Literature DB >> 16952352

Tyrosine residues 654 and 670 in beta-catenin are crucial in regulation of Met-beta-catenin interactions.

Gang Zeng1, Udayan Apte, Amanda Micsenyi, Aaron Bell, Satdarshan P S Monga.   

Abstract

beta-Catenin, a key component of the canonical Wnt pathway, is also regulated by tyrosine phosphorylation that regulates its association to E-cadherin. Previously, we reported its association with the hepatocyte growth factor (HGF) receptor Met at the membrane. HGF induced Met-beta-catenin dissociation and nuclear translocation of beta-catenin, which was tyrosine-phosphorylation-dependent. Here, we further investigate the Met-beta-catenin interaction by selectively mutating several tyrosine residues, alone or in combination, in beta-catenin. The mutants were subcloned into FLAG-CMV vector and stably transfected into rat hepatoma cells, which were treated with HGF. All single or double-mutant-transfected cells continued to show HGF-induced nuclear translocation of FLAG-beta-catenin except the mutations affecting 654 and 670 simultaneously (Y654/670F), which coincided with the lack of formation of beta-catenin-TCF complex and DNA synthesis, in response to the HGF treatment. In addition, the Y654/670F-transfected cells also showed no phosphorylation of beta-catenin or dissociation from Met in response to HGF. Thus, intact 654 and 670 tyrosine residues in beta-catenin are crucial in HGF-mediated beta-catenin translocation, activation and mitogenesis.

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Year:  2006        PMID: 16952352      PMCID: PMC1820835          DOI: 10.1016/j.yexcr.2006.08.003

Source DB:  PubMed          Journal:  Exp Cell Res        ISSN: 0014-4827            Impact factor:   3.905


  42 in total

1.  How a growth control path takes a wrong turn to cancer.

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Journal:  Science       Date:  1998-09-04       Impact factor: 47.728

Review 2.  Role of HGF/SF and c-Met in morphogenesis and metastasis of epithelial cells.

Authors:  W Birchmeier; V Brinkmann; C Niemann; S Meiners; S DiCesare; H Naundorf; M Sachs
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3.  Association of the HGF/SF receptor, c-met, with the cell-surface adhesion molecule, E-cadherin, and catenins in human tumor cells.

Authors:  S Hiscox; W G Jiang
Journal:  Biochem Biophys Res Commun       Date:  1999-08-02       Impact factor: 3.575

Review 4.  HGF/SF-Met signaling in tumor progression.

Authors:  Chong Feng Gao; George F Vande Woude
Journal:  Cell Res       Date:  2005-01       Impact factor: 25.617

5.  Induction of epithelial tubules by growth factor HGF depends on the STAT pathway.

Authors:  C Boccaccio; M Andò; L Tamagnone; A Bardelli; P Michieli; C Battistini; P M Comoglio
Journal:  Nature       Date:  1998-01-15       Impact factor: 49.962

6.  Gab1 coupling to the HGF/Met receptor multifunctional docking site requires binding of Grb2 and correlates with the transforming potential.

Authors:  A Bardelli; P Longati; D Gramaglia; M C Stella; P M Comoglio
Journal:  Oncogene       Date:  1997-12-18       Impact factor: 9.867

7.  p120 Catenin-associated Fer and Fyn tyrosine kinases regulate beta-catenin Tyr-142 phosphorylation and beta-catenin-alpha-catenin Interaction.

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Journal:  Mol Cell Biol       Date:  2003-04       Impact factor: 4.272

8.  Involvement of growth factor receptor-bound protein-2 in rat hepatocyte growth.

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Journal:  J Gastroenterol Hepatol       Date:  1998-06       Impact factor: 4.029

9.  The cyclin D1 gene is a target of the beta-catenin/LEF-1 pathway.

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10.  Cyclic peptides as probes of the substrate binding site of the cytosolic tyrosine kinase, pp60c-src.

Authors:  J S McMurray; R J Budde; S Ke; N U Obeyesekere; W Wang; L Ramdas; C A Lewis
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  46 in total

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Authors:  Chhinder P Sodhi; Xia-Hua Shi; Ward M Richardson; Zachary S Grant; Richard A Shapiro; Thomas Prindle; Maria Branca; Anthony Russo; Steven C Gribar; Congrong Ma; David J Hackam
Journal:  Gastroenterology       Date:  2009-09-26       Impact factor: 22.682

3.  Merlin-deficient human tumors show loss of contact inhibition and activation of Wnt/β-catenin signaling linked to the PDGFR/Src and Rac/PAK pathways.

Authors:  Lu Zhou; Emanuela Ercolano; Sylwia Ammoun; M Caroline Schmid; Magdalena A Barczyk; Clemens Oliver Hanemann
Journal:  Neoplasia       Date:  2011-12       Impact factor: 5.715

4.  C-Src-mediated phosphorylation of δ-catenin increases its protein stability and the ability of inducing nuclear distribution of β-catenin.

Authors:  Yongfeng He; Hangun Kim; Taeyong Ryu; Kwang-Youl Lee; Won-Seok Choi; Kyeong-Man Kim; Mei Zheng; Yechan Joh; Jae-Hyuk Lee; Dong-Deuk Kwon; Qun Lu; Kwonseop Kim
Journal:  Biochim Biophys Acta       Date:  2014-01-09

5.  Wnt-mediated endothelial transformation into mesenchymal stem cell-like cells induces chemoresistance in glioblastoma.

Authors:  Menggui Huang; Duo Zhang; Janet Y Wu; Kun Xing; Eujin Yeo; Chunsheng Li; Lin Zhang; Eric Holland; Lutian Yao; Ling Qin; Zev A Binder; Donald M O'Rourke; Steven Brem; Constantinos Koumenis; Yanqing Gong; Yi Fan
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Review 6.  Wnt/β-Catenin Signaling in Liver Development, Homeostasis, and Pathobiology.

Authors:  Jacquelyn O Russell; Satdarshan P Monga
Journal:  Annu Rev Pathol       Date:  2017-11-10       Impact factor: 23.472

7.  Abl regulates planar polarized junctional dynamics through β-catenin tyrosine phosphorylation.

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Journal:  Dev Cell       Date:  2012-02-14       Impact factor: 12.270

Review 8.  β-Catenin Signaling and Roles in Liver Homeostasis, Injury, and Tumorigenesis.

Authors:  Satdarshan Pal Monga
Journal:  Gastroenterology       Date:  2015-03-05       Impact factor: 22.682

Review 9.  Role and regulation of β-catenin signaling during physiological liver growth.

Authors:  Satdarshan Paul Singh Monga
Journal:  Gene Expr       Date:  2014

10.  Identification of pY654-β-catenin as a critical co-factor in hypoxia-inducible factor-1α signaling and tumor responses to hypoxia.

Authors:  Y Xi; Y Wei; B Sennino; A Ulsamer; I Kwan; A N Brumwell; K Tan; M K Aghi; D M McDonald; D M Jablons; H A Chapman
Journal:  Oncogene       Date:  2012-12-17       Impact factor: 9.867
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