Regulated Binding of a PTP1B-like Phosphatase to N-Cadherin: Control of Cadherin-Mediated Adhesion by Dephosphorylation of β-Catenin

Cadherins are a family of cell-cell adhesion molecules which play a central role in controlling morphogenetic movements during development. Cadherin function is regulated by its association with the actin containing cytoskeleton, an association mediated by a complex of cytoplasmic proteins, the cate...

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Veröffentlicht in:	The Journal of cell biology 1996-08, Vol.134 (3), p.801-813
Hauptverfasser:	Balsamo, Janne, Leung, TinChung, Ernst, Heidemarie, Mary K. B. Zanin, Hoffman, Stanley, Lilien, Jack
Format:	Artikel
Sprache:	eng
Schlagworte:	Actins Actins - metabolism Animals Antibodies Antibodies, Monoclonal Arsenicals - pharmacology Benzoquinones beta Catenin Biochemistry Cadherins Cadherins - analysis Cadherins - isolation & purification Cadherins - metabolism Cell Adhesion Cell Fractionation Cell lines Cells Cellular biology Chick Embryo Cytoskeletal Proteins - analysis Cytoskeletal Proteins - metabolism Cytoskeleton Embryonic cells Enzyme Inhibitors - pharmacology Genistein Isoflavones - pharmacology Lactams, Macrocyclic Ligands Molecules Phosphatases Phosphorylation Protein Binding Protein Tyrosine Phosphatases - analysis Protein Tyrosine Phosphatases - antagonists & inhibitors Protein Tyrosine Phosphatases - metabolism Protein-Tyrosine Kinases - metabolism Protein-Tyrosine Kinases - pharmacology Quinones - pharmacology Retina - cytology Rifabutin - analogs & derivatives Trans-Activators Transferases (Other Substituted Phosphate Groups) - metabolism
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container_end_page	813
container_issue	3
container_start_page	801
container_title	The Journal of cell biology
container_volume	134
creator	Balsamo, Janne Leung, TinChung Ernst, Heidemarie Mary K. B. Zanin Hoffman, Stanley Lilien, Jack
description	Cadherins are a family of cell-cell adhesion molecules which play a central role in controlling morphogenetic movements during development. Cadherin function is regulated by its association with the actin containing cytoskeleton, an association mediated by a complex of cytoplasmic proteins, the catenins: α, β, and γ. Phosphorylated tyrosine residues on β-catenin are correlated with loss of cadherin function. Consistent with this, we find that only nontyrosine phosphorylated β-catenin is associated with N-cadherin in E10 chick retina tissue. Moreover, we demonstrate that a PTP1B-like tyrosine phosphatase associates with N-cadherin and may function as a regulatory switch controlling cadherin function by dephosphorylating β-catenin, thereby maintaining cells in an adhesion-competent state. The PTP1B-like phosphatase is itself tyrosine phosphorylated. Moreover, both direct binding experiments performed with phosphorylated and dephosphorylated molecules, and treatment of cells with tyrosine kinase inhibitors indicate that the interaction of the PTP1B-like phosphatase with N-cadherin depends on its tyrosine phosphorylation. Concomitant with the tyrosine kinase inhibitor-induced loss of the PTP1B-like phosphatase from its association with N-cadherin, phosphorylated tyrosine residues are retained on β-catenin, the association of N-cadherin with the actin containing cytoskeleton is lost and N-cadherin-mediated cell adhesion is prevented. Tyrosine phosphatase inhibitors also result in the accumulation of phosphorylated tyrosine residues on β-catenin, loss of the association of N-cadherin with the actin-containing cytoskeleton, and prevent N-cadherin mediated adhesion, presumably by directly blocking the function of the PTP1B-like phosphatase. We previously showed that the binding of two ligands to the cell surface N-acetylgalactosaminylphosphotransferase (GalNAcPTase), the monoclonal antibody 1B11 and a proteoglycan with a 250-kD core protein, results in the accumulation of phosphorylated tyrosine residues on β-catenin, uncoupling of N-cadherin from its association with the actin containing cytoskeleton, and loss of N-cadherin function. We now report that binding of these ligands to the GalNAcPTase results in the absence of the PTP1B-like phosphatase from its association with N-cadherin as well as the loss of the tyrosine kinase and tyrosine phosphatase activities that otherwise co-precipitate with N-cadherin. Control antibodies and proteoglycans have no such effect
