Functional profiling reveals a non-enzymatic role of NUDT5 in repressing purine de novo synthesis

  1. Jung-Ming G. Lin
  2. Tuan-Anh Nguyen
  3. Anne-Sophie M. C. Marques
  4. Lorenzo Scrofani
  5. Diana Daum
  6. Ludwig G. Bauer
  7. Carol Cheng
  8. Luna D’Angelo
  9. Juan Sanchez
  10. Christoph Bueschl
  11. Pisanu Buphamalai
  12. Marton Siklos
  13. Jakob-Wendelin Genger
  14. Gerald Hofstaetter
  15. Kathrin Runggatscher
  16. Bettina Guertl
  17. Yusi Liu
  18. Jesper Hansen
  19. Anna Koren
  20. D. Sean Froese
  21. David S. Rosenblatt
  22. Kristaps Klavins
  23. Andreas Bergthaler
  24. Joerg Menche
  25. J. Thomas Hannich
  26. Sara Sdelci
  27. Kilian V. M. Huber
  28. Stefan Kubicek
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Abstract

Folate metabolism is intricately linked to purine de novo synthesis through the incorporation of folate-derived one-carbon units into the purine scaffold. Here, we investigate the chemical and genetic dependencies caused by mutations in the folate enzyme MTHFD1 and discover a key role for Nudix hydrolase 5 (NUDT5) in regulating purine de novo synthesis. Through genetic knockout and development of a selective chemical NUDT5 degrader, we uncover an unprecedented scaffolding role rather than NUDT5 enzymatic activity is responsible for this phenotype. We find that NUDT5 interacts with the rate-limiting enzyme of purine de novo synthesis, PPAT, to repress the pathway in response to elevated purine levels. Our findings establish NUDT5 as an important regulator of purine de novo synthesis and elucidate its role in mediating sensitivities to 6-thioguanine in cancer treatment and to adenosine in MTHFD1 deficiency.

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  1. Version published to 10.1101/2025.03.16.643506v1 on bioRxiv