EC:2.5.1.18 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.5.1.18 (glutathione S-transferase)
22,582 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We examined the possibility that the C2 domain, amino acid residues 2173-2332, of factor VIII (fVIII) contains a binding site for von Willebrand factor (vWf) to clarify previous data showing that some monoclonal and human inhibitor antibodies with epitopes in C2 prevent fVIII-vWf binding. We constructed a fusion protein, glutathione S-transferase-C2, which binds to immobilized vWf in a dose-dependent saturable fashion, suggesting that the fVIII C2 domain contains a binding site for vWf. This site was further localized by testing the effect of a synthetic peptide on fVIII-vWf binding. Peptide 2303-2332, consisting of a previously identified phosphatidyl-serine binding site, prevented fVIII binding to vWf, suggesting that the sites for fVIII binding to vWf or phosphatidylserine have some overlap. The effect of anti-C2 domain antibodies further supported these observations. The inhibition of fVIII binding to vWf by monoclonal antibody NMC-VIII/5 IgG or F(ab)'2 (epitope within residues 2170-2327) and by inhibitor antibody MU IgG or Fab' (epitope within residues 2248-2312) was demonstrated by a fluid-phase binding assay and enzyme-linked immunosorbent assay. Two monoclonal antibodies with epitopes within amino acid residues 2170-2218 or 2248-2285, which do not overlap the phosphatidylserine binding site, did not have any inhibitory effect. Our data suggest that the previously described antagonistic binding of vWf and phospholipid to fVIII is due to the involvement of some C2 domain amino acids in both processes.
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PMID:A role for the C2 domain of factor VIII in binding to von Willebrand factor. 751 68

The allele frequencies of six VNTRs (D1S80, D4S43, ApoB 3' VNTR, von Willebrand factor VNTR-I, DXS52 and DYS19) in 123 Amerindians from five tribes (Arara, Wayana-Apalai, Wayampi, Yanomama and Kayapo) were compared with three other Brazilian populations: Whites, Blacks, and individuals of Japanese extraction. The data clearly distinguished the four populations, and measurements of diversity show a decreasing average heterozygosity from Blacks to Whites, Japanese, and Indians. Seven novel alleles were observed: amongst them, two small DYS19 alleles and a large D4S43 allele occurred only in Indians, and may be useful genetic markers for this population. Other prominent features of the Amerindians were: (1) high frequency of ApoB allele 46; (2) absence of a shorter variant of D4S43 allele 1; (3) high frequency, limited to one tribe, of allele 12 of the von Willebrand VNTR. The study also demonstrated a heterogeneity of the Indian tribes, due to both different allele frequencies and the presence or absence of specific alleles. GST was 0.106 for the five Indian populations, and 0.065 for Whites, Blacks and Japanese. HS and HT demonstrated that 11% of the total diversity among Amerindians is caused by interpopulational variability, as compared with 7% for the other three racial groups. In contrast, diversity within each tribe is usually low, as demonstrated by a low average number of alleles per locus. These findings indicate that the study of a small number of tribes may not be representative of the variability of Amerindians, even if a large number of individuals are studied. To capture the whole range of genetic variability of Amerindians, it is necessary to study a large number of populations. The limited genetic diversity thus far observed for Amerindians seems to reflect both a genuine decrease of diversity and a bias caused by the study of limited numbers of tribes.
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PMID:Interpopulational and intrapopulational genetic diversity of Amerindians as revealed by six variable number of tandem repeats. 885 43

Two minisatellite (D1S80, D17S5) and 10 microsatellite (D2S1328, TPO, D3S1358, D9S926, D11S2010, THO1, VWF, FES, D16S310, and D18S848) polymorphic loci were analyzed in 5 Greek population groups (eastern Macedonia, central Macedonia, Thessaly, Epirus, and Greeks from Asia Minor) using the polymerase chain reaction. The genotypes at these loci conformed to Hardy-Weinberg equilibrium, and pairwise comparisons between them were in agreement with the expectation of independence between loci. This along with the low values of the coefficient of gene differentiation (GST) and the high heterozygosity levels of all loci allows the use of allele frequency data from the 12 hypervariable DNA markers for medicolegal casework in the Greek population groups studied. The small genetic distances indicate a genetic affinity among the 5 population samples. However, a few markers seem to allow some discrimination among the groups. No significant differences with other European populations were found for the loci studied.
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PMID:Genetic studies in 5 Greek population samples using 12 highly polymorphic DNA loci. 997 96