doi_str_mv	10.1083/jcb.134.3.801
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B. Zanin ; Hoffman, Stanley ; Lilien, Jack</creator><creatorcontrib>Balsamo, Janne ; Leung, TinChung ; Ernst, Heidemarie ; Mary K. B. Zanin ; Hoffman, Stanley ; Lilien, Jack</creatorcontrib><description>Cadherins are a family of cell-cell adhesion molecules which play a central role in controlling morphogenetic movements during development. Cadherin function is regulated by its association with the actin containing cytoskeleton, an association mediated by a complex of cytoplasmic proteins, the catenins: α, β, and γ. Phosphorylated tyrosine residues on β-catenin are correlated with loss of cadherin function. Consistent with this, we find that only nontyrosine phosphorylated β-catenin is associated with N-cadherin in E10 chick retina tissue. Moreover, we demonstrate that a PTP1B-like tyrosine phosphatase associates with N-cadherin and may function as a regulatory switch controlling cadherin function by dephosphorylating β-catenin, thereby maintaining cells in an adhesion-competent state. The PTP1B-like phosphatase is itself tyrosine phosphorylated. Moreover, both direct binding experiments performed with phosphorylated and dephosphorylated molecules, and treatment of cells with tyrosine kinase inhibitors indicate that the interaction of the PTP1B-like phosphatase with N-cadherin depends on its tyrosine phosphorylation. Concomitant with the tyrosine kinase inhibitor-induced loss of the PTP1B-like phosphatase from its association with N-cadherin, phosphorylated tyrosine residues are retained on β-catenin, the association of N-cadherin with the actin containing cytoskeleton is lost and N-cadherin-mediated cell adhesion is prevented. Tyrosine phosphatase inhibitors also result in the accumulation of phosphorylated tyrosine residues on β-catenin, loss of the association of N-cadherin with the actin-containing cytoskeleton, and prevent N-cadherin mediated adhesion, presumably by directly blocking the function of the PTP1B-like phosphatase. We previously showed that the binding of two ligands to the cell surface N-acetylgalactosaminylphosphotransferase (GalNAcPTase), the monoclonal antibody 1B11 and a proteoglycan with a 250-kD core protein, results in the accumulation of phosphorylated tyrosine residues on β-catenin, uncoupling of N-cadherin from its association with the actin containing cytoskeleton, and loss of N-cadherin function. We now report that binding of these ligands to the GalNAcPTase results in the absence of the PTP1B-like phosphatase from its association with N-cadherin as well as the loss of the tyrosine kinase and tyrosine phosphatase activities that otherwise co-precipitate with N-cadherin. Control antibodies and proteoglycans have no such effect. This effect is similar to that observed with tyrosine kinase inhibitors, suggesting that the GalNAcPTase/proteoglycan interaction inhibits a tyrosine kinase, thereby preventing the phosphorylation of the PTP1B-like phosphatase, and its association with N-cadherin. Taken together these data indicate that a PTP1B-like tyrosine phosphatase can regulate N-cadherin function through its ability to dephosphorylate β-catenin and that the association of the phosphatase with N-cadherin is regulated via the interaction of the GalNAcPTase with its proteoglycan ligand. In this manner the GalNAcPTase-proteoglycan interaction may play a major role in morphogenetic cell and tissue interactions during development.