ASCL1 represses a SOX9(+) neural crest stem-like state in small cell lung cancer

ASCL1 is a neuroendocrine lineage-specific oncogenic driver of small cell lung cancer (SCLC), highly expressed in a significant fraction of tumors. However, ∼25% of human SCLC are ASCL1-low and associated with low neuroendocrine fate and high MYC expression. Using genetically engineered mouse models...

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Autores principales: Olsen, Rachelle R., Ireland, Abbie S., Kastner, David W., Groves, Sarah M., Spainhower, Kyle B., Pozo, Karine, Kelenis, Demetra P., Whitney, Christopher P., Guthrie, Matthew R., Wait, Sarah J., Soltero, Danny, Witt, Benjamin L., Quaranta, Vito, Johnson, Jane E., Oliver, Trudy G.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cold Spring Harbor Laboratory Press 2021
Materias:
Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8168563/
https://www.ncbi.nlm.nih.gov/pubmed/34016693
http://dx.doi.org/10.1101/gad.348295.121
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author Olsen, Rachelle R.
Ireland, Abbie S.
Kastner, David W.
Groves, Sarah M.
Spainhower, Kyle B.
Pozo, Karine
Kelenis, Demetra P.
Whitney, Christopher P.
Guthrie, Matthew R.
Wait, Sarah J.
Soltero, Danny
Witt, Benjamin L.
Quaranta, Vito
Johnson, Jane E.
Oliver, Trudy G.
author_facet Olsen, Rachelle R.
Ireland, Abbie S.
Kastner, David W.
Groves, Sarah M.
Spainhower, Kyle B.
Pozo, Karine
Kelenis, Demetra P.
Whitney, Christopher P.
Guthrie, Matthew R.
Wait, Sarah J.
Soltero, Danny
Witt, Benjamin L.
Quaranta, Vito
Johnson, Jane E.
Oliver, Trudy G.
author_sort Olsen, Rachelle R.
collection PubMed
description ASCL1 is a neuroendocrine lineage-specific oncogenic driver of small cell lung cancer (SCLC), highly expressed in a significant fraction of tumors. However, ∼25% of human SCLC are ASCL1-low and associated with low neuroendocrine fate and high MYC expression. Using genetically engineered mouse models (GEMMs), we show that alterations in Rb1/Trp53/Myc in the mouse lung induce an ASCL1(+) state of SCLC in multiple cells of origin. Genetic depletion of ASCL1 in MYC-driven SCLC dramatically inhibits tumor initiation and progression to the NEUROD1(+) subtype of SCLC. Surprisingly, ASCL1 loss promotes a SOX9(+) mesenchymal/neural crest stem-like state and the emergence of osteosarcoma and chondroid tumors, whose propensity is impacted by cell of origin. ASCL1 is critical for expression of key lineage-related transcription factors NKX2-1, FOXA2, and INSM1 and represses genes involved in the Hippo/Wnt/Notch developmental pathways in vivo. Importantly, ASCL1 represses a SOX9/RUNX1/RUNX2 program in vivo and SOX9 expression in human SCLC cells, suggesting a conserved function for ASCL1. Together, in a MYC-driven SCLC model, ASCL1 promotes neuroendocrine fate and represses the emergence of a SOX9(+) nonendodermal stem-like fate that resembles neural crest.
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spelling pubmed-81685632021-06-14 ASCL1 represses a SOX9(+) neural crest stem-like state in small cell lung cancer Olsen, Rachelle R. Ireland, Abbie S. Kastner, David W. Groves, Sarah M. Spainhower, Kyle B. Pozo, Karine Kelenis, Demetra P. Whitney, Christopher P. Guthrie, Matthew R. Wait, Sarah J. Soltero, Danny Witt, Benjamin L. Quaranta, Vito Johnson, Jane E. Oliver, Trudy G. Genes Dev Research Paper ASCL1 is a neuroendocrine lineage-specific oncogenic driver of small cell lung cancer (SCLC), highly expressed in a significant fraction of tumors. However, ∼25% of human SCLC are ASCL1-low and associated with low neuroendocrine fate and high MYC expression. Using genetically engineered mouse models (GEMMs), we show that alterations in Rb1/Trp53/Myc in the mouse lung induce an ASCL1(+) state of SCLC in multiple cells of origin. Genetic depletion of ASCL1 in MYC-driven SCLC dramatically inhibits tumor initiation and progression to the NEUROD1(+) subtype of SCLC. Surprisingly, ASCL1 loss promotes a SOX9(+) mesenchymal/neural crest stem-like state and the emergence of osteosarcoma and chondroid tumors, whose propensity is impacted by cell of origin. ASCL1 is critical for expression of key lineage-related transcription factors NKX2-1, FOXA2, and INSM1 and represses genes involved in the Hippo/Wnt/Notch developmental pathways in vivo. Importantly, ASCL1 represses a SOX9/RUNX1/RUNX2 program in vivo and SOX9 expression in human SCLC cells, suggesting a conserved function for ASCL1. Together, in a MYC-driven SCLC model, ASCL1 promotes neuroendocrine fate and represses the emergence of a SOX9(+) nonendodermal stem-like fate that resembles neural crest. Cold Spring Harbor Laboratory Press 2021-06 /pmc/articles/PMC8168563/ /pubmed/34016693 http://dx.doi.org/10.1101/gad.348295.121 Text en © 2021 Olsen et al.; Published by Cold Spring Harbor Laboratory Press https://creativecommons.org/licenses/by-nc/4.0/This article, published in Genes & Development, is available under a Creative Commons License (Attribution-NonCommercial 4.0 International), as described at http://creativecommons.org/licenses/by-nc/4.0/ (https://creativecommons.org/licenses/by-nc/4.0/) .
spellingShingle Research Paper
Olsen, Rachelle R.
Ireland, Abbie S.
Kastner, David W.
Groves, Sarah M.
Spainhower, Kyle B.
Pozo, Karine
Kelenis, Demetra P.
Whitney, Christopher P.
Guthrie, Matthew R.
Wait, Sarah J.
Soltero, Danny
Witt, Benjamin L.
Quaranta, Vito
Johnson, Jane E.
Oliver, Trudy G.
ASCL1 represses a SOX9(+) neural crest stem-like state in small cell lung cancer
title ASCL1 represses a SOX9(+) neural crest stem-like state in small cell lung cancer
title_full ASCL1 represses a SOX9(+) neural crest stem-like state in small cell lung cancer
title_fullStr ASCL1 represses a SOX9(+) neural crest stem-like state in small cell lung cancer
title_full_unstemmed ASCL1 represses a SOX9(+) neural crest stem-like state in small cell lung cancer
title_short ASCL1 represses a SOX9(+) neural crest stem-like state in small cell lung cancer
title_sort ascl1 represses a sox9(+) neural crest stem-like state in small cell lung cancer
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8168563/
https://www.ncbi.nlm.nih.gov/pubmed/34016693
http://dx.doi.org/10.1101/gad.348295.121
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