De novo design of miniprotein agonists and antagonists targeting G protein-coupled receptors

  1. Edin Muratspahić
  2. David Feldman
  3. David E. Kim
  4. Xiangli Qu
  5. Ana-Maria Bratovianu
  6. Paula Rivera-Sánchez
  7. Federica Dimitri
  8. Jason Cao
  9. Brian P. Cary
  10. Matthew J. Belousoff
  11. Peter Keov
  12. Qingchao Chen
  13. Yue Ren
  14. Justyn Fine
  15. Isaac Sappington
  16. Thomas Schlichthaerle
  17. Jason Z. Zhang
  18. Arvind Pillai
  19. Ljubica Mihaljević
  20. Magnus Bauer
  21. Susana Vázquez Torres
  22. Amir Motmaen
  23. Gyu Rie Lee
  24. Long Tran
  25. Xinru Wang
  26. Inna Goreshnik
  27. Dionne K. Vafeados
  28. Justin E. Svendsen
  29. Parisa Hosseinzadeh
  30. Nicolai Lindegaard
  31. Matthäus Brandt
  32. Yann Waltenspühl
  33. Kristine Deibler
  34. Luke Oostdyk
  35. William Cao
  36. Lakshmi Anantharaman
  37. Lance Stewart
  38. Lauren Halloran
  39. Jamie B. Spangler
  40. Patrick M. Sexton
  41. Bryan L. Roth
  42. Brian E. Krumm
  43. Denise Wootten
  44. Christopher G. Tate
  45. Christoffer Norn
  46. David Baker
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Abstract

G protein-coupled receptors (GPCRs) play key roles in physiology and are central targets for drug discovery and development, yet the design of protein agonists and antagonists has been challenging as GPCRs are integral membrane proteins and conformationally dynamic. Here we describe computational de novo design methods and a high throughput “receptor diversion” microscopy based screen for generating GPCR binding miniproteins with high affinity, potency and selectivity, and the use of these methods to generate MRGPRX1 agonists and CXCR4, GLP1R, GIPR, GCGR and CGRPR antagonists. Cryo-electron microscopy data reveals atomic-level agreement between designed and experimentally determined structures for CGRPR-bound antagonists and MRGPRX1-bound agonists, confirming precise conformational control of receptor function. Our de novo design and screening approach opens new frontiers in GPCR drug discovery and development.

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  1. Version published to 10.1101/2025.03.23.644666v1 on bioRxiv