The adhesion molecule von Willebrand factor (vWF) activates platelets upon binding 2 surface receptors, glycoprotein (GP) Ib-V-IX and integrin alpha(IIb)beta(3). We have used 2 approaches to selectively activate GP Ib using either the snake venom lectin alboaggregin-A or mutant recombinant forms of vWF (triangle upA1-vWF and RGGS-vWF) with selective binding properties to its 2 receptors. We show that activation of GP Ib induces platelet aggregation, secretion of 5-hydroxy tryptamine (5-HT), and an increase in cytosolic calcium. Syk becomes tyrosine phosphorylated and activated downstream of GP Ib, and associates with several tyrosine-phosphorylated proteins including the Fc receptor gamma-chain through interaction with Syk SH2 domains. GP Ib physically associates with the gamma-chain in GST-Syk-SH2 precipitates from platelets stimulated through GP Ib, and 2 Src family kinases, Lyn and Fyn, also associate with this signaling complex. In addition, GP Ib stimulation couples to tyrosine phosphorylation of phospholipase Cgamma2. The Src family-specific inhibitor PP1 dose-dependently inhibits phosphorylation of Syk, its association with tyrosine-phosphorylated gamma-chain, phosphorylation of PLCgamma2, platelet aggregation, and 5-HT release. The results indicate that, upon activation, GP Ib is physically associated with FcR gamma-chain and members of the Src family kinases, leading to phosphorylation of the gamma-chain, recruitment, and activation of Syk. Phosphorylation of PLCgamma2 also lies downstream of Src kinase activation and may critically couple early signaling events to functional platelet responses.
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PMID:Glycoprotein Ib-V-IX, a receptor for von Willebrand factor, couples physically and functionally to the Fc receptor gamma-chain, Fyn, and Lyn to activate human platelets. 1047 89

We have investigated the role of p38 mitogen-activated protein kinase (MAPK) in von Willebrand factor (VWF)-dependent platelet activation. The interaction of platelets with subendothelial VWF, especially under high shear stress, is considered to be the first activation step which primes platelets for subsequent haemostatic events. As a model of VWF-dependent platelet activation, porcine VWF was employed. Porcine VWF induced p38 MAPK activation by 1 min post-addition; assessed by phosphorylation of a recombinant p38 MAPK fusion protein substrate termed glutathione S-transferase-MAPK activated protein kinase-2. To determine if p38 MAPK was necessary for porcine VWF-induced platelet activation, we functionally inhibited p38 MAPK activity with SB203580 before exposure of the platelets to porcine VWF. Inhibition of p38 MAPK had no effect on VWF-induced platelet alpha or lysozomal granule release, expression of activated GPIIb IIIa, modulation of membrane glycoprotein CD41, expression of phosphatidylserine as assessed by annexin V binding, microparticle formation, or platelet agglutination. It was concluded that SB203580-inhibitable p38 MAPK activity induced by porcine VWF is not necessary for platelet activation.
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PMID:p38 MAPK is activated but not necessary in porcine von Willebrand factor-dependent platelet activation. 1058 54

Shear stress causes the platelet glycoprotein (Gp) Ib/IX/V to bind to von Willebrand factor, resulting in platelet adhesion. GpIb/IX/V also functions to stimulate transmembranous signaling, leading to platelet activation and the expression of a ligand-receptive GpIIb-IIIa complex. The highly conserved cytoplasmic domain of GpIbalpha binds directly to a dimeric 14-3-3 adapter protein zeta isoform. To explore structural determinants of GpIb/IX/V binding to 14-3-3zeta, the authors examined 14-3-3zeta interactions with GpIbalpha and GpIbbeta in heterologous cells and platelets. Truncations of GpIbalpha at amino acid 542 or 594, or deletions of residues 542 through 590, inhibited binding of 14-3-3zeta. Deletion of GpIbalpha from Trp(570) to Ser(590) eliminated 14-3-3zeta binding, and deletion of the sequence from Arg(542)-Trp(570) enhanced binding of 14-3-3zeta to GpIbalpha. All GpIbalpha mutations that eliminated GpIbalpha binding to the GST-14-3-3zeta fusion protein also eliminated GpIbbeta binding to the fusion protein. Forskolin treatment of Chinese hamster ovary cells expressing wild-type GpIbalpha/beta/IX resulted in the phosphorylation of GpIbbeta associated with enhanced binding of GpIbbeta to GST-14-3-3zeta fusion protein and increased 14-3-3zeta coimmunoprecipitated with GpIbalpha. When intact human platelets aggregated in response to 90 dynes/cm(2) shear stress, 14-3-3zeta disassociated from GpIbalpha. Prostacyclin treatment of platelets inhibited shear stress-induced aggregation and the release of 14-3-3zeta from GpIbalpha. These data demonstrate that amino acid residues in the cytoskeletal interaction domains of GpIbalpha regulate 14-3-3zeta binding to GpIbalpha/beta/IX, and suggest that protein kinase A-dependent phosphorylation of GpIbbeta enhances 14-3-3zeta binding to the GpIb/IX/V complex in human platelets. (Blood. 2000;95:551-557)
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PMID:Cytoplasmic domains of GpIbalpha and GpIbbeta regulate 14-3-3zeta binding to GpIb/IX/V. 1062 61

