGFR inhibition with the overall goal of shedding light on those specific pathways and proteins involved which can be exploited therapeutically in combination with EGFR inhibitors. The project will utilize data obtained from an inducible mouse model of EGFR*-dependent GBM tumor formation. Following silencing of EGFR* expression, tumors regressed, and after a period of stasis, EGFR*- independent escapers emerged. These escapers will be characterized compared to EGFR*-dependent tumors in an effort to uncover those pathways and proteins utilized after cells in vivo circumvent the requirement for EGFR* signaling, which is similar to the situation in which GBM tumors do not clinically respond to EGFR inhibition for reasons of either acquired resistance or lack of initial dependence on the receptor. Specifically, Aim1 will examine the mechanisms of EGFR-independent signaling and resistance to tyrosine kinase inhibitors (TKIs) in the context of signaling pathway networks by manipulation of component protein expression and activation/phosphorylation. In Aim 2, a functional characterization of novel mechanisms that lead to escape and resistance will be performed using existing gene expression data as a starting point and defined elements for triaging candidate genes. Aim 3 comprises the development of therapeutic targeting strategies based on the findings in Aims 1 and 2. The goal of these targeting strategies is to overcome and/or prevent resistance to EGFR inhibition, and these studies are based largely upon use of gene expression and other data from trials in which patients were treated with TKIs. Overall, the knowledge gained from this project will shed light on the molecular basis of glioma pathobiology, provide potential ways to circumvent acquired resistance to EGFR inhibitors, and will reveal novel targeting strategies for anti-GBM therapeutics.

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