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A FOXO1-dependent transcription network is a targetable vulnerability of mantle cell lymphomas.

The Journal of clinical investigation (2022-10-26)
Ja-Young Jang, Inah Hwang, Heng Pan, Jun Yao, Lapo Alinari, Eddie Imada, Claudio Zanettini, Michael J Kluk, Yizhe Wang, Yunkyoung Lee, Hua V Lin, Xiangao Huang, Maurizio Di Liberto, Zhengming Chen, Karla V Ballman, Lewis C Cantley, Luigi Marchionni, Giorgio Inghirami, Olivier Elemento, Robert A Baiocchi, Selina Chen-Kiang, Sandro Belvedere, Hongwu Zheng, Jihye Paik
RÉSUMÉ

Targeting lineage-defined transcriptional dependencies has emerged as an effective therapeutic strategy in cancer treatment. Through screening for molecular vulnerabilities of mantle cell lymphoma (MCL), we identified a set of transcription factors (TFs) including FOXO1, EBF1, PAX5, and IRF4 that are essential for MCL propagation. Integrated chromatin immunoprecipitation and sequencing (ChIP-Seq) with transcriptional network reconstruction analysis revealed FOXO1 as a master regulator that acts upstream in the regulatory TF hierarchy. FOXO1 is both necessary and sufficient to drive MCL lineage commitment through supporting the lineage-specific transcription programs. We further show that FOXO1, but not its close paralog FOXO3, can reprogram myeloid leukemia cells and induce B-lineage gene expression. Finally, we demonstrate that cpd10, a small molecule identified from an enriched FOXO1 inhibitor library, induces a robust cytotoxic response in MCL cells in vitro and suppresses MCL progression in vivo. Our findings establish FOXO1 inhibition as a therapeutic strategy targeting lineage-driven transcriptional addiction in MCL.

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Monoclonal Anti-EP300 antibody produced in mouse, clone 1B1, purified immunoglobulin, buffered aqueous solution