The DBD-α4 helix of EWSR1::FLI1 is required for GGAA microsatellite binding that underlies genome regulation in Ewing sarcoma

Author:

Bayanjargal Ariunaa123ORCID,Taslim Cenny1,Showpnil Iftekhar A1ORCID,Selich-Anderson Julia1,Crow Jesse C1,Lessnick Stephen L12345ORCID,Theisen Emily R1234ORCID

Affiliation:

1. Center for Childhood Cancer, Abigail Wexner Research Institute at Nationwide Children’s Hospital

2. Medical Scientist Training Program, The Ohio State University

3. Biomedical Sciences Graduate Program, The Ohio State University

4. Department of Pediatrics, The Ohio State Univeristy

5. Division of Pediatric Heme/Onc/BMT, The Ohio State University College of Medicine

Abstract

Ewing sarcoma is the second most common bone cancer in children and young adults. In 85% of patients, a translocation between chromosomes 11 and 22 results in a potent fusion oncoprotein, EWSR1::FLI1. EWSR1::FLI1 is the only genetic alteration in an otherwise unaltered genome of Ewing sarcoma tumors. The EWSR1 portion of the protein is an intrinsically disordered domain involved in transcriptional regulation by EWSR1::FLI1. The FLI portion of the fusion contains a DNA binding domain shown to bind core GGAA motifs and GGAA repeats. A small alpha-helix in the DNA binding domain of FLI1, DBD-α4 helix, is critical for the transcription function of EWSR1::FLI1. In this study, we aimed to understand the mechanism by which the DBD-α4 helix promotes transcription, and therefore oncogenic transformation. We utilized a multi-omics approach to assess chromatin organization, active chromatin marks, genome binding, and gene expression in cells expressing EWSR1::FLI1 constructs with and without the DBD-α4 helix. Our studies revealed DBD-α4 helix is crucial for cooperative binding of EWSR1::FLI1 at GGAA microsatellites. This binding underlies many aspects of genome regulation by EWSR1::FLI1 such as formation of TADs, chromatin loops, enhancers and productive transcription hubs.

Publisher

eLife Sciences Publications, Ltd

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