Abstract PR14: MEK inhibitors block growth of Ataxia Telangiectasia Mutated (ATM) mutant lung tumors

Introduction: Lung cancer is the leading cause of cancer death worldwide. In the past decade, deep sequencing projects have shed light on the molecular drivers commonly found altered in NSCLC. As a result, the first molecularly targeted agents have been approved for the treatment of tumors presenting activating oncogenic events in EGFR or EML4/ALK. However, the translation into therapies for tumors presenting loss-of-function mutations has proven challenging and constitutes an unexplored and promising field.In order to narrow the gap between cancer genomics and effective treatments for tumors harboring mutations in well-defined tumor suppressor genes (such as PTEN, BRG1 or ATM), we have developed a genetically tractable lung cancer cell model. Focusing on lung adenocarcinoma, we have engineered a panel of isogenic cell lines capturing the molecular heterogeneity found in patients. This panel has been screened against a collection of drugs, comprising classical chemotherapeutics and kinase inhibitors, providing a comprehensive evaluation for hundreds of gene-drug interactions.Results: The screen confirmed known or highly expected interactions, proving the robustness of our approach. Among the unexpected and most relevant hits, we have found that ATM-deficient cells are exquisitely sensitive to drugs inhibiting the central growth factor kinases MEK1/2, including the FDA-approved drug trametinib. Extensive validation in ATM mutant patient-derived lung cancer cell lines has confi...
Source: Molecular Cancer Therapeutics - Category: Cancer & Oncology Authors: Tags: Finding Synthetic Lethal Interactions through Functional Genomics: Oral Presentations - Proffered Abstracts Source Type: research