Suppression of NRF2-dependent cancer growth by a covalent allosteric molecular glue

  1. Nilotpal Roy
  2. Tine Wyseure
  3. I-Chung Lo
  4. Justine Metzger
  5. Christie L. Eissler
  6. Steffen M. Bernard
  7. Ilah Bok
  8. Aaron N. Snead
  9. Albert Parker
  10. Jason C. Green
  11. Jordon Inloes
  12. Sarah R. Jacinto
  13. Brent Kuenzi
  14. Benjamin D. Horning
  15. Noah Ibrahim
  16. Stephanie Grabow
  17. Harit Panda
  18. Dhaval P. Bhatt
  19. Soma Saeidi
  20. Paul Zolkind
  21. Zoe Rush
  22. Kathleen Negri
  23. Heather N. Williams
  24. Eric Walton
  25. Martha K. Pastuszka
  26. John J. Sigler
  27. Eileen Tran
  28. Kenneth Hee
  29. Joseph McLaughlin
  30. Géza Ambrus-Aikelin
  31. Jonathan Pollock
  32. Robert T. Abraham
  33. Todd M. Kinsella
  34. Gabriel M. Simon
  35. Michael B. Major
  36. David S. Weinstein
  37. Matthew P. Patricelli
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Abstract

The NRF2 transcription factor is constitutively active in cancer where it functions to maintain oxidative homeostasis and reprogram cellular metabolism. NRF2-active tumors exhibit NRF2-dependency and resistance to chemo/radiotherapy. Here we characterize VVD-065, a first-in-class NRF2 inhibitor that acts via an unprecedented allosteric molecular glue mechanism. In the absence of stress or mutation, NRF2 is rapidly degraded by the KEAP1-CUL3 ubiquitin-ligase complex. VVD-065 specifically and covalently engages C151 on KEAP1, which in turn promotes KEAP1-CUL3 complex formation, leading to enhancement of NRF2 degradation. Previously reported C151-directed compounds decrease KEAP1-CUL3 interactions and stabilize NRF2, thus establishing KEAP1_C151 as a tunable regulator of the KEAP1-CUL3 complex and NRF2 stability. VVD-065 inhibited NRF2-dependent tumor growth and sensitized cancers to chemo/radiotherapy, supporting an open Phase I clinical trial ( NCT05954312 ).

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  1. Version published to 10.1101/2024.10.04.616592 on bioRxiv