Regulation of protein tyrosine phosphatases by reversible oxidation
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TLDR
The role of PTP oxidation for physiological signalling processes as well as in different pathologies is described on the basis of well-investigated examples and criteria to establish the causal involvement of P TP oxidation in a given process are proposed.Abstract:
Oxidation of the catalytic cysteine of protein-tyrosine phosphatases (PTP), which leads to their reversible inactivation, has emerged as an important regulatory mechanism linking cellular tyrosine phosphorylation and signalling by reactive-oxygen or -nitrogen species (ROS, RNS). This review focuses on recent findings about the involved pathways, enzymes and biochemical mechanisms. Both the general cellular redox state and extracellular ligand-stimulated ROS production can cause PTP oxidation. Members of the PTP family differ in their intrinsic susceptibility to oxidation, and different types of oxidative modification of the PTP catalytic cysteine can occur. The role of PTP oxidation for physiological signalling processes as well as in different pathologies is described on the basis of well-investigated examples. Criteria to establish the causal involvement of PTP oxidation in a given process are proposed. A better understanding of mechanisms leading to selective PTP oxidation in a cellular context, and finding ways to pharmacologically modulate these pathways are important topics for future research.read more
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References
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Journal ArticleDOI
Reversible Inactivation of Protein-tyrosine Phosphatase 1B in A431 Cells Stimulated with Epidermal Growth Factor
TL;DR: The results indicate that the activation of a receptor tyrosine kinase by binding of the corresponding growth factor may not be sufficient to increase the steady state level of protein tyrosines phosphorylation in cells and that concurrent inhibition of protein-tyrosine phosphatases by H2O2 might also be required.
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Specific and reversible inactivation of protein tyrosine phosphatases by hydrogen peroxide: evidence for a sulfenic acid intermediate and implications for redox regulation.
John M. Denu,Kirk G. Tanner +1 more
TL;DR: This study explores the proposal that PTPs may be regulated by reversible reduction/oxidation involving cellular oxidants such as hydrogen peroxide (H2O2) and proposes a chemical mechanism for reversible inactivation involving a cysteine sulfenic acid intermediate.
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Redox regulation of protein tyrosine phosphatase 1B involves a sulphenyl-amide intermediate
Annette Salmeen,Jannik N. Andersen,Michael P. Myers,Tzu-Ching Meng,John A. Hinks,Nicholas K. Tonks,David Barford +6 more
TL;DR: It is proposed that this unusual protein modification both protects the active-site cysteine residue of PTP1B from irreversible oxidation to sulphonic acid and permits redox regulation of the enzyme by promoting its reversible reduction by thiols.
Journal ArticleDOI
Redox-based regulation of signal transduction : Principles, pitfalls, and promises
Yvonne M. W. Janssen-Heininger,Brooke T. Mossman,Nicholas H. Heintz,Henry Jay Forman,Balaraman Kalyanaraman,Toren Finkel,Jonathan S. Stamler,Sue Goo Rhee,Albert van der Vliet +8 more
TL;DR: Some of the recent findings that illuminate the significance of redox signaling and exciting future perspectives are reviewed to highlight some of the current pitfalls and the approaches needed to advance this important area of biochemical and biomedical research.
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Structural and Evolutionary Relationships among Protein Tyrosine Phosphatase Domains
Jannik N. Andersen,Ole Hartvig Mortensen,Günther H.J. Peters,Paul G. Drake,Lars Fogh Iversen,Ole Hvilsted Olsen,Peter Gildsig Jansen,Henrik Sune Andersen,Nicholas K. Tonks,Niels Møller +9 more
TL;DR: A comparative analysis of the structural relationships among vertebrate PTP domains is presented and a comprehensive resource for sequence analysis of phosphotyrosine-specific PTPs is provided.