</description><identifier>ISSN: 0021-9525</identifier><identifier>EISSN: 1540-8140</identifier><identifier>DOI: 10.1083/jcb.134.3.801</identifier><identifier>PMID: 8707857</identifier><identifier>CODEN: JCLBA3</identifier><language>eng</language><publisher>United States: Rockefeller University Press</publisher><subject>Actins ; Actins - metabolism ; Animals ; Antibodies ; Antibodies, Monoclonal ; Arsenicals - pharmacology ; Benzoquinones ; beta Catenin ; Biochemistry ; Cadherins ; Cadherins - analysis ; Cadherins - isolation & purification ; Cadherins - metabolism ; Cell Adhesion ; Cell Fractionation ; Cell lines ; Cells ; Cellular biology ; Chick Embryo ; Cytoskeletal Proteins - analysis ; Cytoskeletal Proteins - metabolism ; Cytoskeleton ; Embryonic cells ; Enzyme Inhibitors - pharmacology ; Genistein ; Isoflavones - pharmacology ; Lactams, Macrocyclic ; Ligands ; Molecules ; Phosphatases ; Phosphorylation ; Protein Binding ; Protein Tyrosine Phosphatases - analysis ; Protein Tyrosine Phosphatases - antagonists & inhibitors ; Protein Tyrosine Phosphatases - metabolism ; Protein-Tyrosine Kinases - metabolism ; Protein-Tyrosine Kinases - pharmacology ; Quinones - pharmacology ; Retina - cytology ; Rifabutin - analogs & derivatives ; Trans-Activators ; Transferases (Other Substituted Phosphate Groups) - metabolism</subject><ispartof>The Journal of cell biology, 1996-08, Vol.134 (3), p.801-813</ispartof><rights>Copyright 1996 The Rockefeller University Press</rights><rights>Copyright Rockefeller University Press Aug 1996</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c496t-eb3cb4617f3316d2db9127659ae68b07233e40fb9f1a1e523162d2f4943c92033</citedby></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>230,314,780,784,885,27924,27925</link.rule.ids><backlink>$$Uhttps://www.ncbi.nlm.nih.gov/pubmed/8707857$$D View this record in MEDLINE/PubMed$$Hfree_for_read</backlink></links><search><creatorcontrib>Balsamo, Janne</creatorcontrib><creatorcontrib>Leung, TinChung</creatorcontrib><creatorcontrib>Ernst, Heidemarie</creatorcontrib><creatorcontrib>Mary K. B. Zanin</creatorcontrib><creatorcontrib>Hoffman, Stanley</creatorcontrib><creatorcontrib>Lilien, Jack</creatorcontrib><title>Regulated Binding of a PTP1B-like Phosphatase to N-Cadherin: Control of Cadherin-Mediated Adhesion by Dephosphorylation of β-Catenin</title><title>The Journal of cell biology</title><addtitle>J Cell Biol</addtitle><description>Cadherins are a family of cell-cell adhesion molecules which play a central role in controlling morphogenetic movements during development. Cadherin function is regulated by its association with the actin containing cytoskeleton, an association mediated by a complex of cytoplasmic proteins, the catenins: α, β, and γ. Phosphorylated tyrosine residues on β-catenin are correlated with loss of cadherin function. Consistent with this, we find that only nontyrosine phosphorylated β-catenin is associated with N-cadherin in E10 chick retina tissue. Moreover, we demonstrate that a PTP1B-like tyrosine phosphatase associates with N-cadherin and may function as a regulatory switch controlling cadherin function by dephosphorylating β-catenin, thereby maintaining cells in an adhesion-competent state. The PTP1B-like phosphatase is itself tyrosine phosphorylated. Moreover, both direct binding experiments performed with phosphorylated and dephosphorylated molecules, and treatment of cells with tyrosine kinase inhibitors indicate that the interaction of the PTP1B-like phosphatase with N-cadherin depends on its tyrosine phosphorylation. Concomitant with the tyrosine kinase inhibitor-induced loss of the PTP1B-like phosphatase from its association with N-cadherin, phosphorylated tyrosine residues are retained on β-catenin, the association of N-cadherin with the actin containing cytoskeleton is lost and N-cadherin-mediated cell adhesion is prevented. Tyrosine phosphatase inhibitors also result in the accumulation of phosphorylated tyrosine residues on β-catenin, loss of the association of N-cadherin with the actin-containing cytoskeleton, and prevent N-cadherin mediated adhesion, presumably by directly blocking the function of the PTP1B-like phosphatase. We previously showed that the binding of two ligands to the cell surface