EC:3.1.3.16 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.16 (calcineurin)
17,112 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Inhibition of protein tyrosine phosphatase (PTP) activities by vanadate was examined in cultured rat hepatocytes. The incubation of hepatocytes with sodium orthovanadate inhibited PTP activities, measured with labeled polyglutamate tyrosine (4:1) and insulin receptor peptide (1142-1153), in a dose- and time-dependent manner. The PTP activities in cytosolic and particulate fractions were inhibited with the IC50 values of 30-50 and 2-20 microM, respectively. Vanadate-mediated inhibition of protein phosphatase, type 1 (a serine phosphatase) was less pronounced, requiring 50- to 150-fold higher concentrations. Molybdate and tungstate, the other potent inhibitors of PTPs, exerted approximately 70% less inhibition of enzyme activities compared to vanadate in intact liver cells. The cytosolic and particulate PTPs inhibited by vanadate were further resolved by fast protein liquid chromatography on Mono Q and Superose-12 columns. Vanadate exerted stable and differential inhibition of several PTPs. One of them was identified as SHPTP2 (Syp, SHP-2) in cytosolic as well as particulate fractions. Immunoprecipitation of this PTP with Syp-antibody coupled to protein A-agarose confirmed the vanadate-induced decrease in SHPTP2 activity. Vanadate did not alter the expression of SHPTP2 and its distribution between cytosolic and particulate fractions as indicated by the immunoblots. The decrease in the activities of PTPs in vanadate-treated hepatocytes in general was found to be reversed by the reducing agent dithioerythreitol. This study shows that vanadate inhibits many PTPs in intact liver cells, one of them being SHPTP2/SHP-2. The inhibition is stable after chromatography on ion-exchange and gel filtration chromatography. The enzyme inhibition seems to involve the oxidation of the thiol group of PTPs.
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PMID:Inhibition of a Src homology 2 domain containing protein tyrosine phosphatase by vanadate in the primary culture of hepatocytes. 891 24

Platelet-derived growth factor (PDGF) stimulates protein kinase D (PKD) in a time- and dose-dependent manner. We have used a series of PDGF receptor mutants that display a selective impairment of the binding of SH2-containing proteins (GTPase-activating protein, SHP-2, phospholipase Cgamma (PLCgamma), or phosphatidylinositol 3'-kinase (PI3K)) to show that Tyr-1021, the PLCgamma-binding site, is essential for PKD stimulation by PDGF in A431 cells. We next investigated whether any one of these four binding sites could mediate PKD activation in the absence of the other three sites. F5, a receptor mutant that lacks all four binding sites for GTPase-activating protein, PLCgamma, PI3K, and SHP-2, fails to activate PKD. A panel of single add-back mutants was used to investigate if any one of these four sites could restore signaling to PKD. Of the four sites, only the PLCgamma+ single add-back receptor restored PDGF-mediated activation of PKD, and only this add-back receptor produced diacylglycerol (DAG) in a PDGF-dependent manner. 1,2-Dioctanoyl-sn-glycerol, a membrane-permeant DAG analog, was found to be sufficient for activation of PKD. Taken together, these data indicate that PLCgamma activation is not only necessary, but also sufficient to mediate PDGF-induced PKD activation. Although the presence of a pleckstrin homology domain makes PKD a potential PI3K target, PKD was not stimulated by selective PI3K activation, and wortmannin, an inhibitor of PI3K, did not inhibit PDGF signaling to PKD. The activation of PKD by DAG or by the wild-type and PLCgamma+ add-back PDGF receptors was inhibited by GF109203X, suggesting a role for protein kinase C in the stimulation of PKD by PDGF. PDGF induced a time-dependent phosphorylation of PKD that closely correlated with activation. The PDGF-induced activation and phosphorylation of PKD were reversed by in vitro incubation of PKD with protein phosphatase 1 or 2A, indicating that PDGF signaling to PKD involves the Ser/Thr phosphorylation of PKD. Taken together, these results conclusively show that PDGF activates PKD through a pathway that involves activation of PLCgamma and, subsequently, protein kinase C.
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PMID:Platelet-derived growth factor stimulates protein kinase D through the activation of phospholipase Cgamma and protein kinase C. 950 12

