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Abstract The emergence of acquired resistance against targeted drugs remains a major clinical challenge in lung adenocarcinoma patients. In a subgroup of these patients we identified an association between selection of EGFR T790M -negative but EGFR G724S -positive subclones and osimertinib resistance. We demonstrate that EGFR G724S limits the activity of third-generation EGFR inhibitors both in vitro and in vivo. Structural analyses and computational modeling indicate that EGFR G724S mutations may induce a conformation of the glycine-rich loop, which is incompatible with the binding of third-generation TKIs. Systematic inhibitor screening and in-depth kinetic profiling validate these findings and show that second-generation EGFR inhibitors retain kinase affinity and overcome EGFR G724S -mediated resistance. In the case of afatinib this profile translates into a robust reduction of colony formation and tumor growth of EGFR G724S -driven cells. Our data provide a mechanistic basis for the osimertinib-induced selection of EGFR G724S -mutant clones and a rationale to treat these patients with clinically approved second-generation EGFR inhibitors.
Fassunke et al. (Thu,) studied this question.