SLFN11 restricts escape from telomere crisis to prevent alternative lengthening of telomeres

  1. Sandra Segura-Bayona
  2. Valerie Borel
  3. Tyler H Stanage
  4. Marija Maric
  5. Melanie Walter
  6. Rafaela A Oliveira
  7. Shudong Li
  8. Aurora I Idilli
  9. Martina Peritore
  10. Graeme Hewitt
  11. Maarten Hekkelman
  12. Daniel M Snell
  13. Sam T Jones
  14. Chris Cheshire
  15. Areda Elezi
  16. Probir Chakravarty
  17. Richard Mitter
  18. Anna Mikolajczak
  19. Harriet E Gee
  20. Emma Nye
  21. Roderick J O’Sullivan
  22. Aatur D Singhi
  23. Thijn R Brummelkamp
  24. Anthony J Cesare
  25. Simon J Boulton
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Abstract

The tRNA nuclease SLFN11 is epigenetically silenced in ∼50% of treatment-naive tumours and is the strongest predictor of chemoresistance but why it is frequently inactivated in cancer is unknown. To acquire immortality, cancer cells can activate alternative lengthening of telomeres (ALT), typically accompanied by ATRX loss. Here, we implicate SLFN11 in sensing telomere replication stress, triggering eradication of ATRX deficient cells prior to ALT establishment. Whereas progressive telomere shortening of cells lacking telomerase and ATRX leads to telomere crisis and cell death, SLFN11 loss confers tolerance to PML-BLM dependent ALT intermediates, permitting emergence of ALT survivors. We propose that during tumorigenesis SLFN11 inactivation is selected as means to tolerate endogenous replication stress following telomere crisis, leading to the development of therapy resistant tumours before treatment.

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  1. Version published to 10.1101/2025.09.10.675313 on bioRxiv