Receptor tyrosine phosphorylation is crucial for signal transduction by creating high affinity binding sites for Src homology 2 domain-containing molecules. By expressing the intracellular domain of Flt-1/vascular endothelial growth factor receptor-1 in the baculosystem, we identified two major tyrosine phosphorylation sites at Tyr-1213 and Tyr-1242 and two minor tyrosine phosphorylation sites at Tyr-1327 and Tyr-1333 in this receptor. This pattern of phosphorylation of Flt-1 was also detected in vascular endothelial growth factor-stimulated cells expressing intact Flt-1. In vitro protein binding studies using synthetic peptides and immunoblotting showed that phospholipase C-gamma binds to both Y(p)1213 and Y(p)1333, whereas Grb2 and SH2-containing tyrosine protein phosphatase (SHP-2) bind to Y(p)1213, and Nck and Crk bind to Y(p)1333 in a phosphotyrosine-dependent manner. In addition, unidentified proteins with molecular masses around 74 and 27 kDa bound to Y(p)1213 and another of 75 kDa bound to Y(p)1333 in a phosphotyrosine-dependent manner. SHP-2, phospholipase C-gamma, and Grb2 could also be shown to bind to the intact Flt-1 intracellular domain. These results indicate that a spectrum of already known as well as novel phosphotyrosine-binding molecules are involved in signal transduction by Flt-1.
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PMID:Identification of vascular endothelial growth factor receptor-1 tyrosine phosphorylation sites and binding of SH2 domain-containing molecules. 972 76

Signal-regulatory proteins (SIRPs) are cell-surface glycoproteins expressed on myeloid and neural cells that have been shown to recruit SH2 domain-containing protein phosphatase 1 (SHP-1) and SHP-2 and to regulate receptor tyrosine kinase-coupled signaling. One SIRP of unknown function, designated SIRP beta 1, contains a short cytoplasmic domain that lacks sequence motifs capable of recruiting SHP-1 and SHP-2. Using a SIRP-specific mAb, we show that SIRP beta 1 is expressed in monocytes and dendritic cells and associates with the signal transduction molecule DAP12. SIRP beta 1/DAP12 complex formation was required for efficient cell-surface expression of SIRP beta 1. Stimulation of this complex induced tyrosine phosphorylation, mitogen-activated protein kinase activation, and cellular activation. Thus, SIRP beta 1 is a new DAP12-associated receptor involved in the activation of myeloid cells.
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PMID:Cutting edge: signal-regulatory protein beta 1 is a DAP12-associated activating receptor expressed in myeloid cells. 1060 85

Insulin receptor-substrate-1 (IRS-1) is a docking protein for several tyrosine kinase receptors. Upon tyrosine phosphorylation, IRS-1 binds to signaling molecules that express Src homology 2 (SH-2) binding domains, including phosphatidylinositol 3-kinase (PI 3-kinase), phosphotyrosine phosphatase SHP-2 (Syp), Nck, Crk and Grb-2. Hydrogen peroxide (H(2)O(2)) induces tyrosine phosphorylation of key signaling mediators presumably by inhibition of tyrosine phosphatases. In many cell types, the activation of extracellular signal-related kinases (e.g. MAPK) and other protein kinases by H(2)O(2) leads to transcriptional activation. In the current study, we examined the effect of H(2)O(2) on IRS-1 tyrosine phosphorylation in primary cultured rat cerebellar granule neurons. H(2)O(2) stimulated the rapid tyrosine phosphorylation of IRS-1 and p42/p44 MAP kinase, and induced its association with PI 3-kinase. H(2)O(2)-induced IRS-1 phosphorylation was rapidly reversible (5 min) whereas MAPK phosphorylation persisted for up to 1 h. NMDA reversed H(2)O(2)-mediated tyrosine phosphorylation of IRS-1 and its association with PI 3-kinase. The dephosphorylation of IRS-1 by NMDA was calcium-dependent and was inhibited by the calcineurin inhibitor cyclosporine. Calmodulin-dependent tyrosine phosphatase activity of calcineurin was observed in vitro using both immunoprecipitated and recombinant tyrosine-phosphorylated IRS-1 as substrates. These data highlight the role of multiple phosphatases in the regulation of IRS-1 tyrosine phosphorylation and identify a novel functional property of calcineurin.
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PMID:Tyrosine phosphorylation of insulin receptor substrate-1 (IRS-1) by oxidant stress in cerebellar granule neurons: modulation by N-methyl-D-aspartate through calcineurin activity. 1127 62

