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

Journal: Research Square

Published: May 05, 2025

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.

Authors

Ariosto Silva, Rafael Canevarolo, Praneeth Sudalagunta, Mark Meads, Maria Silva, Xiaohong Zhao, Dario Magaletti, Raghunandan Alugubelli, Gabriel De Avila, Erez Persi, Francesco Maura, Elissa Bell, Ryan Bishop, Christopher Cubitt, Samer Sansil, Wei Zhang, Jamie Teer, Mingxiang Teng, Sean Yoder, Erin Siegel, Bijal Shah, Taiga Nishihori, Lori Hazlehurst, Conor Lynch, Ola Landgren, Oliver Hampton, Robert Gatenby, Daniel Sullivan, Jason Brayer, William Dalton, John Cleveland, Melissa Alsina, Rachid Baz, Kenneth Shain

Relevant Conditions

Multiple Myeloma

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

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