N-acetylgalactosaminylphosphotransferase (GalNAcPTase), the monoclonal antibody 1B11 and a proteoglycan with a 250-kD core protein, results in the accumulation of phosphorylated tyrosine residues on β-catenin, uncoupling of N-cadherin from its association with the actin containing cytoskeleton, and loss of N-cadherin function. We now report that binding of these ligands to the GalNAcPTase results in the absence of the PTP1B-like phosphatase from its association with N-cadherin as well as the loss of the tyrosine kinase and tyrosine phosphatase activities that otherwise co-precipitate with N-cadherin. Control antibodies and proteoglycans have no such effect. This effect is similar to that observed with tyrosine kinase inhibitors, suggesting that the GalNAcPTase/proteoglycan interaction inhibits a tyrosine kinase, thereby preventing the phosphorylation of the PTP1B-like phosphatase, and its association with N-cadherin. Taken together these data indicate that a PTP1B-like tyrosine phosphatase can regulate N-cadherin function through its ability to dephosphorylate β-catenin and that the association of the phosphatase with N-cadherin is regulated via the interaction of the GalNAcPTase with its proteoglycan ligand. In this manner the GalNAcPTase-proteoglycan interaction may play a major role in morphogenetic cell and tissue interactions during development.</description><subject>Actins</subject><subject>Actins - metabolism</subject><subject>Animals</subject><subject>Antibodies</subject><subject>Antibodies, Monoclonal</subject><subject>Arsenicals - pharmacology</subject><subject>Benzoquinones</subject><subject>beta Catenin</subject><subject>Biochemistry</subject><subject>Cadherins</subject><subject>Cadherins - analysis</subject><subject>Cadherins - isolation & purification</subject><subject>Cadherins - metabolism</subject><subject>Cell Adhesion</subject><subject>Cell Fractionation</subject><subject>Cell lines</subject><subject>Cells</subject><subject>Cellular biology</subject><subject>Chick Embryo</subject><subject>Cytoskeletal Proteins - analysis</subject><subject>Cytoskeletal Proteins - metabolism</subject><subject>Cytoskeleton</subject><subject>Embryonic cells</subject><subject>Enzyme Inhibitors - pharmacology</subject><subject>Genistein</subject><subject>Isoflavones - pharmacology</subject><subject>Lactams, Macrocyclic</subject><subject>Ligands</subject><subject>Molecules</subject><subject>Phosphatases</subject><subject>Phosphorylation</subject><subject>Protein Binding</subject><subject>Protein Tyrosine Phosphatases - analysis</subject><subject>Protein Tyrosine Phosphatases - antagonists & inhibitors</subject><subject>Protein Tyrosine Phosphatases - metabolism</subject><subject>Protein-Tyrosine Kinases - metabolism</subject><subject>Protein-Tyrosine Kinases - pharmacology</subject><subject>Quinones - pharmacology</subject><subject>Retina - cytology</subject><subject>Rifabutin - analogs & derivatives</subject><subject>Trans-Activators</subject><subject>Transferases (Other Substituted Phosphate Groups) - metabolism</subject><issn>0021-9525</issn><issn>1540-8140</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1996</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNpdkctuEzEUhi0EKqGwZAeSxYKdU9_mxgKpTWmpVCBCZW15Zs4kDhM72DNIeYC-EA_CM3HShHJZWTrn8-fj8xPyXPCp4KU6WTX1VCg9VdOSiwdkIjLNWSk0f0gmnEvBqkxmj8mTlFacc11odUSOyoIXZVZMyO1nWIy9HaClZ863zi9o6Kil85u5OGO9-wp0vgxps7SDTUCHQD-ymW2XEJ1_Q2fBDzH0uyu_i-wDtO7Od4qF5IKn9Zaew-bOEuIWH9sV8crPH6gawDv_lDzqbJ_g2eE8Jl8u3t3M3rPrT5dXs9Nr1ugqHxjUqql1LopOKZG3sq0rIYs8qyzkZc0LqRRo3tVVJ6yATCIkW9npSqumklypY_J2792M9RraBnB825tNdGsbtyZYZ_7teLc0i_DdSCF5pTUKXh8EMXwbIQ1m7VIDfW89hDGZokQSE0Dw1X_gKozR4-fQVfA8kzJDiO2hJoaUInT3kwhuduEaDNdguEYZDBf5l3-Pf08f0sT-i31_lYYQ_8hwYxnu4BeuOapT</recordid><startdate>19960801</startdate><enddate>19960801</enddate><creator>Balsamo, Janne</creator><creator>Leung, TinChung</creator><creator>Ernst, Heidemarie</creator><creator>Mary K. 