Protein tyrosine phosphatase 1B (PTP1B) attenuates insulin signaling by catalyzing dephosphorylation of insulin receptors (IR) and is an attractive target of potential new drugs for treating the insulin resistance that is central to type II diabetes. Several analogues of cholecystokinin(26)(-)(33) (CCK-8) were found to be surprisingly potent inhibitors of PTP1B, and a common N-terminal tripeptide, N-acetyl-Asp-Tyr(SO(3)H)-Nle-, was shown to be necessary and sufficient for inhibition. This tripeptide was modified to reduce size and peptide character, and to replace the metabolically unstable sulfotyrosyl group. This led to the discovery of a novel phosphotyrosine bioisostere, 2-carboxymethoxybenzoic acid, and to analogues that were >100-fold more potent than the CCK-8 analogues and >10-fold selective for PTP1B over two other PTP enzymes (LAR and SHP-2), a dual specificity phosphatase (cdc25b), and a serine/threonine phosphatase (calcineurin). These inhibitors disrupted the binding of PTP1B to activated IR in vitro and prevented the loss of tyrosine kinase (IRTK) activity that accompanied PTP1B-catalyzed dephosphorylation of IR. Introduction of these poorly cell permeant inhibitors into insulin-treated cells by microinjection (oocytes) or by esterification to more lipophilic proinhibitors (3T3-L1 adipocytes and L6 myocytes) resulted in increased potency, but not efficacy, of insulin. In some instances, PTP1B inhibitors were insulin-mimetic, suggesting that in unstimulated cells PTP1B may suppress basal IRTK activity. X-ray crystallography of PTP1B-inhibitor complexes revealed that binding of an inhibitor incorporating phenyl-O-malonic acid as a phosphotyrosine bioisostere occurred with the mobile WPD loop in the open conformation, while a closely related inhibitor with a 2-carboxymethoxybenzoic acid bioisostere bound with the WPD loop closed, perhaps accounting for its superior potency. These CCK-derived peptidomimetic inhibitors of PTP1B represent a novel template for further development of potent, selective inhibitors, and their cell activity further justifies the selection of PTP1B as a therapeutic target.
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PMID:Small molecule peptidomimetics containing a novel phosphotyrosine bioisostere inhibit protein tyrosine phosphatase 1B and augment insulin action. 1134 29

As a consequence of the central role of dendritic cells (DC) in stimulating primary immune responses any bias in the response introduced by the DC has the potential for having a long-term effect on immunity. Examination and analysis of ruminant afferent lymph dendritic cells derived by cannulation allows studies on the properties of ex vivo DC that is not possible in humans and rodents and information can be derived from ruminants that has implications of generic relevance. Previous studies have identified two major populations of DC in afferent lymph draining the skin of cattle that differ in their capacity to stimulate CD4 and CD8 T cells. Differences in expression of cytokine transcripts have now been shown for the two types of DC. The CD11a(+)/SIRPalpha(-) population synthesised more IL-12, whilst the CD11a(-)/SIRPalpha(+) population produced more IL-10. This is likely to affect the bias of the immune response following presentation of antigen to T cells by one DC sub-population or the other. An inability to synthesise IL-1alpha was the reason for the failure of the CD11a(+)/SIRPalpha(-) DC to stimulate CD8 T cells. This property would potentially affect the induction of CD8 responses. Expression of the co-stimulatory molecules CD80, CD86 and CD40 appeared similar for both DC populations and not to relate to differences in function. A further examination of the SIRPalpha molecule on DC indicated that on cross-linking it was tyrosine phosphorylated and that it recruited the SHP-2 protein phosphatase. Associated with this was a blocking of TNFalpha secretion on exposure to LPS. The interaction of SIRPalpha with its ligand CD47 on T cells appeared to be an early event in the stimulation of T cells as binding of the ligand was reduced on activated T cells. CD26 was identified as another molecule expressed by the SIRPalpha(-) DC sub-population. This is reported to have an enzymatic activity on certain chemokines that could result in the promotion of a Th1 bias.A model is proposed that takes these observations into account in which SIRPalpha(-) DC would be expected to promote a Th1 biased response and the SIRPalpha(+) DC a more balanced one.
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PMID:Co-stimulation and modulation of the ensuing immune response. 1207 26

