Loss of Apc in vivo immediately perturbs Wnt signaling, differentiation, and migration
Inserm · University of Dundee · +3 more institutions
Abstract
Although Apc is well characterized as a tumor-suppressor gene in the intestine, the precise mechanism of this suppression remains to be defined. Using a novel inducible Ahcre transgenic line in conjunction with a loxP-flanked Apc allele we, show that loss of Apc acutely activates Wnt signaling through the nuclear accumulation of beta-catenin. Coincidentally, it perturbs differentiation, migration, proliferation, and apoptosis, such that Apc-deficient cells maintain a "crypt progenitor-like" phenotype. Critically, for the first time we confirm a series of Wnt target molecules in an in vivo setting and also identify a series of new candidate targets within the same setting.
Citation impact
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- References
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Authors
12- OJOwen J. SansomCorresponding
Inserm, University of Dundee, Cancer Research UK, Université de Strasbourg, Cardiff University
- KRKaren R. Reed
Inserm, University of Dundee, Cancer Research UK, Université de Strasbourg, Cardiff University
- AJAnthony J. Hayes
Inserm, University of Dundee, Cancer Research UK, Université de Strasbourg, Cardiff University
- HIHeather Ireland
Inserm, University of Dundee, Cancer Research UK, Université de Strasbourg, Cardiff University
- HBHannah Brinkmann
Inserm, University of Dundee, Cancer Research UK, Université de Strasbourg, Cardiff University
Topics & keywords
- Wnt signaling pathway
- Biology
- Cell biology
- Progenitor cell
- Progenitor
- Beta-catenin
- Suppressor
- Crypt