Ngoc Hang Le scite author profile

ObjectiveDeregulation of the Wnt signalling pathway by mutations in the Apc or β-catenin genes underlies colorectal carcinogenesis. As a result, β-catenin stabilises, translocates to the nucleus, and activates gene transcription. Intestinal tumours show a heterogeneous pattern of nuclear β-catenin, with the highest levels observed at the invasion front. Activation of receptor tyrosine kinases in these tumour areas by growth factors expressed by surrounding stromal cells phosphorylate β-catenin at tyrosine residues, which is thought to increase β-catenin nuclear translocation and tumour invasiveness. This study investigates the relevance of β-catenin tyrosine phosphorylation for Wnt signalling and intestinal tumorigenesis in vivo.DesignA conditional knock-in mouse model was generated into which the phospho-mimicking Y654E modification in the endogenous β-catenin gene was introduced.ResultsThis study provided in vivo evidence that β-cateninE654 is characterised by reduced affinity for cadherins, increased signalling and strongly increased phosphorylation at serine 675 by protein kinase A (PKA). In addition, homozygosity for the β-cateninE654 targeted allele caused embryonic lethality, whereas heterozygosity predisposed to intestinal tumour development, and strongly enhanced Apc-driven intestinal tumour initiation associated with increased nuclear accumulation of βcatenin. Surprisingly, the expression of β-cateninE654 did not affect histological grade or induce tumour invasiveness.ConclusionsA thus far unknown mechanism was uncovered in which Y654 phosphorylation of β-catenin facilitates additional phosphorylation at serine 675 by PKA. In addition, in contrast to the current belief that β-catenin Y654 phosphorylation increases tumour progression to a more invasive phenotype, these results show that it rather increases tumour initiation by enhancing Wnt signalling.

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Tumour–stroma interactions in colorectal cancer: converging on β-catenin activation and cancer stemness

Franken

Fodde

2008

Br J Cancer

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Sporadic cases of colorectal cancer are primarily initiated by gene mutations in members of the canonical Wnt pathway, ultimately resulting in b-catenin stabilisation. Nevertheless, cells displaying nuclear b-catenin accumulation are nonrandomly distributed throughout the tumour mass and preferentially localise along the invasive front where parenchymal cells are in direct contact with the stromal microenvironment. Here, we discuss the putative role played by stromal cell types in regulating b-catenin intracellular accumulation in a paracrine fashion. As such, the tumour microenvironment is likely to maintain the cancer stem cell phenotype in a subset of cells, thus mediating invasion and metastasis.

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Aberrant Polycystin-1 Expression Results in Modification of Activator Protein-1 Activity, whereas Wnt Signaling Remains Unaffected

Bent

Huls

et al. 2004

Journal of Biological Chemistry

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Polycystin-1, the polycystic kidney disease 1 gene product, has been implicated in several signaling complexes that are known to regulate essential cellular functions. We investigated the role of polycystin-1 in Wnt signaling and activator protein-1 (AP-1) activation. To this aim, a membrane-targeted construct encoding the conserved C-terminal region of mouse polycystin-1 reported to mediate signal transduction activity was expressed in human embryonic and renal epithelial cells. To ensure specificity and minimal cotransfection effects, we focused our study on the endogenous proteins that actually transduce the signals, ␤-catenin and T-cell factor/lymphoid-enhancing factor for Wnt signaling and (phosphorylated) c-Jun, ATF2, and c-Fos for AP-1. Our data indicate that the C-terminal region of polycystin-1 activates AP-1 by inducing phosphorylation and expression of at least c-Jun and ATF2, whereas c-Fos was not affected. Under our experimental conditions, polycystin-1 did not modulate Wnt signaling. AP-1 activity was aberrant in human autosomal dominant polycystic kidney disease (ADPKD) renal cystic epithelial cells and in renal epithelial cells expressing transgenic full-length polycystin-1, resulting in decreased Jun-ATF and increased Jun-Fos activity, whereas Wnt signaling remained unaffected. Since our data indicate that aberrant polycystin-1 expression results in altered AP-1 activity, polycystin-1 may be required for adequate AP-1 activity.Progressive development of fluid-filled cysts in autosomal dominant polycystic kidney disease (ADPKD) 1 results in chronic renal failure. In the majority of patients, the disease can be accounted for by a mutation in the PKD1 gene (1, 2), whereas a minority suffers from a mutation in the PKD2 gene (3, 4). The precise function of polycystin-1 and polycystin-2, the proteins encoded by the PKD1 and PKD2 gene, respectively, remains to be elucidated. Polycystin-1 is predicted to be a transmembrane protein of ϳ460 kDa. The large extracellular N terminus contains multiple domains thought to be involved in cell-cell and cell-matrix interactions. The intracellular C terminus of polycystin-1 contains putative phosphorylation sites and a coiled-coil domain that can mediate protein-protein interactions.Several studies have implicated a role for polycystin-1 in signal transduction. Overexpression of the C-terminal region of polycystin-1 in human embryonic kidney 293T (HEK293T) cells has been shown to activate the Wnt signaling pathway (5) and the activator protein-1 (AP-1) transcription factor complex (6, 7). Furthermore, overexpression of a full-length polycystin-1 construct has been reported to activate the Janus kinase and signal transducer and activator of transcription (JAK-STAT) signaling pathway (8). These signaling pathways are all involved in key cellular processes such as proliferation and differentiation, cell cycle regulation, and cell survival. Since these cellular processes are essential for normal function, the signaling pathways governing them are tightly regulated. We ...

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Increased Activity of Activator Protein-1 Transcription Factor Components ATF2, c-Jun, and c-Fos in Human and Mouse Autosomal Dominant Polycystic Kidney Disease

Wal²,

Bent³

et al. 2005

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Autosomal dominant polycystic kidney disease is a common inherited disorder that predominantly manifests with the formation of fluid-filled cysts in both kidneys. The disease can be accounted for by a mutation in either the PKD1 or the PKD2 gene. It was demonstrated previously that aberrant expression of the PKD1 gene product, polycystin-1, results in modification of activator protein-1 (AP-1) transcription factor activity in cultured renal epithelial cells. Here, it is reported that activity of the AP-1 components c-Jun, ATF2, and c-Fos is altered in renal cystic tissue of patients with autosomal dominant polycystic kidney disease and of hypomorphic Pkd1 mice with polycystic kidney disease. Data were obtained using immunohistochemical and Western blot analysis. Significant upregulation of Thr71-and Thr69/71-phosphorylated ATF2 and Ser73-phosphorylated c-Jun and increased c-Fos were detected in small cysts and (dilated) ducts and tubules surrounded by fibrotic interstitium. The data indicate that various AP-1 components are constitutively activated in polycystic kidney disease and suggest that aberrant AP-1 activity is relevant for cyst formation.

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Ngoc Hang Le

-catenin tyrosine 654 phosphorylation increases Wnt signalling and intestinal tumorigenesis

Tumour–stroma interactions in colorectal cancer: converging on β-catenin activation and cancer stemness

Aberrant Polycystin-1 Expression Results in Modification of Activator Protein-1 Activity, whereas Wnt Signaling Remains Unaffected

Increased Activity of Activator Protein-1 Transcription Factor Components ATF2, c-Jun, and c-Fos in Human and Mouse Autosomal Dominant Polycystic Kidney Disease

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