Helicase CHD4 is an epigenetic coregulator of PAX3-FOXO1 in alveolar rhabdomyosarcoma
Maria Böhm, … , Raffaella Santoro, Beat W. Schäfer
Maria Böhm, … , Raffaella Santoro, Beat W. Schäfer
Published October 17, 2016
Citation Information: J Clin Invest. 2016;126(11):4237-4249. https://doi.org/10.1172/JCI85057.
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Research Article Oncology

Helicase CHD4 is an epigenetic coregulator of PAX3-FOXO1 in alveolar rhabdomyosarcoma

Abstract

A vast number of cancer genes are transcription factors that drive tumorigenesis as oncogenic fusion proteins. Although the direct targeting of transcription factors remains challenging, therapies aimed at oncogenic fusion proteins are attractive as potential treatments for cancer. There is particular interest in targeting the oncogenic PAX3-FOXO1 fusion transcription factor, which induces alveolar rhabdomyosarcoma (aRMS), an aggressive cancer of skeletal muscle cells for which patient outcomes remain dismal. In this work, we have defined the interactome of PAX3-FOXO1 and screened 60 candidate interactors using siRNA-mediated depletion to identify candidates that affect fusion protein activity in aRMS cells. We report that chromodomain helicase DNA binding protein 4 (CHD4), an ATP-dependent chromatin remodeler, acts as crucial coregulator of PAX3-FOXO1 activity. CHD4 interacts with PAX3-FOXO1 via short DNA fragments. Together, they bind to regulatory regions of PAX3-FOXO1 target genes. Gene expression analysis suggested that CHD4 coregulatory activity is essential for a subset of PAX3-FOXO1 target genes. Depletion of CHD4 reduced cell viability of fusion-positive but not of fusion-negative RMS in vitro, which resembled loss of PAX3-FOXO1. It also caused specific regression of fusion-positive xenograft tumors in vivo. Therefore, this work identifies CHD4 as an epigenetic coregulator of PAX3-FOXO1 activity, providing rational evidence for CHD4 as a potential therapeutic target in aRMS.

Authors

Maria Böhm, Marco Wachtel, Joana G. Marques, Natalie Streiff, Dominik Laubscher, Paolo Nanni, Kamel Mamchaoui, Raffaella Santoro, Beat W. Schäfer

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Figure 5

CHD4 coregulates PAX3-FOXO1–activated target genes.

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CHD4 coregulates PAX3-FOXO1–activated target genes. (A) Heat map of unsu...
(A) Heat map of unsupervised hierarchical clustering of PAX3-FOXO1 (siP3F) and CHD4 (shCHD4#1) knockdown profiles using the gene set directly regulated by PAX3-FOXO1 (638 genes differently expressed between siP3F-treated and siscr-treated [24 and 48 hours after transfection] or untreated RH4 cells; fold change >1.5; P < 0.05). Each column represents a different time point for shRNA-treated cells in singlicate and for siRNA-treated cells in duplicate (24, 48, 72 hours from left to right for each condition). Numbers of coexpressed genes between these transcriptional profiles are displayed. (B) Schematic representation of genes directly regulated by PAX3-FOXO1 and CHD4 (fold change >1.5; P < 0.05 between siP3F-treated and siscr-treated [24 and 48 hours after transfection] or untreated RH4 cells and between shCHD4-expressing and shscr-expressing RH4 cells [24 and 48 hours after doxycycline induction] or uninduced control cells). The coregulated subset as read out from the heatmap clustering in A is displayed. (C) GSEA using CHD4-regulated genes in RH4 cells as the rank-ordered data set and targets directly upregulated by PAX3-FOXO1 as the gene set (259 genes differently expressed between siP3F-treated and siscr-treated or untreated RH4 cells 24 and 48 hours after transfection; fold change >1.7; P < 0.05). Normalized enrichment score (NES) and P value are shown.