Identification of targetable vulnerabilities of PLK1-overexpressing cancers by synthetic dosage lethality

  1. Chelsea E. Cunningham
  2. Frederick S. Vizeacoumar
  3. Yue Zhang
  4. Liliia Kyrylenko
  5. Peng Gao
  6. Vincent Maranda
  7. He Dong
  8. Jared DW Price
  9. Ashtalakshmi Ganapathysamy
  10. Rithik Hari
  11. Connor Denomy
  12. Simon Both
  13. Konrad Wagner
  14. Yingwen Wu
  15. Faizaan Khan
  16. Shayla Mosley
  17. Angie Chen
  18. Tetiana Katrii
  19. Ben G. E. Zoller
  20. Karthic Rajamanickam
  21. Prachi Walke
  22. Lihui Gong
  23. Hardikkumar Patel
  24. Mary Lazell-Wright
  25. Alain Morejon Morales
  26. Kalpana K. Bhanumathy
  27. Hussain Elhasasna
  28. Renuka Dahiya
  29. Omar Abuhussein
  30. Anton Dmitriev
  31. Tanya Freywald
  32. Erika Prando Munhoz
  33. Anand Krishnan
  34. Eytan Ruppin
  35. Joo Sang Lee
  36. Katharina Rox
  37. Behzad Toosi
  38. Martin Koebel
  39. Mary Kinloch
  40. Laura Hopkins
  41. Cheng Han Lee
  42. Raju Datla
  43. Sunil Yadav
  44. Yuliang Wu
  45. Kristi Baker
  46. Martin Empting
  47. Alexandra K. Kiemer
  48. Andrew Freywald
  49. Franco J. Vizeacoumar
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Abstract

Tumor heterogeneity poses a significant challenge in combating treatment resistance. Despite Polo-like kinase 1 (PLK1) being universally overexpressed in cancers and contributing to chromosomal instability (CIN), direct PLK1 inhibition hasn’t yielded clinical progress. To address this, we utilized the synthetic dosage lethality (SDL) approach, targeting PLK1’s genetic interactions for selective killing of overexpressed tumor cells while mitigating heterogeneity-associated challenges. Employing computational methods, we conducted a genome-wide shRNA screen, identifying 105 SDL candidates. Further in vivo CRISPR screening in a breast cancer xenograft model and in vitro CRISPR analysis validated these candidates. Employing Perturb-seq revealed IGF2BP2/IMP2 as a key SDL hit eliminating PLK1-overexpressing cells. Suppression of IGF2BP2, genetically or pharmacologically, downregulated PLK1 and limited tumor growth. Our findings strongly propose targeting PLK1’s genetic interactions as a promising therapeutic approach, holding broad implications across multiple cancers where PLK1 is overexpressed.

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  1. Version published to 10.1101/2024.07.18.603978v1 on bioRxiv