Jacob Ellis scite author profile

Transcription factors regulate gene networks controlling normal hematopoiesis and are frequently deregulated in acute myeloid leukemia (AML). Critical to our understanding of the mechanism of cellular transformation by oncogenic transcription factors is the ability to define their direct gene targets. While this seems to be a straight forward task, gene network cascades can change within minutes to hours, making it difficult to distinguish direct from secondary or compensatory transcriptional changes by traditional methodologies. We describe an approach utilizing CRISPR-based genome editing to insert a degron tag into the endogenous AML1-ETO locus of Kasumi-1 cells, as well as overexpression of a degradable AML1-ETO protein in CD34 + human cord blood cells, which is a an AML1-ETO-dependent pre-leukemia model. Upon addition of a small molecule proteolysis targeting chimera (PROTAC), the AML1-ETO protein was rapidly degraded in both systems. Furthermore, by combining rapid degradation with nascent transcript analysis (PRO-seq), RNA-seq and Cut&Run, we have defined the core AML1-ETO regulatory network, which consists of fewer than 100 direct gene targets. The ability of AML1-ETO to regulate this relatively small gene pool is critical for maintaining cells in a selfrenewing state, and AML1-ETO degradation set off a cascade of transcriptional events resulting in myeloid differentiation.

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PAX3-FOXO1 coordinates enhancer architecture, eRNA transcription, and RNA polymerase pause release at select gene targets

Zhang

Wang

Liu

et al. 2022

Molecular Cell

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Histone deacetylase 3 controls a transcriptional network required for B cell maturation

Stengel

Bhaskara

Wang

et al. 2019

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Histone deacetylase 3 (Hdac3) is a target of the FDA approved HDAC inhibitors, which are used for the treatment of lymphoid malignancies. Here, we used Cd19-Cre to conditionally delete Hdac3 to define its role in germinal center B cells, which represent the cell of origin for many B cell malignancies. Cd19-Cre-Hdac3−/− mice showed impaired germinal center formation along with a defect in plasmablast production. Analysis of Hdac3−/− germinal centers revealed a reduction in dark zone centroblasts and accumulation of light zone centrocytes. RNA-seq revealed a significant correlation between genes up-regulated upon Hdac3 loss and those up-regulated in Foxo1-deleted germinal center B cells, even though Foxo1 typically activates transcription. Therefore, to determine whether gene expression changes observed in Hdac3−/− germinal centers were a result of direct effects of Hdac3 deacetylase activity, we used an HDAC3 selective inhibitor and examined nascent transcription in germinal center-derived cell lines. Transcriptional changes upon HDAC3 inhibition were enriched for light zone gene signatures as observed in germinal centers. Further comparison of PRO-seq data with ChIP-seq/exo data for BCL6, SMRT, FOXO1 and H3K27ac identified direct targets of HDAC3 function including CD86, CD83 and CXCR5 that are likely responsible for driving the light zone phenotype observed in vivo.

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1020 – Targeted Protein Degradation Defines Direct Targets and Mechanisms of Control by Runx1/Eto

Stengel

Bomber

Ugorji

et al. 2022

Experimental Hematology

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Jacob Ellis

Definition of a small core transcriptional circuit regulated by AML1-ETO

Definition of a Small Core Transcriptional Circuit Regulated by AML1-ETO

PAX3-FOXO1 coordinates enhancer architecture, eRNA transcription, and RNA polymerase pause release at select gene targets

Histone deacetylase 3 controls a transcriptional network required for B cell maturation

1020 – Targeted Protein Degradation Defines Direct Targets and Mechanisms of Control by Runx1/Eto

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