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)

Bioactive peptides derived from the adhesive plasma protein vitronectin are present at submicromolar concentrations in human hemofiltrate of patients with renal diseases and were isolated by a combination of high-efficiency chromatographic steps. The structural and functional properties of these peptides were characterized. Sequencing and mass spectrometry revealed the existence of peptide isoforms (5-6 kDa) which corresponded to the N-terminus (residues 1 to 44-50) of vitronectin. The isolated peptides bound directly to plasminogen-activator inhibitor-1 (PAI-1) and were effective competitors of the interaction of PAI-1 with isolated intact vitronectin or extracellular matrix. These functional properties were indistinguishable from the binding properties of a recombinant fusion protein containing residues 1-52 of vitronectin linked to a portion of glutathione S-transferase, expressed in Escherichia coli. Peptides containing the RGD sequence of vitronectin competed for vitronectin binding to the alpha v beta 3 integrin. No indication for direct growth-factor binding was noted, whereas natural peptides were found associated with PAI-1 as the major binding protein in plasma. These data demonstrate that functionally active vitronectin-derived peptides are released by unknown protease(s) from the mature protein and that these peptides are identical, in terms of activity, to recombinant vitronectin fragments. These natural peptides may interact with active PAI-1 in plasma or at extravascular sites and thereby interfere with established biological functions of intact vitronectin.
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PMID:Structural and functional characterization of vitronectin-derived RGD-containing peptides from human hemofiltrate. 891 56

Cytokeratin 8 (CK8) is an intermediate filament protein that penetrates to the external surfaces of breast cancer cells and is released from cells in the form of soluble heteropolymers. CK8 binds plasminogen and tissue-type plasminogen activator (t-PA) and accelerates plasminogen activation on cancer cell surfaces. The plasminogen-binding site is located at the C-terminus of CK8. In this study, we prepared GST-fusion proteins which contained either 174 amino acids from the C-terminus of CK8 (CK8f) or 134 amino acids from the C-terminus of CK18 (CK18f). A third GST-CK fusion protein was identical to CK8fexcept that the C-terminal lysine was mutated to glutamine (CK8fK483Q). CK8f bound plasminogen; the K(D) was 0.5 microM. Binding was completely inhibited by epsilonACA. CK8fK483Q also bound plasminogen, albeit with decreased affinity (K(D) approximately 1.5 microM). CK18f did not bind plasminogen at all. All three fusion proteins bound t-PA equivalently, providing the first evidence that CK18 may function as a t-PA receptor, t-PA and plasminogen cross-competed for binding to CK8f. Thus, t-PA and plasminogen cannot bind to the same CK8f monomer simultaneously. Nevertheless, CK8f still promoted plasminogen activation, probably reflecting the fact that CK8f was purified in dimeric or tetrameric form. These studies demonstrate that CK8 may promote plasminogen activation by t-PA only when present in an oligomerized state. CK18 may participate in the oligomer, together with CK8, based on its ability to bind t-PA.
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PMID:Characterization of the binding sites for plasminogen and tissue-type plasminogen activator in cytokeratin 8 and cytokeratin 18. 998 31

