Loss of BCL9/9l suppresses Wnt driven tumourigenesis in models that recapitulate human cancer

Loss of BCL9/9l suppresses Wnt driven tumourigenesis in models that recapitulate human cancer

Whether the Wnt enhanceosome’ components BCL9/9l can affect intestinal homeostasis and tumorigenesis is still unclear. Using conditional Bcl9/9l KO mice, the authors of this study show that the BCL9/9l complex is required for intestinal stem cells to drive tissue regeneration and that loss of BCL9/9...

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Main Authors: David M. Gay, Rachel A. Ridgway, Miryam Müller, Michael C. Hodder, Ann Hedley, William Clark, Joshua D. Leach, Rene Jackstadt, Colin Nixon, David J. Huels, Andrew D. Campbell, Thomas G. Bird, Owen J. Sansom
Format: Article
Language:English
Published: Nature Publishing Group 2019-02-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-019-08586-3
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spelling doaj-c9f52c1c744446f184d2f160044012922021-05-11T12:26:41ZengNature Publishing GroupNature Communications2041-17232019-02-0110111610.1038/s41467-019-08586-3Loss of BCL9/9l suppresses Wnt driven tumourigenesis in models that recapitulate human cancerDavid M. Gay0Rachel A. Ridgway1Miryam Müller2Michael C. Hodder3Ann Hedley4William Clark5Joshua D. Leach6Rene Jackstadt7Colin Nixon8David J. Huels9Andrew D. Campbell10Thomas G. Bird11Owen J. Sansom12Cancer Research UK Beatson InstituteCancer Research UK Beatson InstituteCancer Research UK Beatson InstituteCancer Research UK Beatson InstituteCancer Research UK Beatson InstituteCancer Research UK Beatson InstituteCancer Research UK Beatson InstituteCancer Research UK Beatson InstituteCancer Research UK Beatson InstituteCancer Research UK Beatson InstituteCancer Research UK Beatson InstituteCancer Research UK Beatson InstituteCancer Research UK Beatson InstituteWhether the Wnt enhanceosome’ components BCL9/9l can affect intestinal homeostasis and tumorigenesis is still unclear. Using conditional Bcl9/9l KO mice, the authors of this study show that the BCL9/9l complex is required for intestinal stem cells to drive tissue regeneration and that loss of BCL9/9l suppresses Wnt-driven transformation.https://doi.org/10.1038/s41467-019-08586-3
collection DOAJ
language English
format Article
sources DOAJ
author David M. Gay
Rachel A. Ridgway
Miryam Müller
Michael C. Hodder
Ann Hedley
William Clark
Joshua D. Leach
Rene Jackstadt
Colin Nixon
David J. Huels
Andrew D. Campbell
Thomas G. Bird
Owen J. Sansom
spellingShingle David M. Gay
Rachel A. Ridgway
Miryam Müller
Michael C. Hodder
Ann Hedley
William Clark
Joshua D. Leach
Rene Jackstadt
Colin Nixon
David J. Huels
Andrew D. Campbell
Thomas G. Bird
Owen J. Sansom
Loss of BCL9/9l suppresses Wnt driven tumourigenesis in models that recapitulate human cancer
Nature Communications
author_facet David M. Gay
Rachel A. Ridgway
Miryam Müller
Michael C. Hodder
Ann Hedley
William Clark
Joshua D. Leach
Rene Jackstadt
Colin Nixon
David J. Huels
Andrew D. Campbell
Thomas G. Bird
Owen J. Sansom
author_sort David M. Gay
title Loss of BCL9/9l suppresses Wnt driven tumourigenesis in models that recapitulate human cancer
title_short Loss of BCL9/9l suppresses Wnt driven tumourigenesis in models that recapitulate human cancer
title_full Loss of BCL9/9l suppresses Wnt driven tumourigenesis in models that recapitulate human cancer
title_fullStr Loss of BCL9/9l suppresses Wnt driven tumourigenesis in models that recapitulate human cancer
title_full_unstemmed Loss of BCL9/9l suppresses Wnt driven tumourigenesis in models that recapitulate human cancer
title_sort loss of bcl9/9l suppresses wnt driven tumourigenesis in models that recapitulate human cancer
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2019-02-01
description Whether the Wnt enhanceosome’ components BCL9/9l can affect intestinal homeostasis and tumorigenesis is still unclear. Using conditional Bcl9/9l KO mice, the authors of this study show that the BCL9/9l complex is required for intestinal stem cells to drive tissue regeneration and that loss of BCL9/9l suppresses Wnt-driven transformation.
url https://doi.org/10.1038/s41467-019-08586-3
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