Proline-rich tyrosine kinase 2 (Pyk2) (also known as RAFTK, CAKbeta or CADTK) has been identified as a member of the focal adhesion kinase (FAK) family of protein-tyrosine kinases and it has been suggested that the mode of Pyk2 activation is distinct from that of FAK. In the present study we investigated the mode of Pyk2 activation in human platelets. When platelets were stimulated with thrombin, Pyk2, as well as FAK, was markedly tyrosine-phosphorylated, in a manner mostly dependent on alphaIIbbeta3 integrin-mediated aggregation. The residual Pyk2 tyrosine phosphorylation observed in the absence of platelet aggregation was completely abolished by pretreatment with BAPTA/AM [bis-(o-aminophenoxy)ethane-N,N,N',N'-tetra-acetic acid acetoxymethyl ester]. The Pyk2 phosphorylation was inhibited by protein kinase C (PKC) inhibitors at concentrations that inhibited platelet aggregation. In contrast, direct activation of PKC with the active phorbol ester PMA induced the tyrosine phosphorylation of Pyk2 and FAK but only when platelets were fully aggregated with the exogenous addition of fibrinogen (the ligand for alphaIIbbeta3 integrin). Furthermore, PMA-induced Pyk2 (and FAK) tyrosine phosphorylation was also observed when platelets adhered to immobilized fibrinogen. The activation of the von Willebrand factor (vWF)--glycoprotein Ib pathway with botrocetin together with vWF failed to induce Pyk2 (and FAK) tyrosine phosphorylation. Most Pyk2 and FAK was present in the cytosol and membrane skeleton fractions in unstimulated platelets. When platelets were stimulated with thrombin, both Pyk2 and FAK were translocated to the cytoskeleton in an aggregation-dependent manner. In immunoprecipitation studies, Pyk2, as well as FAK, seemed to associate with Shc through Grb2. With the use of glutathione S-transferase fusion proteins containing Shc-SH2, Grb2-SH2, and Grb2 N-terminal and C-terminal SH3 domains, it was implied that the proline-rich region of Pyk2 (and FAK) binds to the N-terminal SH3 domain of Grb2 and that the phosphotyrosine residue of Shc binds to the SH2 domain of Grb2. Although Pyk2 and FAK have been reported to be differentially regulated in many cell types, our results suggest that, in human platelets, the mode of Pyk2 activation is mostly similar to that of FAK, in terms of alphaIIbbeta3 integrin-dependent and PKC-dependent tyrosine phosphorylation. Furthermore, Pyk2, as well as FAK, might have one or more important roles in post-aggregation tyrosine phosphorylation events, in association with the cytoskeleton and through interaction with adapter proteins including Grb2 and Shc.
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PMID:Involvement of proline-rich tyrosine kinase 2 in platelet activation: tyrosine phosphorylation mostly dependent on alphaIIbbeta3 integrin and protein kinase C, translocation to the cytoskeleton and association with Shc through Grb2. 1074 87

