Rolf Kemler scite author profile

β‐catenin is a central component of the cadherin cell adhesion complex and plays an essential role in the Wingless/Wnt signaling pathway. In the current model of this pathway, the amount of β‐catenin (or its invertebrate homolog Armadillo) is tightly regulated and its steady‐state level outside the cadherin–catenin complex is low in the absence of Wingless/Wnt signal. Here we show that the ubiquitin‐dependent proteolysis system is involved in the regulation of β‐catenin turnover. β‐catenin, but not E‐cadherin, p120cas or α‐catenin, becomes stabilized when proteasome‐mediated proteolysis is inhibited and this leads to the accumulation of multi‐ubiquitinated forms of β‐catenin. Mutagenesis experiments demonstrate that substitution of the serine residues in the glycogen synthase kinase 3β (GSK3β) phosphorylation consensus motif of β‐catenin inhibits ubiquitination and results in stabilization of the protein. This motif in β‐catenin resembles a motif in IκB (inhibitor of NFκB) which is required for the phosphorylation‐dependent degradation of IκB via the ubiquitin–proteasome pathway. We show that ubiquitination of β‐catenin is greatly reduced in Wnt‐expressing cells, providing the first evidence that the ubiquitin–proteasome degradation pathway may act downstream of GSK3β in the regulation of β‐catenin.

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The cytoplasmic domain of the cell adhesion molecule uvomorulin associates with three independent proteins structurally related in different species.

Ozawa

1989

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Uvomorulin belongs to the group of Ca2+‐dependent cell adhesion molecules, which are integral membrane proteins with several structural features in common. In particular, the cytoplasmic part of these proteins is highly conserved in different species, suggesting a common biological function. To test this assumption we transfected a uvomorulin full‐length cDNA into uvomorulin‐negative mouse NIH 3T3 and L cells. Immunoprecipitations with anti‐uvomorulin antibodies detected, in addition to uvomorulin, three independent proteins of 102, 88 and 80 kd which are of host origin and which form complexes with uvomorulin. Using cDNA constructs coding for uvomorulin with cytoplasmic or extracellular deletions it is shown that the 102, 88 and 80 kd proteins complex with the cytoplasmic domain of uvomorulin. Peptide pattern analysis revealed that these three proteins are identical in different mouse cells. When uvomorulin cDNA was introduced into cell lines from other species, such as human HeLa and avian fibroblasts, the expressed uvomorulin was also associated with endogenous 102, 88 and 80 kd proteins and, moreover, each of these proteins showed structural similarities to the respective mouse molecule. A panel of antibodies specific for known cytoplasmic proteins of mol. wts similar to those of the three proteins did not react with any of the described components. This suggests that the 102, 88 and 80 kd proteins constitute a new group of proteins for which we propose the nomenclature of catenin alpha, beta and gamma respectively. The characterization of these proteins provides a first molecular basis for a possible cytoplasmic anchorage of uvomorulin to the cytoskeleton.

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Inhibition of glycogen synthase kinase-3 alleviates Tcf3 repression of the pluripotency network and increases embryonic stem cell resistance to differentiation

et al. 2011

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Self-renewal of rodent embryonic stem (ES) cells is enhanced by partial inhibition of glycogen synthase kinase-3 (Gsk3)1 2. This effect has variously been attributed to stimulation of Wnt signalling via β-catenin1, stabilisation of cMyc3, and global de-inhibition of anabolic processes4. Here we demonstrate that β-catenin is not necessary for ES cell identity or expansion, but its absence eliminates the self-renewal response to Gsk3 inhibition. Responsiveness is fully restored by truncated β-catenin lacking the C-terminal transactivation domain5. However, requirement for Gsk3 inhibition is dictated by expression of Tcf3 and mediated by direct interaction with β-catenin. Tcf3 localises to many pluripotency genes6 in ES cells. Our findings confirm that Tcf3 acts as a transcriptional repressor and reveal that β-catenin directly abrogates Tcf3 function. We conclude that Gsk3 inhibition stabilises the ES cell state primarily by reducing repressive influence on the core pluripotency network.

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Wnt3a Plays a Major Role in the Segmentation Clock Controlling Somitogenesis

et al. 2003

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The vertebral column derives from somites generated by segmentation of presomitic mesoderm (PSM). Somitogenesis involves a molecular oscillator, the segmentation clock, controlling periodic Notch signaling in the PSM. Here, we establish a novel link between Wnt/beta-catenin signaling and the segmentation clock. Axin2, a negative regulator of the Wnt pathway, is directly controlled by Wnt/beta-catenin and shows oscillating expression in the PSM, even when Notch signaling is impaired, alternating with Lfng expression. Moreover, Wnt3a is required for oscillating Notch signaling activity in the PSM. We propose that the segmentation clock is established by Wnt/beta-catenin signaling via a negative-feedback mechanism and that Wnt3a controls the segmentation process in vertebrates.

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From cadherins to catenins: cytoplasmic protein interactions and regulation of cell adhesion

1993

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Rolf Kemler

β-catenin is a target for the ubiquitin–proteasome pathway

The cytoplasmic domain of the cell adhesion molecule uvomorulin associates with three independent proteins structurally related in different species.

Inhibition of glycogen synthase kinase-3 alleviates Tcf3 repression of the pluripotency network and increases embryonic stem cell resistance to differentiation

Wnt3a Plays a Major Role in the Segmentation Clock Controlling Somitogenesis

From cadherins to catenins: cytoplasmic protein interactions and regulation of cell adhesion

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