Dichloroacetic acid (DCA) is a major by-product of water disinfection by chlorination. Several studies have demonstrated that DCA exhibits hepatocarcinogenic effects in rodents when administered in drinking water. This chemical does not appear to be highly mutagenic, and the mechanism(s) involved in DCA induction of cancer are not clear. The present work was aimed at identifying changes in gene expression which may indicate critical alterations/pathways involved in this chemical's carcinogenic activities. We used cDNA microarray methods for analyses of gene expression in livers of mice treated with the tumorigenic dose of 2 g/l DCA in drinking water for 4 weeks. Total RNA samples obtained from livers of the control and DCA-treated mice were evaluated for gene expression patterns with Clontech Atlas Mouse 1.2 cDNA and Atlas mouse stress/toxicology arrays, and the data analyzed with AtlasImage 2.01 and one-way ANOVA in JMP4 software. From replicate experiments, we identified 24 genes with altered expression, of which 15 were confirmed by Northern blot analysis. Of the 15 genes, 14 revealed expression suppressed two- to five-fold; they included the following: MHR 23A, cytochrome P450 (CYP) 2C29, CYP 3A11, serum paraoxonase/arylesterase 1 (PON 1), liver carboxylesterase, alpha-1 antitrypsin, ER p72, glutathione S-transferase (GST) Pi 1, angiogenin, vitronectin precursor, cathepsin D (CTSD), plasminogen precursor (contains angiostatin), prothrombin precursor and integrin alpha 3 precursor (ITGA 3). An additional gene, CYP 2A4/5, had a two-fold elevation in expression. Further, in ancillary Northern analyses of total RNA isolated from DCA-induced hepatocellular carcinomas (from earlier reported studies of mice treated with 3.5 g/l DCA for 93 weeks), many of the same genes (11 of 15) noted above showed a similar alteration in expression. In summary, we have identified specific genes involved in the functional categories of cell growth, tissue remodeling, apoptosis, cancer progression and xenobiotic metabolism that have altered levels of expression following exposures to DCA. These findings serve to highlight new pathways in which to further probe DCA effects that may be critical to its tumorigenic activity.
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PMID:Altered gene expression in mouse livers after dichloroacetic acid exposure. 1264 86

The kringle 5 domain of plasminogen exhibits potent inhibitory effect on endothelial cell proliferation. It can also cause cell cycle arrest and apoptosis of endothelial cell specifically, and shows promise in anti-angiogenic therapy. It has been prepared via both proteolysis of native plasminogen and recombinant DNA methodologies. When previously expressed in Escherichia coli, recombinant kringle 5 mainly deposited as inactive, insoluble inclusion bodies and the refolding yield was low. In the present study, human kringle 5 was fusion-expressed with GST (gluthathione-S-transferase) under the control of T7 promoter in E. coli. The IPTG-induced GST-kringle 5 was about 20% of the total cellular proteins and, among the expressed GST-kringle 5 proteins, 80% was present in the supernatant. The GST-kringle 5 fusion protein exhibited some anti-proliferation activity towards bovine capillary endothelial cells. After GST-kringle 5 purification, subsequent enterokinase release of intact kringle 5 from the fusion protein and further purification by gluthathione-Sepharose 4B affinity chromatography, the recombinant kringle 5, with a yield of 10.5 mg/L culture, displayed apparent inhibition of endothelial cell proliferation in a dose-dependent manner with ED50 about 20 nM.
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PMID:Expression of biologically active kringle 5 domain of human plasminogen in Escherichia coli. 1570 94

To evaluate the pathogenic potential of Bacillus anthracis-secreted proteases distinct from lethal toxin, two neutral zinc metalloproteases were purified to apparent homogeneity from the culture supernatant of a non-virulent delta Ames strain (pXO1-, pXO2-). The first (designated Npr599) is a thermolysin-like enzyme highly homologous to bacillolysins from other Bacillus species. The second (designated InhA) is a homolog of the Bacillus thuringiensis immune inhibitor A. These proteases belong to the M4 and M6 families, respectively. Both enzymes digested various substrates, including extracellular matrix proteins, endogenous inhibitors, and coagulation proteins, with some differences in specificity. In addition, InhA accelerated urokinase-mediated plasminogen activation, suggesting that InhA acts as a modulator of plasmin in the host inflammatory system. Relevant to epithelial barrier function, Npr599 and InhA significantly enhanced syndecan-1 shedding from cultured normal murine mammary gland cells without affecting their viability through stimulation of the host cell ectodomain shedding mechanism. In addition, Npr599 and InhA directly cleaved recombinant syndecan-1 fused to glutathione S-transferase. Mass spectrometric analysis suggested that the cleavage sites of Npr599 and InhA are the Asp(39)-Asp(40) and Gly(48)-Thr(49) bonds, respectively. We propose that Npr599 and InhA from B. anthracis are multifunctional pathogenic factors that may contribute to anthrax pathology through direct degradation of host tissues, increases in barrier permeability, and/or modulation of host defenses.
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PMID:Secreted neutral metalloproteases of Bacillus anthracis as candidate pathogenic factors. 1692 47

