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VGLL2-NCOA2 leverages developmental programs for pediatric sarcomagenesis.

Cell reports (2023-01-20)
Sarah Watson, Collette A LaVigne, Lin Xu, Didier Surdez, Joanna Cyrta, Delia Calderon, Matthew V Cannon, Matthew R Kent, Katherine M Silvius, Jack P Kucinski, Emma N Harrison, Whitney Murchison, Dinesh Rakheja, Franck Tirode, Olivier Delattre, James F Amatruda, Genevieve C Kendall
RESUMEN

Clinical sequencing efforts are rapidly identifying sarcoma gene fusions that lack functional validation. An example is the fusion of transcriptional coactivators, VGLL2-NCOA2, found in infantile rhabdomyosarcoma. To delineate VGLL2-NCOA2 tumorigenic mechanisms and identify therapeutic vulnerabilities, we implement a cross-species comparative oncology approach with zebrafish, mouse allograft, and patient samples. We find that VGLL2-NCOA2 is sufficient to generate mesenchymal tumors that display features of immature skeletal muscle and recapitulate the human disease. A subset of VGLL2-NCOA2 zebrafish tumors transcriptionally cluster with embryonic somitogenesis and identify VGLL2-NCOA2 developmental programs, including a RAS family GTPase, ARF6. In VGLL2-NCOA2 zebrafish, mouse, and patient tumors, ARF6 is highly expressed. ARF6 knockout suppresses VGLL2-NCOA2 oncogenic activity in cell culture, and, more broadly, ARF6 is overexpressed in adult and pediatric sarcomas. Our data indicate that VGLL2-NCOA2 is an oncogene that leverages developmental programs for tumorigenesis and that reactivation or persistence of ARF6 could represent a therapeutic opportunity.

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Sigma-Aldrich
Anti-β-actina monoclonal antibody produced in mouse, clone AC-74, ascites fluid
Sigma-Aldrich
Anti-PCNA Antibody, clone PC10, clone PC10, from mouse