Identification of New Substrates of the Protein-tyrosine Phosphatase PTP1B by Bayesian Integration of Proteome Evidence

There is growing evidence that tyrosine phosphatases display an intrinsic enzymatic preference for the sequence context flanking the target phosphotyrosines. On the other hand, substrate selection in vivo is decisively guided by the enzyme-substrate connectivity in the protein interaction network. W...

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Autores principales: Ferrari, Emanuela, Tinti, Michele, Costa, Stefano, Corallino, Salvatore, Nardozza, Aurelio Pio, Chatraryamontri, Andrew, Ceol, Arnaud, Cesareni, Gianni, Castagnoli, Luisa
Formato: Texto
Lenguaje:English
Publicado: American Society for Biochemistry and Molecular Biology 2011
Materias:
Genomics and Proteomics
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3039405/
https://www.ncbi.nlm.nih.gov/pubmed/21123182
http://dx.doi.org/10.1074/jbc.M110.157420
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author Ferrari, Emanuela
Tinti, Michele
Costa, Stefano
Corallino, Salvatore
Nardozza, Aurelio Pio
Chatraryamontri, Andrew
Ceol, Arnaud
Cesareni, Gianni
Castagnoli, Luisa
author_facet Ferrari, Emanuela
Tinti, Michele
Costa, Stefano
Corallino, Salvatore
Nardozza, Aurelio Pio
Chatraryamontri, Andrew
Ceol, Arnaud
Cesareni, Gianni
Castagnoli, Luisa
author_sort Ferrari, Emanuela
collection PubMed
description There is growing evidence that tyrosine phosphatases display an intrinsic enzymatic preference for the sequence context flanking the target phosphotyrosines. On the other hand, substrate selection in vivo is decisively guided by the enzyme-substrate connectivity in the protein interaction network. We describe here a system wide strategy to infer physiological substrates of protein-tyrosine phosphatases. Here we integrate, by a Bayesian model, proteome wide evidence about in vitro substrate preference, as determined by a novel high-density peptide chip technology, and “closeness” in the protein interaction network. This allows to rank candidate substrates of the human PTP1B phosphatase. Ultimately a variety of in vitro and in vivo approaches were used to verify the prediction that the tyrosine phosphorylation levels of five high-ranking substrates, PLC-γ1, Gab1, SHP2, EGFR, and SHP1, are indeed specifically modulated by PTP1B. In addition, we demonstrate that the PTP1B-mediated dephosphorylation of Gab1 negatively affects its EGF-induced association with the phosphatase SHP2. The dissociation of this signaling complex is accompanied by a decrease of ERK MAP kinase phosphorylation and activation.
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spelling pubmed-30394052011-03-03 Identification of New Substrates of the Protein-tyrosine Phosphatase PTP1B by Bayesian Integration of Proteome Evidence Ferrari, Emanuela Tinti, Michele Costa, Stefano Corallino, Salvatore Nardozza, Aurelio Pio Chatraryamontri, Andrew Ceol, Arnaud Cesareni, Gianni Castagnoli, Luisa J Biol Chem Genomics and Proteomics There is growing evidence that tyrosine phosphatases display an intrinsic enzymatic preference for the sequence context flanking the target phosphotyrosines. On the other hand, substrate selection in vivo is decisively guided by the enzyme-substrate connectivity in the protein interaction network. We describe here a system wide strategy to infer physiological substrates of protein-tyrosine phosphatases. Here we integrate, by a Bayesian model, proteome wide evidence about in vitro substrate preference, as determined by a novel high-density peptide chip technology, and “closeness” in the protein interaction network. This allows to rank candidate substrates of the human PTP1B phosphatase. Ultimately a variety of in vitro and in vivo approaches were used to verify the prediction that the tyrosine phosphorylation levels of five high-ranking substrates, PLC-γ1, Gab1, SHP2, EGFR, and SHP1, are indeed specifically modulated by PTP1B. In addition, we demonstrate that the PTP1B-mediated dephosphorylation of Gab1 negatively affects its EGF-induced association with the phosphatase SHP2. The dissociation of this signaling complex is accompanied by a decrease of ERK MAP kinase phosphorylation and activation. American Society for Biochemistry and Molecular Biology 2011-02-11 2010-12-01 /pmc/articles/PMC3039405/ /pubmed/21123182 http://dx.doi.org/10.1074/jbc.M110.157420 Text en © 2011 by The American Society for Biochemistry and Molecular Biology, Inc. Author's Choice—Final version full access. Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/3.0/) applies to Author Choice Articles
spellingShingle Genomics and Proteomics
Ferrari, Emanuela
Tinti, Michele
Costa, Stefano
Corallino, Salvatore
Nardozza, Aurelio Pio
Chatraryamontri, Andrew
Ceol, Arnaud
Cesareni, Gianni
Castagnoli, Luisa
Identification of New Substrates of the Protein-tyrosine Phosphatase PTP1B by Bayesian Integration of Proteome Evidence
title Identification of New Substrates of the Protein-tyrosine Phosphatase PTP1B by Bayesian Integration of Proteome Evidence
title_full Identification of New Substrates of the Protein-tyrosine Phosphatase PTP1B by Bayesian Integration of Proteome Evidence
title_fullStr Identification of New Substrates of the Protein-tyrosine Phosphatase PTP1B by Bayesian Integration of Proteome Evidence
title_full_unstemmed Identification of New Substrates of the Protein-tyrosine Phosphatase PTP1B by Bayesian Integration of Proteome Evidence
title_short Identification of New Substrates of the Protein-tyrosine Phosphatase PTP1B by Bayesian Integration of Proteome Evidence
title_sort identification of new substrates of the protein-tyrosine phosphatase ptp1b by bayesian integration of proteome evidence
topic Genomics and Proteomics
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3039405/
https://www.ncbi.nlm.nih.gov/pubmed/21123182
http://dx.doi.org/10.1074/jbc.M110.157420
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