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Abstract 3542: A stem cell model dissects detrimental effects of neuroblastoma-linked chromosomal aberrations on cell differentiation during neural crest development

Early childhood malignancies are driven by sparse genetic aberrations in oncogenes that often co-occur with large copy number variants (CNVs). The combination of these mutations is thought to transform developmentally pliant embryonic cells to initiate tumorigenesis. However, the mechanistic interac...

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Published in:Cancer research (Chicago, Ill.) Ill.), 2023-04, Vol.83 (7_Supplement), p.3542-3542
Main Authors: Saldana-Guerrero, Ingrid M., Montano-Gutierrez, Luis F., Hafemeister, Christoph, Stavish, Dylan, Shaw, Lisa E., Fetahu, Irfete S., Wenninger-Weinzierl, Andrea, Sturtzel, Caterina, Souilhol, Celine, Tarelli, Sophia, Shoeb, Mohamed R., Bernkopf, Marie, Bozatzi, Polyxeni, Guarini, Maria, Bozsaky, Eva, Buri, Michelle C., Putz, Eva M., Andrews, Peter W., Barbaric, Ivana, Bryant, Helen E., Distel, Martin, Taschner-Mandl, Sabine, Farlik, Matthias, Tsakiridis, Anestis, Halbritter, Florian
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Language:English
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Summary:Early childhood malignancies are driven by sparse genetic aberrations in oncogenes that often co-occur with large copy number variants (CNVs). The combination of these mutations is thought to transform developmentally pliant embryonic cells to initiate tumorigenesis. However, the mechanistic interactions between CNVs, oncogenes, and differentiation have not been systematically studied due to several obstacles: (i) CNVs cannot be engineered efficiently yet; (ii) transient embryonic progenitors are absent in full-grown tumors; and (iii) inter-species differences in lineage specification limit the applicability of animal models. To overcome these challenges, we used isogenic human embryonic stem cell (hESC) lines carrying gains of chromosome 17q/1q, which are prevalent in the embryonal tumor neuroblastoma (NB). We differentiated these cells toward trunk neural crest (NC) and their sympathoadrenal derivatives, the putative cells-of-origin of NB, and performed single-cell RNA sequencing and cell-biological assays at key differentiation stages. We found that CNVs impaired the specification of sympathoadrenal cell types and instead potentiated early Schwann-cell-precursor-like phenotypes. Additional overexpression of the oncogene MYCN (which is frequently amplified together with CNVs in high-risk NB tumors) exacerbated these differentiation defects, enabled tumourigenic cell proliferation, and generated cell states in vitro that transcriptionally resembled NB tumor cells. Finally, using epigenome analysis, we connected these states to a stepwise disruption of gene-regulatory networks centered on developmental transcription factors. Together, our results chart a mechanistic route to NB tumorigenesis and provide a general framework for the CNV-driven initiation of embryonal tumors, in which CNVs ‘prime’ embryonic cells for oncogenic transformation. The tumor-like cells in our model may serve as proxies to experimentally test therapeutic interventions during tumorigenesis. Citation Format: Ingrid M. Saldana-Guerrero, Luis F. Montano-Gutierrez, Christoph Hafemeister, Dylan Stavish, Lisa E. Shaw, Irfete S. Fetahu, Andrea Wenninger-Weinzierl, Caterina Sturtzel, Celine Souilhol, Sophia Tarelli, Mohamed R. Shoeb, Marie Bernkopf, Polyxeni Bozatzi, Maria Guarini, Eva Bozsaky, Michelle C. Buri, Eva M. Putz, Peter W. Andrews, Ivana Barbaric, Helen E. Bryant, Martin Distel, Sabine Taschner-Mandl, Matthias Farlik, Anestis Tsakiridis, Florian Halbritter. A stem cell model disse
ISSN:1538-7445
1538-7445
DOI:10.1158/1538-7445.AM2023-3542