Targeting EGFR mutant tyrosine kinase inhibitors (TKIs) resistant and drug-tolerant persister cells in non-small cell lung cancer (NSCLC)
University Of Tx Md Anderson Can Ctr, Houston TX
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Abstract
Project Abstract/Summary The identification of targetable driver oncogenes, such as EGFR, has been a revolutionary advance in the treatment of lung cancer and other malignancies. In tumors with such genetic drivers, the vast majority of cells are dependent on specific oncogenes for survival (commonly referred to as oncogene âaddictedâ or oncogene-dependent). Effective inhibitors can dramatically improve clinical outcomes for patients but most of the times these drugs do not completely eradicate tumors leaving residual cells that are not killed by the initial treatment. These cells, termed drug-tolerant persister cells (DTPCs), may remain quiescent or clinically invisible for prolonged periods of time and eventually progress to become resistant cells with enhanced metastatic potential. My laboratory research efforts over the past decade have been focused, in large part, on elucidating mechanisms of resistance to EGFR tyrosine kinase inhibitors (TKIs) and developing strategies to overcome resistance, efforts that have been translated into new drugs and combinations into the clinic (e.g. poziotinib, Axl+EGFR inhibitors, VEGF+EGFR inhibitors, etc). Dr. Monique Nilsson has been leading some of these studies including the identification of stress hormones and IL-6 as drivers of EGFR TKI resistance and the characterization of the YAP/FOXM1 axis as a critical pathway in the development of EGFR TKI resistance. She also identified novel targets for EGFR mutant TKI resistant tumors such as aurora kinases. More recently she was able to demonstrate pre-clinically the mechanisms underlying the VEGF dependency of EGFR mutant lung tumors. Importantly, Dr. Nilssonâs studies led to several new clinical trials that are currently ongoing in our institution. In order to prevent the emergence of drug resistance of EGFR mutant tumors, Dr. Nilssonâs goal in this proposal is to identify novel treatment strategies to eliminate DTPCs in the early stages. There is little known about the signaling pathways and potential therapeutic vulnerabilities of DTPCs and we aimed to perform a deep analysis at the single cell level of a large collection of preclinical models that my laboratory and Dr. Nilsson have developed during the past years. We believe that these studies will also help to advance in the understanding of other molecularly defined oncogene-driven lung subtypes and other solid tumors.
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