Abstract
In up to 30% of non-small cell lung cancer (NSCLC) patients, the oncogenic driver of tumor growth is a constitutively activated epidermal growth factor receptor (EGFR). Although these patients gain great benefit from treatment with EGFR tyrosine kinase inhibitors, the development of resistance is inevitable. To model the emergence of drug resistance, an EGFR-driven, patient-derived xenograft (PDX) NSCLC model was treated continuously with Gefitinib in vivo. Over a period of more than three months, three separate clones developed and were subsequently analyzed: Whole exome sequencing and reverse phase protein arrays (RPPAs) were performed to identify the mechanism of resistance. In total, 13 genes were identified, which were mutated in all three resistant lines. Amongst them the mutations in NOMO2, ARHGEF5 and SMTNL2 were predicted as deleterious. The 53 mutated genes specific for at least two of the resistant lines were mainly involved in cell cycle activities or the Fanconi anemia pathway. On a protein level, total EGFR, total Axl, phospho-NFκB, and phospho-Stat1 were upregulated. Stat1, Stat3, MEK1/2, and NFκB displayed enhanced activation in the resistant clones determined by the phosphorylated vs. total protein ratio. In summary, we developed an NSCLC PDX line modelling possible escape mechanism under EGFR treatment. We identified three genes that have not been described before to be involved in an acquired EGFR resistance. Further functional studies are needed to decipher the underlying pathway regulation.
Highlights
Lung cancer is still the leading cause of cancer related deaths worldwide, accounting for1.76 million deaths in 2018
In a high proportion (~30%) of non-small cell lung cancer (NSCLC) patients, the oncogenic driver of tumor growth is the constitutively activated epidermal growth factor receptor (EGFR, HER-1/ErbB1), a receptor tyrosine kinase of the ErbB family, which has been identified as an anticancer target [1]
Acquired resistance prevents patients from long term benefits of targeted therapies in many different cancer types. This holds true for anti-EGFR treatment in NSCLC patients, where multiple generations of tyrosine kinase inhibitor (TKI) all started displaying a loss of activity after a certain period of time [24]
Summary
Lung cancer is still the leading cause of cancer related deaths worldwide, accounting for. Non-EGFR related mutations, for example, TP53, were described to be enriched in patients developing an acquired resistance towards EGFR TKIs [11]. There have been multiple efforts in the industry as well as academia to establish large panels of well-characterized patient-derived xenograft (PDX) models covering a wide range of different tumor types. These collections are becoming the preferred research tool to optimize the drug development process at multiple steps, in particular for target validation, pharmacology, and translational studies [12,13,14,15]. The sublines will serve as research tools to develop generation compounds, improving the life expectancy of NSCLC patients with acquired resistance
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