Litcius/Paper detail

ERG and c-MYC regulate a critical gene network in BCR::ABL1-driven B cell acute lymphoblastic leukemia

Kira Behrens, Natalie Brajanovski, Zhen Xu, Elizabeth M. Viney, Ladina DiRago, Soroor Hediyeh-zadeh, Melissa J. Davis, Richard B. Pearson, Elaine Sanij, Warren S. Alexander, Ashley P. Ng

2024Science Advances14 citationsDOIOpen Access PDF

Abstract

Philadelphia chromosome–positive B cell acute lymphoblastic leukemia (B-ALL), characterized by the BCR::ABL1 fusion gene, remains a poor prognosis cancer needing new therapeutic approaches. Transcriptomic profiling identified up-regulation of oncogenic transcription factors ERG and c-MYC in BCR::ABL1 B-ALL with ERG and c-MYC required for BCR::ABL1 B-ALL in murine and human models. Profiling of ERG- and c-MYC–dependent gene expression and analysis of ChIP-seq data established ERG and c-MYC coordinate a regulatory network in BCR::ABL1 B-ALL that controls expression of genes involved in several biological processes. Prominent was control of ribosome biogenesis, including expression of RNA polymerase I (POL I) subunits, the importance of which was validated by inhibition of BCR::ABL1 cells by POL I inhibitors, including CX-5461, that prevents promoter recruitment and transcription initiation by POL I. Our results reveal an essential ERG- and c-MYC–dependent transcriptional network involved in regulation of metabolic and ribosome biogenesis pathways in BCR::ABL1 B-ALL, from which previously unidentified vulnerabilities and therapeutic targets may emerge.

Topics & Concepts

BiologyRibosome biogenesisCancer researchbreakpoint cluster regionGeneGene expressionABLTranscription (linguistics)RNA polymerase IIGeneticsMolecular biologyCell biologyRNAPromoterRibosomeSignal transductionTyrosine kinasePhilosophyLinguisticsAcute Lymphoblastic Leukemia researchChronic Myeloid Leukemia TreatmentsAcute Myeloid Leukemia Research