Design of High Affinity Binders to Convex Protein Target Sites

  1. David Baker
  2. Wei Yang
  3. Derrick R Hicks
  4. Agnidipta Ghosh
  5. Tristin A Schwartze
  6. Brian Coventry
  7. Inna Goreshnik
  8. Aza Allen
  9. Samer Halabiya
  10. ChanJohng Kim
  11. Cynthia S Hinck
  12. David S Lee
  13. Asim Bera
  14. Zhe Li
  15. Yujia Wang
  16. Thomas Schlichthaerle
  17. Longxing Cao
  18. Buwei Huang
  19. Sarah Garrett
  20. Stacey R Gerben
  21. Stephen Rettie
  22. Piper Heine
  23. Natasha Edman
  24. Analisa N Murray
  25. Lauren P Carter
  26. Lance Stewart
  27. Steven Almo
  28. Andrew P Hinck
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Abstract

While there has been progress in the de novo design of small globular miniproteins (50-65 residues) to bind to primarily concave regions of a target protein surface, computational design of minibinders to convex binding sites remains an outstanding challenge due to low level of overall shape complementarity. Here, we describe a general approach to generate computationally designed proteins which bind to convex target sites that employ geometrically matching concave scaffolds. We used this approach to design proteins binding to TGFβRII, CTLA-4 and PD-L1 which following experimental optimization have low nanomolar to picomolar affinities and potent biological activity. Co-crystal structures of the TGFβRII and CTLA-4 binders in complex with the receptors are in close agreement with the design models. Our approach provides a general route to generating very high affinity binders to convex protein target sites.

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  1. Version published to 10.1101/2024.05.01.592114v1 on bioRxiv