Heterogeneous mechanisms of primary and acquired resistance to third-generation EGFR inhibitors
Autor/innen
- S. Ortiz-Cuaran
- M. Scheffler
- D. Plenker
- L. Dahmen
- A.H. Scheel
- L. Fernandez-Cuesta
- L. Meder
- C.M. Lovly
- T. Persigehl
- S. Merkelbach-Bruse
- M. Bos
- S. Michels
- R. Fischer
- K. Albus
- K. König
- H.U. Schildhaus
- Jana Fassunke
- M.A. Ihle
- H. Pasternack
- C. Heydt
- C. Becker
- J. Altmüller
- H. Ji
- C. Müller
- A. Florin
- J.M. Heuckmann
- P. Nuernberg
- S. Ansén
- L.C. Heukamp
- J. Berg
- W. Pao
- M. Peifer
- R. Buettner
- J. Wolf
- R.K. Thomas
- M.L. Sos
Journal
- Clinical Cancer Research
Quellenangabe
- Clin Cancer Res 22 (19): 4837-4847
Zusammenfassung
PURPOSE: To identify novel mechanisms of resistance to third-generation EGFR inhibitors in patients with lung adenocarcinoma that progressed under therapy with either AZD9291 or rociletinib (CO-1686). EXPERIMENTAL DESIGN: We analyzed tumor biopsies from seven patients obtained before, during, and/or after treatment with AZD9291 or rociletinib (CO-1686). Targeted sequencing and FISH analyses were performed, and the relevance of candidate genes was functionally assessed in in vitro models. RESULTS: We found recurrent amplification of either MET or ERBB2 in tumors that were resistant or developed resistance to third-generation EGFR inhibitors and show that ERBB2 and MET activation can confer resistance to these compounds. Furthermore, we identified a KRAS(G12S) mutation in a patient with acquired resistance to AZD9291 as a potential driver of acquired resistance. Finally, we show that dual inhibition of EGFR/MEK might be a viable strategy to overcome resistance in EGFR-mutant cells expressing mutant KRAS CONCLUSIONS: Our data suggest that heterogeneous mechanisms of resistance can drive primary and acquired resistance to third-generation EGFR inhibitors and provide a rationale for potential combination strategies.