The binding of von Willebrand factor (vWF) to glycoprotein (GP) Ib-IX-V stimulates transmembrane signaling events that lead to platelet adhesion and aggregation. Recent studies have revealed that the signaling protein 14-3-3 zeta binds directly to the cytoplasmic domain of GP Ib alpha. In this study, the dynamic association of 14-3-3 zeta with GP Ib-IX, the phosphoinositide 3-kinase (PI 3-kinase), or both, was investigated in resting, thrombin, or vWF and botrocetin-stimulated platelets by analysis of discrete subcellular fractions. Results of this study demonstrate maximal coimmunoprecipitation of 14-3-3 zeta with GP Ib-IX in the nonstimulated cytosolic fraction and in the actin cytoskeletal fraction of thrombin- or vWF-stimulated human platelets. Immunoprecipitated 14-3-3 zeta or GP Ib from cytosolic fractions contained PI 3-kinase enzyme activity and an 85-kd polypeptide recognized by antibodies to the p85 subunit of PI 3-kinase. After platelet activation, the level of association between these species decreased in the cytosolic fraction. However, increased complex formation between 14-3-3 zeta and GP Ib-IX and between PI 3-kinase and GP Ib-IX was detected in actin cytoskeletal fractions derived from thrombin- or vWF-stimulated platelets. Recombinant glutathione S-transferase-14-3-3 zeta fusion protein (14-3-3 zeta-GST) inhibited affinity-captured PI 3-kinase enzyme activity up to 70% at 2 mcmol/L 14-3-3 zeta-GST. However, increasing concentrations up to 5 mcmol/L 14-3-3 zeta-GST resulted in the 3-fold enhancement of PI 3-kinase enzyme activity. We propose that the association between PI 3-kinase and 14-3-3 zeta with GP Ib-IX serves to promote the rapid translocation of these signaling proteins to the activated cytoskeleton, thereby regulating the formation of 3-position phosphoinositide-signaling molecules in this subcellular compartment. (Blood. 2000;96:577-584)
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PMID:Phosphoinositide 3-kinase forms a complex with platelet membrane glycoprotein Ib-IX-V complex and 14-3-3zeta. 1088 21

The binding of von Willebrand factor (VWF) to glycoprotein (GP) Ib-IX-V stimulates transmembrane signaling events that lead to platelet adhesion and aggregation. Recent studies have implied that activation of Src family kinases is involved in GPIb-mediated platelet activation, although the related signal transduction pathway remains poorly defined. This study presents evidence for an important role of Src and GPIb association. In platelet lysates containing Complete, a broad-spectrum protease inhibitor mixture, Src and Lyn dynamically associated with GPIb on VWF-botrocetin stimulation. Cytochalasin D, which inhibits translocation of Src kinases to the cytoskeleton, further increased Src and GPIb association. Similar results were obtained with botrocetin and monomeric A1 domain, instead of intact VWF, with induction of both Src activation and association between GPIb and Src. These findings suggest that ligand binding of GPIb, without receptor clustering, is sufficient to activate Src. Immunoprecipitation studies demonstrated that Src, phosphoinositide 3- kinase (PI 3-kinase), and GPIb form a complex in GPIb-stimulated platelets. When the p85 subunit of PI 3-kinase was immunodepleted, association of Src with GPIb was abrogated. However, wortmannin, a specific PI 3-kinase inhibitor, failed to block complex formation between Src and GPIb. The Src-SH3 domain as a glutathione S-transferase (GST)-fusion protein coprecipitated the p85 subunit of PI 3-kinase and GPIb. These findings taken together suggest that the p85 subunit of PI 3-kinase mediates GPIb-related activation signals and activates Src independently of the enzymatic activity of PI 3- kinase.
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PMID:Interaction between von Willebrand factor and glycoprotein Ib activates Src kinase in human platelets: role of phosphoinositide 3-kinase. 1239 36

The study aimed at characterizing the putative changes in the epitope specificity of anti-FVIII antibodies during a successful immune tolerance treatment of the haemophilia A patient with the factor VIII (FVIII) preparation containing the von Willebrand factor (VWF). At the beginning of treatment, anti-FVIII inhibitory antibodies recognizing predominantly the light chain of FVIII were prevalent and persisted throughout the treatment. More detailed characterization of the FVIII antibody epitope specificity by using GST-fusion proteins corresponding to different FVIII domains revealed the prevalence of C1-domain-specific antibodies, while a remarkably lower amount of antibodies were targeted at the C2 and the a3 domains of the FVIII light chain and towards the A2 and the A1 domain of the FVIII heavy chain. The epitope specificity of antibodies remained rather unchanged throughout treatment except the elevated level of C2-domain-specific FVIII antibodies after a temporary interruption of treatment. The patient's antibodies were unable to interfere with the FVIII binding to VWF or to phospholipids, but inhibited FXa generation and the binding of FX to FVIII on the phospholipid monolayer. Thus, a unique pattern of the epitope specificity of FVIII antibodies and the mechanism to inhibit FVIII:C activity by FVIII-light-chain-specific antibodies were characterized.
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PMID:Epitope specificity of anti-FVIII antibodies during immune tolerance therapy with factor VIII preparation containing von Willebrand factor. 1256 16

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