The transcriptional co-repressor Runx1t1 is essential for MYCN-driven neuroblastoma tumorigenesis
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Published:2024-07-11
Issue:1
Volume:15
Page:
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ISSN:2041-1723
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Container-title:Nature Communications
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language:en
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Short-container-title:Nat Commun
Author:
Murray Jayne E., Valli EmanueleORCID, Milazzo GiorgioORCID, Mayoh ChelseaORCID, Gifford Andrew J.ORCID, Fletcher Jamie I.ORCID, Xue Chengyuan, Jayatilleke NisithaORCID, Salehzadeh Firoozeh, Gamble Laura D.ORCID, Rouaen Jourdin R. C., Carter Daniel R.ORCID, Forgham HelenORCID, Sekyere Eric O., Keating Joanna, Eden Georgina, Allan Sophie, Alfred Stephanie, Kusuma Frances K.ORCID, Clark Ashleigh, Webber Hannah, Russell Amanda J.ORCID, de Weck AntoineORCID, Kile Benjamin T., Santulli MartinaORCID, De Rosa PiergiuseppeORCID, Fleuren Emmy D. G., Gao Weiman, Wilkinson-White Lorna, Low Jason K. K.ORCID, Mackay Joel P.ORCID, Marshall Glenn M.ORCID, Hilton Douglas J., Giorgi Federico M.ORCID, Koster JanORCID, Perini GiovanniORCID, Haber MichelleORCID, Norris Murray D.ORCID
Abstract
AbstractMYCN oncogene amplification is frequently observed in aggressive childhood neuroblastoma. Using an unbiased large-scale mutagenesis screen in neuroblastoma-prone transgenic mice, we identify a single germline point mutation in the transcriptional corepressor Runx1t1, which abolishes MYCN-driven tumorigenesis. This loss-of-function mutation disrupts a highly conserved zinc finger domain within Runx1t1. Deletion of one Runx1t1 allele in an independent Runx1t1 knockout mouse model is also sufficient to prevent MYCN-driven neuroblastoma development, and reverse ganglia hyperplasia, a known pre-requisite for tumorigenesis. Silencing RUNX1T1 in human neuroblastoma cells decreases colony formation in vitro, and inhibits tumor growth in vivo. Moreover, RUNX1T1 knockdown inhibits the viability of PAX3-FOXO1 fusion-driven rhabdomyosarcoma and MYC-driven small cell lung cancer cells. Despite the role of Runx1t1 in MYCN-driven tumorigenesis neither gene directly regulates the other. We show RUNX1T1 forms part of a transcriptional LSD1-CoREST3-HDAC repressive complex recruited by HAND2 to enhancer regions to regulate chromatin accessibility and cell-fate pathway genes.
Funder
Department of Health | National Health and Medical Research Council Cancer Council NSW Associazione Italiana per la Ricerca sul Cancro Università di Bologna Profield Foundation Australia Tour de Cure Australia Neuroblastoma Australia
Publisher
Springer Science and Business Media LLC
Reference82 articles.
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