A resource to enable chemical biology and drug discovery of WDR Proteins

  1. Suzanne Ackloo
  2. Fengling Li
  3. Magda Szewczyk
  4. Almagul Seitova
  5. Peter Loppnau
  6. Hong Zeng
  7. Jin Xu
  8. Shabbir Ahmad
  9. Yelena A Arnautova
  10. AJ Baghaie
  11. Serap Beldar
  12. Albina Bolotokova
  13. Paolo A Centrella
  14. Irene Chau
  15. Matthew A Clark
  16. John W Cuozzo
  17. Saba Dehghani-Tafti
  18. Jeremy S Disch
  19. Aiping Dong
  20. Antoine Dumas
  21. Jianwen A. Feng
  22. Pegah Ghiabi
  23. Elisa Gibson
  24. Justin Gilmer
  25. Brian Goldman
  26. Stuart R Green
  27. Marie-Aude Guié
  28. John P Guilinger
  29. Nathan Harms
  30. Oleksandra Herasymenko
  31. Scott Houliston
  32. Ashley Hutchinson
  33. Steven Kearnes
  34. Anthony D Keefe
  35. Serah W Kimani
  36. Trevor Kramer
  37. Maria Kutera
  38. Haejin A Kwak
  39. Cristina Lento
  40. Yanjun Li
  41. Jenny Liu
  42. Joachim Loup
  43. Raquel AC Machado
  44. Christopher J Mulhern
  45. Sumera Perveen
  46. Germanna L Righetto
  47. Patrick Riley
  48. Suman Shrestha
  49. Eric A Sigel
  50. Madhushika Silva
  51. Michael D. Sintchak
  52. Belinda L Slakman
  53. Rhys D Taylor
  54. James Thompson
  55. Wen Torng
  56. Carl Underkoffler
  57. Moritz von Rechenberg
  58. Ian Watson
  59. Derek J Wilson
  60. Esther Wolf
  61. Manisha Yadav
  62. Aliakbar K Yazdi
  63. Junyi Zhang
  64. Ying Zhang
  65. Vijayaratnam Santhakumar
  66. Aled M Edwards
  67. Dalia Barsyte-Lovejoy
  68. Matthieu Schapira
  69. Peter J Brown
  70. Levon Halabelian
  71. Cheryl H Arrowsmith
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Abstract

Protein class-focused drug discovery has a long and successful history in pharmaceutical research, yet most members of druggable protein families remain unliganded, often for practical reasons. Here we combined experiment and computation to enable discovery of ligands for WD40 repeat (WDR) proteins, one of the largest human protein families. This resource includes expression clones, purification protocols, and a comprehensive assessment of the druggability for hundreds of WDR proteins. We solved 21 high resolution crystal structures, and have made available a suite of biophysical, biochemical, and cellular assays to facilitate the discovery and characterization of small molecule ligands. To this end, we use the resource in a hit-finding pilot involving DNA-encoded library (DEL) selection followed by machine learning (ML). This led to the discovery of first-in-class, drug-like ligands for 9 of 20 targets. This result demonstrates the broad ligandability of WDRs. This extensive resource of reagents and knowledge will enable further discovery of chemical tools and potential therapeutics for this important class of proteins.

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  1. Version published to 10.1101/2024.03.03.583197v1 on bioRxiv