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Differential regulation of β-catenin-mediated transcription via N- and C-terminal co-factors governs identity of murine intestinal epithelial stem cells
C. Borrelli, T. Valenta, K. Handler, K. Vélez, A. Gurtner, G. Moro, A. Lafzi, LV. Roditi, G. Hausmann, IC. Arnold, AE. Moor, K. Basler
Jazyk angličtina Země Velká Británie
Typ dokumentu časopisecké články, práce podpořená grantem
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Directory of Open Access Journals
od 2015
Free Medical Journals
od 2010
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od 2010-12-01
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od 2010-01-01
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od 2015-01-01
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od 2012-11-01
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- MeSH
- algoritmy MeSH
- beta-katenin chemie metabolismus MeSH
- buněčná diferenciace MeSH
- chromatin metabolismus MeSH
- fenotyp MeSH
- genetická transkripce * MeSH
- homeostáza MeSH
- hyperplazie MeSH
- JNK mitogenem aktivované proteinkinasy metabolismus MeSH
- kmenové buňky metabolismus MeSH
- messenger RNA genetika metabolismus MeSH
- mutace genetika MeSH
- mutantní proteiny metabolismus MeSH
- myši MeSH
- organoidy metabolismus MeSH
- proliferace buněk MeSH
- restrukturace chromatinu MeSH
- sekvence nukleotidů MeSH
- signální transdukce MeSH
- střevní sliznice cytologie MeSH
- transkripční faktory metabolismus MeSH
- zvířata MeSH
- Check Tag
- myši MeSH
- zvířata MeSH
- Publikační typ
- časopisecké články MeSH
- práce podpořená grantem MeSH
The homeostasis of the gut epithelium relies upon continuous renewal and proliferation of crypt-resident intestinal epithelial stem cells (IESCs). Wnt/β-catenin signaling is required for IESC maintenance, however, it remains unclear how this pathway selectively governs the identity and proliferative decisions of IESCs. Here, we took advantage of knock-in mice harboring transgenic β-catenin alleles with mutations that specifically impair the recruitment of N- or C-terminal transcriptional co-factors. We show that C-terminally-recruited transcriptional co-factors of β-catenin act as all-or-nothing regulators of Wnt-target gene expression. Blocking their interactions with β-catenin rapidly induces loss of IESCs and intestinal homeostasis. Conversely, N-terminally recruited co-factors fine-tune β-catenin's transcriptional output to ensure proper self-renewal and proliferative behaviour of IESCs. Impairment of N-terminal interactions triggers transient hyperproliferation of IESCs, eventually resulting in exhaustion of the self-renewing stem cell pool. IESC mis-differentiation, accompanied by unfolded protein response stress and immune infiltration, results in a process resembling aberrant "villisation" of intestinal crypts. Our data suggest that IESC-specific Wnt/β-catenin output requires selective modulation of gene expression by transcriptional co-factors.
Department of Biosystems Science and Engineering ETH Zurich Basel Switzerland
Department of Molecular Life Sciences University of Zurich Zurich Switzerland
Institute of Experimental Immunology University of Zurich Zurich Switzerland
Institute of Molecular Genetics of the ASCR v v i Prague 4 Czech Republic
Citace poskytuje Crossref.org
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- $a The homeostasis of the gut epithelium relies upon continuous renewal and proliferation of crypt-resident intestinal epithelial stem cells (IESCs). Wnt/β-catenin signaling is required for IESC maintenance, however, it remains unclear how this pathway selectively governs the identity and proliferative decisions of IESCs. Here, we took advantage of knock-in mice harboring transgenic β-catenin alleles with mutations that specifically impair the recruitment of N- or C-terminal transcriptional co-factors. We show that C-terminally-recruited transcriptional co-factors of β-catenin act as all-or-nothing regulators of Wnt-target gene expression. Blocking their interactions with β-catenin rapidly induces loss of IESCs and intestinal homeostasis. Conversely, N-terminally recruited co-factors fine-tune β-catenin's transcriptional output to ensure proper self-renewal and proliferative behaviour of IESCs. Impairment of N-terminal interactions triggers transient hyperproliferation of IESCs, eventually resulting in exhaustion of the self-renewing stem cell pool. IESC mis-differentiation, accompanied by unfolded protein response stress and immune infiltration, results in a process resembling aberrant "villisation" of intestinal crypts. Our data suggest that IESC-specific Wnt/β-catenin output requires selective modulation of gene expression by transcriptional co-factors.
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