De Novo Design of Miniprotein Inhibitors of Bacterial Adhesins

  1. Adam Chazin-Gray
  2. Tuscan Thompson
  3. Edward Lopatto
  4. Pearl Magala
  5. Patrick Erickson
  6. Andrew Hunt
  7. Anna Manchenko
  8. Pavel Aprikian
  9. Veronika Tchesnokova
  10. Irina Basova
  11. Denise Sanick
  12. Kevin Tamadonfar
  13. Morgan Timm
  14. Jerome Pinkner
  15. Karen Dodson
  16. Alex Kang
  17. Emily Joyce
  18. Asim Bera
  19. Aaron Schmitz
  20. Ali Ellebedy
  21. Kelli Hvorecny
  22. Gianluca Interlandi
  23. Mark Cartwright
  24. Andyna Vernet
  25. Sarai Bardales
  26. Desmond White
  27. Rachel Klevit
  28. Evgeni Sokurenko
  29. Scott Hultgren
  30. David Baker
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Abstract

The rise of multidrug-resistant bacterial infections necessitates the discovery of novel antimicrobial strategies. Here, we show that protein design provides a generalizable means of generating new antimicrobials by neutralizing the function of bacterial adhesins, which are virulence factors critical in host-pathogen interactions. We de novo designed high-affinity miniprotein binders to FimH and Abp chaperone usher pili adhesins from uropathogenic Escherichia coli and Acinetobacter baumannii, respectively, which are implicated in mediating both uncomplicated and catheter-associated urinary tract infections (UTI) responsible for significant morbidity worldwide. The designed antagonists have high specificity and stability, disrupt bacterial recognition of host receptors, block biofilm formation, and are effective in treating and preventing murine models of uncomplicated and catheter-associated UTIs in vivo.

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  1. Version published to 10.21203/rs.3.rs-7951484/v1 on Research Square