Mutant IDH silences GSX2 to reprogram neural progenitor cell fate and promote gliomagenesis

  1. Yi Xiao
  2. Diana D. Shi
  3. Lei Guo
  4. Ethan Neumann
  5. Michael M. Levitt
  6. Pranita Kaphle
  7. Tracey Shipman
  8. Haocheng Li
  9. Feng Cai
  10. Denise M. O. Ramirez
  11. Lauren G. Zacharias
  12. Zhenkang Chen
  13. Mathew Lin
  14. Vinesh T. Puliyappadamba
  15. Tao Chen
  16. Milan R. Savani
  17. Salvador Peña
  18. Janaka Wansapura
  19. Thomas P. Mathews
  20. Prashant Mishra
  21. Yoon Jung Kim
  22. Prithvi Raj
  23. Timothy E. Richardson
  24. Jian Xu
  25. Stephen C. Mack
  26. Gilbert J. Rahme
  27. Bradley E. Bernstein
  28. Ralph J. DeBerardinis
  29. Itay Tirosh
  30. Mario L. Suvà
  31. Lin Xu
  32. Kalil G. Abdullah
  33. Samuel K. McBrayer
Read the full article See related articles

Listed in

This article is not in any list yet, why not save it to one of your lists.
Log in to save this article

Abstract

Isocitrate dehydrogenase ( IDH ) mutations arise early in gliomas and are associated with a defined neurodevelopmental cancer cell hierarchy. However, how mutant IDH contributes to this hierarchy and whether this interaction promotes gliomagenesis remain unclear. We captured the dynamics of IDH-mutant glioma initiation in genetically engineered mice through time-resolved, single-cell genomics. Mutant IDH activates and induces lineage switching of neural progenitor cells (NPCs). These actions expand oligodendrocyte precursor cells, the predominant cell-of-origin for these tumors, at the expense of interneurons. Lineage switching is mediated by promoter hypermethylation and silencing of Gsx2 , a homeobox gene required for neurogenesis. Critically, Gsx2 ablation recapitulates NPC fate reprogramming by mutant IDH. We provide a new model of neural cell fate control by IDH oncogenes and insights into the developmental origins of glioma.

Article activity feed

  1. Version published to 10.1101/2025.08.12.667486 on bioRxiv