Genome-wide CRISPR screens identify PTGES3 as a novel AR modulator

  1. Haolong Li
  2. James E. Melnyk
  3. Becky Xu Hua Fu
  4. Raunak Shrestha
  5. Meng Zhang
  6. Martin Sjöström
  7. Siyu Feng
  8. Jasmine A. Anderson
  9. Wanting Han
  10. Lisa N. Chesner
  11. Hyun Jin Shin
  12. Tatyanah Farsh
  13. Humberto J. Suarez
  14. Seema Nath
  15. Jonathan Chou
  16. Rajdeep Das
  17. Emily A. Egusa
  18. Jun Zhu
  19. Aidan Winters
  20. Ashutosh Maheshwari
  21. Junjie T. Hua
  22. Mohammed Alshalalfa
  23. William S. Chen
  24. Marsha Calvert
  25. Elai Davicioni
  26. Audrey Kishishita
  27. Abhilash Barpanda
  28. Tianyi Liu
  29. Arun P. Wiita
  30. Bradley A. Stohr
  31. Javed Siddiqui
  32. Bo Huang
  33. Eric J. Small
  34. Kevan M. Shokat
  35. Peter Nelson
  36. David A. Quigley
  37. Elizabeth V. Wasmuth
  38. Luke A. Gilbert
  39. Felix Y. Feng
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Abstract

The androgen receptor (AR) is a critical driver of prostate cancer (PCa). To study regulators of AR protein levels and oncogenic activity, we created the first live cell quantitative endogenous AR fluorescent reporters. Leveraging this novel AR reporter, we performed genome-scale CRISPRi flow cytometry sorting screens to systematically identify genes that modulate AR protein levels. We identified and validated known AR protein regulators including HOXB13 and GATA2 and also unexpected top hits including PTGES3, a poorly characterized gene in PCa. PTGES3 repression resulted in loss of AR protein, cell cycle arrest, and cell death in AR-driven PCa models. PTGES3 is not a commonly essential gene, and our data nominate it as a prime PCa therapeutic target. Clinically, analysis of PCa data demonstrate that PTGES3 expression is associated with AR-directed therapy resistance. Mechanistically, we show PTGES3 binds directly to AR, forms a protein complex with AR in the nucleus, regulates AR protein stabilityin vitroandin vivoand modulates AR function in the nucleus at AR target genes. PTGES3 represents a novel therapeutic target for overcoming known mechanisms of resistance to existing AR-directed therapies in PCa.

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