Signal transducer and activator of transcription (STAT) proteins are both tyrosine- and serine-phosphorylated, mediating signal transduction and gene regulation. Following gene regulation, STAT activity in the nucleus is then terminated by a nuclear protein phosphatase(s), which remains unidentified. Using novel antibody arrays to screen the Stat1-specific protein phosphatase(s), we identified a SHP-2-Stat1 interaction in the A431 cell nucleus. SHP-2 and Stat1 nuclear localization and their association in response to either epidermal growth factor or interferon-gamma (IFNgamma) were confirmed by immunofluorescent staining and affinity precipitation assays. The SHP-2 C-terminal region containing protein-tyrosine phosphatase activity interacted with the C-terminal SH2 transcriptional activation domain of Stat1. In SHP-2-/- mouse fibroblast cells, Stat1 phosphorylation at both the tyrosine residue Tyr(701) and the serine residue Ser(727) by IFNgamma was enhanced and prolonged. Consistently, purified GST-SHP-2 dephosphorylated Stat1 at both tyrosine and serine residues when immunoprecipitated phospho-Stat1 or a peptide corresponding to the sequence surrounding Tyr(P)(701) or Ser(P)(727) of Stat1 was used as the substrate. Overexpression of SHP-2 in 293T cells inhibited IFNgamma-dependent Stat1 phosphorylation and suppressed Stat1-dependent induction of luciferase activity. Our findings demonstrate that SHP-2 is a dual-specificity protein phosphatase involved in Stat1 dephosphorylation at both tyrosine and serine residues and plays an important role in modulating STAT function in gene regulation.
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PMID:SHP-2 is a dual-specificity phosphatase involved in Stat1 dephosphorylation at both tyrosine and serine residues in nuclei. 1227 Sep 32

Tamalin is a scaffold protein that forms a multiple protein assembly including metabotropic glutamate receptors (mGluRs) and several postsynaptic and protein-trafficking scaffold proteins in distinct mode of protein-protein association. In the present investigation, we report that tamalin possesses a typical immunoreceptor tyrosine-based activation motif (ITAM), which enables Syk kinase to be recruited and phosphorylated by the Src family kinases. Coimmunoprecipitation analysis of rat brain membrane fractions showed that tamalin is present in a multimolecular protein assembly comprising not only mGluR1 but also c-Src, Fyn, and a protein phosphatase, SHP-2. The protein association of both tamalin and c-Src, as determined by truncation analysis of mGluR1 in COS-7 cells, occurred at the carboxyl-terminal tail of mGluR1. Mutation analysis of tyrosine with phenylalanine in COS-7 cells revealed that paired tyrosines at the ITAM sequence of tamalin are phosphorylated preferentially by c-Src and Fyn, and this phosphorylation can recruit Syk kinase and enables it to be phosphorylated by the Src family kinases. The phosphorylated tyrosines at the ITAM sequence of tamalin were highly susceptible to dephosphorylation by protein-tyrosine phosphatases in COS-7 cells. Importantly, tamalin was endogenously phosphorylated and associated with Syk in retinoic acid-treated P19 embryonal carcinoma cells that undergo neuron-like differentiation. The present investigation demonstrates that tamalin is a novel signaling molecule that possesses a PDZ domain and a PDZ binding motif and mediates Syk signaling in an ITAM-based fashion.
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PMID:Phosphorylation and recruitment of Syk by immunoreceptor tyrosine-based activation motif-based phosphorylation of tamalin. 1517 75

Reversible protein phosphorylation plays a central role in cellular signal transduction and is a focus of biomedical studies. However, it is a challenging task to study the effects of protein phosphorylation in the presence of protein phosphatase activities, especially for protein tyrosine phosphatases SHP1, SHP2 and LMW-PTP, which are themselves regulated by protein tyrosine phosphorylation. Expressed protein ligation, by combining chemical peptide synthesis with recombinant protein expression, allows for site-specific unnatural modifications of semisynthetic proteins. In this review, we describe how semisynthetic proteins were prepared to incorporate nonhydrolyzable phosphotyrosine analogs, and utilized in combination with site-directed mutagenesis and other means to elucidate regulatory mechanisms of protein tyrosine phosphatases.
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PMID:Analyzing protein tyrosine phosphatases by phosphotyrosine analog integration. 1753 10

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