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Wnt/β-Catenin Signaling

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Wnt/β-Catenin Signaling

Pathway Description:

The conserved Wnt/β-Catenin pathway regulates stem cell pluripotency and cell fate decisions during development. This developmental cascade integrates signals from other pathways, including retinoic acid, FGF, TGF-β, and BMP, within different cell types and tissues. The Wnt ligand is a secreted glycoprotein that binds to Frizzled receptors, leading to the formation of a larger cell surface complex with LRP5/6. Frizzleds are ubiquitinated by ZNRF3 and RNF43, whose activity is inhibited by R-spondin binding to LGR5/6. In this manner R-spondins increase sensitivity of cells to the Wnt ligand. Activation of the Wnt receptor complex triggers displacement of the multifunctional kinase GSK-3β from a regulatory APC/Axin/GSK-3β-complex. In the absence of Wnt-signal (Off-state), β-catenin, an integral E-cadherin cell-cell adhesion adaptor protein and transcriptional co-regulator, is targeted by coordinated phosphorylation by CK1 and the APC/Axin/GSK-3β-complex leading to its ubiquitination and proteasomal degradation through the β-TrCP/Skp pathway. In the presence of Wnt ligand (On-state), the co-receptor LRP5/6 is brought in complex with Wnt-bound Frizzled. This leads to activation of Dishevelled (Dvl) by sequential phosphorylation, poly-ubiquitination, and polymerization, which displaces GSK-3β from APC/Axin through an unclear mechanism that may involve substrate trapping and/ or endosome sequestration. Stablized β-catenin is translocated to the nucleus via Rac1 and other factors, where it binds to LEF/TCF transcription factors, displacing co-repressors and recruiting additional co-activators to Wnt target genes. Additionally, β-catenin cooperates with several other transcription factors to regulate specific targets. Importantly, researchers have found β-catenin point mutations in human tumors that prevent GSK-3β phosphorylation and thus lead to its aberrant accumulation. E-cadherin, APC, R-spondin and Axin mutations have also been documented in tumor samples, underscoring the deregulation of this pathway in cancer. Wnt signaling has also been shown to promote nuclear accumulation of other transcriptional regulator implicated in cancer, such as TAZ and Snail1. Furthermore, GSK-3β is involved in glycogen metabolism and other signaling pathways, which has made its inhibition relevant to diabetes and neurodegenerative disorders.

Selected Reviews:

We would like to thank Prof. Kenneth Cadigan, University of Michigan, Ann Arbor, MI, for contributing to this diagram.

created January 2003

revised September 2016

Acetylase
Acetylase
Metabolic Enzyme
Metabolic Enzyme
Adaptor
Adaptor
Methyltransferase or G-protein
Methyltransferase or G-protein
Adaptor
Apoptosis/Autophagy Regulator
Phosphatase
Phosphatase
Cell Cycle Regulator
Cell Cycle Regulator
Protein Complex
Protein Complex
Deacetylase or Cytoskeletal Protein
Deacetylase or Cytoskeletal Protein
Ubiquitin/SUMO Ligase or Deubiquitinase
Ubiquitin/SUMO Ligase or Deubiquitinase
Growth Factor/Cytokine/Development Protein
Growth Factor/Cytokine/Development Protein
Transcription Factor or Translation Factor
Transcription Factor or Translation Factor
GTPase/GAP/GEF
GTPase/GAP/GEF
Receptor
Receptor
Kinase
Kinase
Other
Other
 
Direct Process
Direct Process
Tentative Process
Tentative Process
Translocation Process
Translocation Process
Stimulatory Modification
Stimulatory Modification
Inhibitory Modification
Inhibitory Modification
Transcriptional Modification
Transcriptional Modification
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