Ligneous periodontitis (LP) is a rare periodontal disease in which plasminogen deficiency and fibrin deposition both play a part, resulting in characteristic gingival enlargement and periodontal breakdown. Recent data suggest that oxidant/antioxidant changes are significant in the pathology of oral diseases. This study examines the gingival histopathology in 2 cases with LP. To examine the antioxidant (AO) status, the activity of the major AOs glutathione (GSH), catalase (CAT), and glutathione S-transferase (GST) and the malondialdehyde (MDA) levels, a product of lipid peroxidation, were measured and compared with healthy control subjects. The histopathologic examination of the gingiva revealed subepithelial fibrin accumulation and irregular extensive downward proliferation of the epithelium. Biochemical analysis showed that the CAT, GST, and MDA levels were higher in LP patients than in the control subjects, and the GSH level was lower. Our preliminary findings show that in LP, the AO capacity of the gingiva changes or decreases and lipid peroxidation increases, which suggests that oxidative stress is involved in the pathology of the periodontal breakdown observed in this disease.
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PMID:Ligneous periodontitis and gingival antioxidant status: report of two cases. 1750 67

Trichomonas vaginalis is a protist that causes the most common human sexually transmitted infection. A T. vaginalis cDNA expression library was screened with pooled sera from patients with trichomoniasis. A highly reactive cDNA clone of 1,428 bp encoded a trichomonad protein of 472 amino acids with sequence identity to alpha-enolase (tv-eno1). The sequence alignment confirmed the highly conserved nature of the enzyme with 65% to 84% identity among organisms. The expression of tv-eno1 was up-regulated by contact of parasites with vaginal epithelial cells, and this is the first report demonstrating up-regulation by cytoadherence of a plasminogen-binding alpha-enolase in T. vaginalis. Immunofluorescence with monoclonal antibody of nonpermeabilized trichomonads showed tv-ENO1 on the surface. The recombinant tv-ENO1 was expressed in Escherichia coli as a glutathione S-transferase (GST)::tv-ENO1 fusion protein, which was cleaved using thrombin to obtain affinity-purified recombinant tv-ENO1 protein (tv-rENO1) detectable in immunoblots by sera of patients. Immobilized tv-rENO1 bound human plasminogen in a dose-dependent manner, and plasminogen binding by tv-rENO1 was confirmed in a ligand blot assay. The plasminogen-specific inhibitor epsilon-aminocaproic acid blocked the tv-rENO1-plasminogen association, indicating that lysines play a role in binding to tv-rENO1. Further, both parasites and tv-rENO1 activate plasminogen to plasmin that is mediated by tissue plasminogen activator. These data indicate that as with other bacterial pathogens, tv-ENO1 is an anchorless, surface-associated glycolytic enzyme of T. vaginalis.
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PMID:Immunogenic and plasminogen-binding surface-associated alpha-enolase of Trichomonas vaginalis. 1807 Sep 2

Staphylokinase (SAK) is reported to have a serine protease domain with no proteolytic activity unlike other plasminogen activators like tissue plasminogen activator (t-PA) and urokinase. A unique protease property of Staphylokinase was observed when SAK was expressed as a fusion protein in inducible Escherichia coli expression vectors. This finding was further investigated by cloning and expressing different SAK fusions, both native and N-terminal deletions, with fusion tags like glutathione S-transferase (GST) and signal sequence of SAK in bacterial system. While all the N-terminal SAK fusions were found to self-cleave in crude and purified preparations, the C-terminal SAK fusion was stable. The cleavage property of Staphylokinase fusion proteins, inhibited by reduced glutathione and PMSF, was independent of its thrombolytic activity and also independent on the type of host employed for its expression. The serine protease domain of the SAK gene possibly lies between 20th to 77th amino acid and serine 41 of this region appears critical for such a cleavage property.
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PMID:Novel self-cleavage activity of Staphylokinase fusion proteins: An interesting finding and its possible applications. 1963 10

