Clonal dynamics of BRAF-driven drug resistance in EGFR-mutant lung cancer

Diana Schaufler, David F. Ast, Hannah L. Tumbrink, Nima Abedpour, Lukas Maas, Ayla E. Schwäbe, Inga Spille, Stefanie Lennartz, Jana Fassunke, Mihaela Aldea, Benjamin Besse, David Planchard, Lucia Nogova, Sebastian Michels, Carsten Kobe, Thorsten Persigehl, Theresa Westphal, Sophia Koleczko, Rieke Fischer, Jan Phillip WeberJanine Altmüller, Roman K. Thomas, Sabine Merkelbach-Bruse, Oliver Gautschi, Laura Mezquita, Reinhard Büttner, Jürgen Wolf, Martin Peifer, Johannes Brägelmann, Matthias Scheffler, Martin L. Sos

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    Résumé

    Activation of MAPK signaling via BRAF mutations may limit the activity of EGFR inhibitors in EGFR-mutant lung cancer patients. However, the impact of BRAF mutations on the selection and fitness of emerging resistant clones during anti-EGFR therapy remains elusive. We tracked the evolution of subclonal mutations by whole-exome sequencing and performed clonal analyses of individual metastases during therapy. Complementary functional analyses of polyclonal EGFR-mutant cell pools showed a dose-dependent enrichment of BRAFV600E and a loss of EGFR inhibitor susceptibility. The clones remain stable and become vulnerable to combined EGFR, RAF, and MEK inhibition. Moreover, only osimertinib/trametinib combination treatment, but not monotherapy with either of these drugs, leads to robust tumor shrinkage in EGFR-driven xenograft models harboring BRAFV600E mutations. These data provide insights into the dynamics of clonal evolution of EGFR-mutant tumors and the therapeutic implications of BRAF co-mutations that may facilitate the development of treatment strategies to improve the prognosis of these patients.

    langue originaleAnglais
    Numéro d'article102
    journalnpj Precision Oncology
    Volume5
    Numéro de publication1
    Les DOIs
    étatPublié - 1 déc. 2021

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