EWS-WT1 fusion isoforms establish oncogenic programs and therapeutic vulnerabilities in desmoplastic small round cell tumors

Gaylor Boulay; Liliane C. Broye; Rui Dong; Sowmya Iyer; Rajendran Sanalkumar; Yu-Hang Xing; Rémi Buisson; Shruthi Rengarajan; Beverly Naigles; Benoît Duc; Angela Volorio; Mary E. Awad; Raffaele Renella; Ivan Chebib; G. Petur Nielsen; Edwin Choy; Gregory M. Cote; Lee Zou; Igor Letovanec; Ivan Stamenkovic; Miguel N. Rivera; Nicolò Riggi

doi:10.1038/s41467-024-51851-3

Nature Communications (Aug 2024)

EWS-WT1 fusion isoforms establish oncogenic programs and therapeutic vulnerabilities in desmoplastic small round cell tumors

Gaylor Boulay,
Liliane C. Broye,
Rui Dong,
Sowmya Iyer,
Rajendran Sanalkumar,
Yu-Hang Xing,
Rémi Buisson,
Shruthi Rengarajan,
Beverly Naigles,
Benoît Duc,
Angela Volorio,
Mary E. Awad,
Raffaele Renella,
Ivan Chebib,
G. Petur Nielsen,
Edwin Choy,
Gregory M. Cote,
Lee Zou,
Igor Letovanec,
Ivan Stamenkovic,
Miguel N. Rivera,
Nicolò Riggi

Affiliations

Gaylor Boulay: Department of Pathology & Cancer Center, Massachusetts General Hospital and Harvard Medical School
Liliane C. Broye: Experimental Pathology Service, Lausanne University Hospital & University of Lausanne
Rui Dong: Department of Pathology & Cancer Center, Massachusetts General Hospital and Harvard Medical School
Sowmya Iyer: Department of Pathology & Cancer Center, Massachusetts General Hospital and Harvard Medical School
Rajendran Sanalkumar: Experimental Pathology Service, Lausanne University Hospital & University of Lausanne
Yu-Hang Xing: Department of Pathology & Cancer Center, Massachusetts General Hospital and Harvard Medical School
Rémi Buisson: Department of Pathology & Cancer Center, Massachusetts General Hospital and Harvard Medical School
Shruthi Rengarajan: Department of Pathology & Cancer Center, Massachusetts General Hospital and Harvard Medical School
Beverly Naigles: Department of Pathology & Cancer Center, Massachusetts General Hospital and Harvard Medical School
Benoît Duc: Experimental Pathology Service, Lausanne University Hospital & University of Lausanne
Angela Volorio: Department of Pathology & Cancer Center, Massachusetts General Hospital and Harvard Medical School
Mary E. Awad: Department of Pathology & Cancer Center, Massachusetts General Hospital and Harvard Medical School
Raffaele Renella: Department Woman-Mother-Child, Division of Pediatrics, Lausanne University Hospital and University of Lausanne
Ivan Chebib: Department of Pathology, Massachusetts General Hospital and Harvard Medical School
G. Petur Nielsen: Department of Pathology, Massachusetts General Hospital and Harvard Medical School
Edwin Choy: Department of Medicine, Division of Hematology and Oncology, Massachusetts General Hospital
Gregory M. Cote: Department of Medicine, Division of Hematology and Oncology, Massachusetts General Hospital
Lee Zou: Department of Pathology & Cancer Center, Massachusetts General Hospital and Harvard Medical School
Igor Letovanec: Department of Histopathology, Central Institute, Valais Hospital
Ivan Stamenkovic: Experimental Pathology Service, Lausanne University Hospital & University of Lausanne
Miguel N. Rivera: Department of Pathology & Cancer Center, Massachusetts General Hospital and Harvard Medical School
Nicolò Riggi: Experimental Pathology Service, Lausanne University Hospital & University of Lausanne

DOI: https://doi.org/10.1038/s41467-024-51851-3
Journal volume & issue: Vol. 15, no. 1
pp. 1 – 17

Abstract

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Abstract EWS fusion oncoproteins underlie several human malignancies including Desmoplastic Small Round Cell Tumor (DSRCT), an aggressive cancer driven by EWS-WT1 fusion proteins. Here we combine chromatin occupancy and 3D profiles to identify EWS-WT1-dependent gene regulation networks and target genes. We show that EWS-WT1 is a powerful chromatin activator controlling an oncogenic gene expression program that characterizes primary tumors. Similar to wild type WT1, EWS-WT1 has two isoforms that differ in their DNA binding domain and we find that they have distinct DNA binding profiles and are both required to generate viable tumors that resemble primary DSRCT. Finally, we identify candidate EWS-WT1 target genes with potential therapeutic implications, including CCND1, whose inhibition by the clinically-approved drug Palbociclib leads to marked tumor burden decrease in DSRCT PDXs in vivo. Taken together, our studies identify gene regulation programs and therapeutic vulnerabilities in DSRCT and provide a mechanistic understanding of the complex oncogenic activity of EWS-WT1.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

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