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ETV4-Dependent Transcriptional Plasticity Maintains MYC Expression and Results in IMiD Resistance in Multiple Myeloma.

Paola NeriBenjamin G BarwickDavid JungJonathan C PattonRanjan MaityInes TagougCaleb K SteinRémi TilmontNoemie LeblaySungwoo AhnHolly LeeSeth J WelshDaniel L RiggsNicholas StongErin FlyntAnjan ThakurtaJonathan J KeatsSagar LonialPeter Leif BergsagelLawrence H BoiseNizar J Bahlis
Published in: Blood cancer discovery (2023)
Immunomodulatory Drugs (IMiDs) are a backbone therapy for multiple myeloma (MM). Despite their efficacy, most patients develop resistance, and the mechanism(s) are not fully defined. Here, we show that IMiD responses are directed by IMiD-dependent degradation of IKZF1 and IKZF3 that bind to enhancers necessary to sustain the expression of MYC and other myeloma oncogenes. IMiD treatment universally depleted chromatin-bound IKZF1, but eviction of P300 and BRD4 co-activators only occurred in IMiD-sensitive cells. IKZF1-bound enhancers overlapped other transcription factor-binding motifs, including ETV4. ChIP-seq showed that ETV4 bound to the same enhancers as IKZF1, and ETV4 CRISPR/Cas9-mediated ablation resulted in sensitization of IMiD-resistant MM. ETV4 expression is associated with IMiD resistance in cell lines, poor prognosis in patients, and upregulated at relapse. These data indicate that ETV4 alleviates IKZF1 and IKZF3 dependency in MM by maintaining oncogenic enhancer activity and identify transcriptional plasticity as a previously unrecognized mechanism of IMiD resistance.
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