Epigenetic Plasticity Drives Carcinogenesis and Multi-Therapy Resistance in Multiple Myeloma

  1. Ariosto Siqueira Silva
  2. Rafael Canevarolo
  3. Praneeth Reddy Sudalagunta
  4. Mark Meads
  5. Maria Silva
  6. Xiaohong zhao
  7. Dario Magaletti
  8. Raghunandan Reddy Alugubelli
  9. Gabriel De Avila
  10. Erez Persi
  11. Francesco Maura
  12. Elissa Bell
  13. Ryan Bishop
  14. Christopher Cubitt
  15. Samer Sansil
  16. Wei Zhang
  17. Jamie Teer
  18. Mingxiang Teng
  19. Sean Yoder
  20. Erin Siegel
  21. Bijal Shah
  22. Taiga Nishihori
  23. Lori Hazlehurst
  24. Conor Lynch
  25. Ola Landgren
  26. Oliver Hampton
  27. Robert Gatenby
  28. Daniel Sullivan
  29. Jason Brayer
  30. William Dalton
  31. John L. Cleveland
  32. Melissa Alsina
  33. Rachid Baz
  34. Kenneth Shain
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Abstract

We demonstrate that carcinogenesis and multi-therapy resistance in multiple myeloma (MM)—a treatable yet incurable plasma cell malignancy—are driven by epigenetic dysregulation. In this new paradigm, genomic and cytogenetic events unlock epigenetic plasticity, reshaping MM cell biology to evade tumor microenvironment constraints and therapeutic pressure. These conclusions are derived from a newly assembled cohort of nearly 1,000 patients, spanning premalignant to late-stage refractory MM, comprehensively characterized at molecular and clinical levels. Our findings provide a unifying framework to explain inter-patient genomic heterogeneity and the emergence of therapy resistance in sequential samples without new genomic alterations. In conclusion, we propose targeting epigenetic plasticity-mediated plasma cell evasion as a promising therapeutic strategy in MM.

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