npj Precision Oncology (Feb 2024)

A macrocyclic kinase inhibitor overcomes triple resistant mutations in EGFR-positive lung cancer

  • Mai Suzuki,
  • Ken Uchibori,
  • Tomoko Oh-hara,
  • Yumi Nomura,
  • Ryusei Suzuki,
  • Ai Takemoto,
  • Mitsugu Araki,
  • Shigeyuki Matsumoto,
  • Yukari Sagae,
  • Mutsuko Kukimoto-Niino,
  • Yusuke Kawase,
  • Mikako Shirouzu,
  • Yasushi Okuno,
  • Makoto Nishio,
  • Naoya Fujita,
  • Ryohei Katayama

DOI
https://doi.org/10.1038/s41698-024-00542-9
Journal volume & issue
Vol. 8, no. 1
pp. 1 – 13

Abstract

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Abstract Brigatinib-based therapy was effective against osimertinib-resistant EGFR C797S mutants and is undergoing clinical studies. However, tumor relapse suggests additional resistance mutations might emerge. Here, we first demonstrated the binding mode of brigatinib to the EGFR-T790M/C797S mutant by crystal structure analysis and predicted brigatinib-resistant mutations through a cell-based assay including N-ethyl-N-nitrosourea (ENU) mutagenesis. We found that clinically reported L718 and G796 compound mutations appeared, consistent with their proximity to the binding site of brigatinib, and brigatinib-resistant quadruple mutants such as EGFR-activating mutation/T790M/C797S/L718M were resistant to all the clinically available EGFR-TKIs. BI-4020, a fourth-generation EGFR inhibitor with a macrocyclic structure, overcomes the quadruple and major EGFR-activating mutants but not the minor mutants, such as L747P or S768I. Molecular dynamics simulation revealed the binding mode and affinity between BI-4020 and EGFR mutants. This study identified potential therapeutic strategies using the new-generation macrocyclic EGFR inhibitor to overcome the emerging ultimate resistance mutants.