Abstract
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.
Highlights
Protein-tyrosine phosphatases (PTPs)4 in concert with tyrosine kinases contribute to the maintenance of regulated levels of tyrosine phosphorylation in multicellular organisms [1, 2]
PTP1B Substrate Specificity—To achieve a comprehensive view of PTP1B target recognition, we used a strategy whereby a domain of interest is challenged with a chip containing the entire collection of peptides that the domain is likely to encounter in the cell
Our analysis confirms and extends the findings of several groups [17,18,19]; namely, the sequences of peptides preferentially bound by the catalytic domain of PTP1B are enriched for negatively charged residues at the amino side of the phosphorylated tyrosine
Summary
Protein-tyrosine phosphatases (PTPs)4 in concert with tyrosine kinases contribute to the maintenance of regulated levels of tyrosine phosphorylation in multicellular organisms [1, 2]. 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-␥1, Gab1, SHP2, EGFR, and SHP1, are modulated by PTP1B.
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