Discovery of a Potent and Selective Inhibitor of Human NLRP3 with a Novel Binding Modality and Mechanism of Action

  1. Kevin Wilhelmsen
  2. Aditi Deshpande
  3. Sarah Tronnes
  4. Maitriyee Mahanta
  5. Matthew Banicki
  6. Mary Cochran
  7. Samantha Cowdin
  8. Kristen Fortney
  9. George Hartman
  10. Robert Hughes
  11. Rusty Montgomery
  12. Claudia Portillo
  13. Paul Rubin
  14. Yan Wang
  15. Shijun Yan
  16. Barry A Morgan
  17. Assem Duisembekova
  18. Romane Riou
  19. Michael Marleaux
  20. Inga V. Hochheiser
  21. Hannes Buthmann
  22. Dominic Ferber
  23. Wei Wang
  24. Melanie Cranston
  25. Chloe M. McKee
  26. Thea Mawhinney
  27. Emma McKay
  28. Bénédicte F. Py
  29. Matthias Geyer
  30. Rebecca C. Coll
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Abstract

The NLRP3 inflammasome is an intracellular protein complex that causes inflammation via the release of IL-1β and pyroptosis. NLRP3 activation is associated with many age-related inflammatory diseases, and NLRP3 inhibition is a promising therapeutic strategy. We previously performed a DNA encoded library screen to identify novel NLRP3 binding molecules. Herein we describe the characterization of BAL-0028 as a potent and specific inhibitor of NLRP3 signaling. Notably, BAL-0028 is a poor inhibitor of mouse NLRP3 but inhibits human and primate NLRP3 with nanomolar potency. Using cellular and biochemical analyses we demonstrate that BAL-0028 binds to the NLRP3 NACHT domain at a site that is distinct from the MCC950 binding pocket. Using humanized NLRP3 mice we show that a derivative of BAL-0028 inhibits NLRP3 activationin vivoin a peritonitis model. Finally, we demonstrate that BAL-0028 inhibits select hyperactive NLRP3 mutations associated with autoinflammatory diseases more potently than does MCC950. BAL-0028 thus represents a new modality for NLRP3 inhibition in inflammatory diseases.

SUMMARY

NLRP3 is a target for anti-inflammatory therapies and can be inhibited by the tool compound MCC950. We describe the characterization of a new small molecule inhibitor of NLRP3 BAL-0028 that has a distinct mechanism of action and binding site.

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