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Consistent with this, we find that only nontyrosine phosphorylated β-catenin is associated with N-cadherin in E10 chick retina tissue. Moreover, we demonstrate that a PTP1B-like tyrosine phosphatase associates with N-cadherin and may function as a regulatory switch controlling cadherin function by dephosphorylating β-catenin, thereby maintaining cells in an adhesion-competent state. The PTP1B-like phosphatase is itself tyrosine phosphorylated. Moreover, both direct binding experiments performed with phosphorylated and dephosphorylated molecules, and treatment of cells with tyrosine kinase inhibitors indicate that the interaction of the PTP1B-like phosphatase with N-cadherin depends on its tyrosine phosphorylation. Concomitant with the tyrosine kinase inhibitor-induced loss of the PTP1B-like phosphatase from its association with N-cadherin, phosphorylated tyrosine residues are retained on β-catenin, the association of N-cadherin with the actin containing cytoskeleton is lost and N-cadherin-mediated cell adhesion is prevented. Tyrosine phosphatase inhibitors also result in the accumulation of phosphorylated tyrosine residues on β-catenin, loss of the association of N-cadherin with the actin-containing cytoskeleton, and prevent N-cadherin mediated adhesion, presumably by directly blocking the function of the PTP1B-like phosphatase. We previously showed that the binding of two ligands to the cell surface N-acetylgalactosaminylphosphotransferase (GalNAcPTase), the monoclonal antibody 1B11 and a proteoglycan with a 250-kD core protein, results in the accumulation of phosphorylated tyrosine residues on β-catenin, uncoupling of N-cadherin from its association with the actin containing cytoskeleton, and loss of N-cadherin function. We now report that binding of these ligands to the GalNAcPTase results in the absence of the PTP1B-like phosphatase from its association with N-cadherin as well as the loss of the tyrosine kinase and tyrosine phosphatase activities that otherwise co-precipitate with N-cadherin. Control antibodies and proteoglycans have no such effect. This effect is similar to that observed with tyrosine kinase inhibitors, suggesting that the GalNAcPTase/proteoglycan interaction inhibits a tyrosine kinase, thereby preventing the phosphorylation of the PTP1B-like phosphatase, and its association with N-cadherin. Taken together these data indicate that a PTP1B-like tyrosine phosphatase can regulate N-cadherin function through its ability to dephosphorylate β-catenin and that the association of the phosphatase with N-cadherin is regulated via the interaction of the GalNAcPTase with its proteoglycan ligand. In this manner the GalNAcPTase-proteoglycan interaction may play a major role in morphogenetic cell and tissue interactions during development.</abstract><cop>United States</cop><pub>Rockefeller University Press</pub><pmid>8707857</pmid><doi>10.1083/jcb.134.3.801</doi><tpages>13</tpages><oa>free_for_read</oa></addata></record>
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subjects	Actins Actins - metabolism Animals Antibodies Antibodies, Monoclonal Arsenicals - pharmacology Benzoquinones beta Catenin Biochemistry Cadherins Cadherins - analysis Cadherins - isolation & purification Cadherins - metabolism Cell Adhesion Cell Fractionation Cell lines Cells Cellular biology Chick Embryo Cytoskeletal Proteins - analysis Cytoskeletal Proteins - metabolism Cytoskeleton Embryonic cells Enzyme Inhibitors - pharmacology Genistein Isoflavones - pharmacology Lactams, Macrocyclic Ligands Molecules Phosphatases Phosphorylation Protein Binding Protein Tyrosine Phosphatases - analysis Protein Tyrosine Phosphatases - antagonists & inhibitors Protein Tyrosine Phosphatases - metabolism Protein-Tyrosine Kinases - metabolism Protein-Tyrosine Kinases - pharmacology Quinones - pharmacology Retina - cytology Rifabutin - analogs & derivatives Trans-Activators Transferases (Other Substituted Phosphate Groups) - metabolism
title	Regulated Binding of a PTP1B-like Phosphatase to N-Cadherin: Control of Cadherin-Mediated Adhesion by Dephosphorylation of β-Catenin
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