The fibrinolytic activity of blood is regulated by expressing tissue-type plasminogen activator (t-PA) and its specific inhibitor, type-1 plasminogen activator inhibitor (PAI-1), from vascular endothelial cells. Since t-PA is a major plasminogen activator in blood, it is considered that the binding protein for t-PA, which exists on endothelial cell membrane, immobilizes t-PA on the surface of endothelial cells and enhances their antithrombotic property. Recently, we have found a new t-PA binding protein in endothelial cells. Its amino acid sequence has matched that of human adenine nucleotide translocase-1 (ANT1). The aims of this study are to confirm the binding of t-PA to ANT1, and to clarify the effect of ANT1 on fibrinolytic activity around endothelial cells. ANT1 is prepared from recombinant glutathione S-transferase (GST)-ANT1 fusion protein, and reveals t-PA binding activity in a ligand blot assay. In addition, ANT1 is exclusively expressed on endothelial cell membrane by using pDisplay vector. Interaction of t-PA with ANT1, which is expressed on the surface of endothelial cells, is confirmed by IAsys binding analysis and chromogenic assay. The heterologous expression of ANT1 on endothelial cell membrane enhances the t-PA binding ability of endothelial cells and the effect of ANT1 expression on fibrinolytic activity is demonstrated by increasing t-PA-catalyzed plasminogen activation. These results suggest that a novel t-PA-binding protein, ANT1, may concentrate t-PA on the surface of cells and enhance fibrinolytic properties around endothelial cells; therefore, ANT1 can be a powerful tool for regulating the plasminogen activation system in the vessel.
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PMID:Enhancement of fibrinolytic activity in vascular endothelial cells by heterologous expression of adenine nucleotide translocase-1. 2016 Jun 40

Paracoccidioidomycosis (PCM), caused by the dimorphic fungus Paracoccidioides brasiliensis, is a disseminated, systemic disorder that involves the lungs and other organs. The ability of the pathogen to interact with host components, including extracellular matrix (ECM) proteins, is essential to further colonization, invasion, and growth. Previously, enolase (EC 4.2.1.11) was characterized as a fibronectin binding protein in P. brasiliensis. Interaction of surface-bound enolase with plasminogen has been incriminated in tissue invasion for pathogenesis in several pathogens. In this paper, enolase was expressed in Escherichia coli as a recombinant glutathione S-transferase (GST) fusion protein (recombinant P. brasiliensis enolase [rPbEno]). The P. brasiliensis native enolase (PbEno) was detected at the fungus surface and cytoplasm by immunofluorescence with an anti-rPbEno antibody. Immobilized purified rPbEno bound plasminogen in a specific, concentration-dependent fashion. Both native enolase and rPbEno activated conversion of plasminogen to plasmin through tissue plasminogen activator. The association between PbEno and plasminogen was lysine dependent. In competition experiments, purified rPbEno, in its soluble form, inhibited plasminogen binding to fixed P. brasiliensis, suggesting that this interaction required surface-localized PbEno. Plasminogen-coated P. brasiliensis yeast cells were capable of degrading purified fibronectin, providing in vitro evidence for the generation of active plasmin on the fungus surface. Exposure of epithelial cells and phagocytes to enolase was associated with an increased expression of surface sites of adhesion. In fact, the association of P. brasiliensis with epithelial cells and phagocytes was increased in the presence of rPbEno. The expression of PbEno was upregulated in yeast cells derived from mouse-infected tissues. These data indicate that surface-associated PbEno may contribute to the pathogenesis of P. brasiliensis.
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PMID:Paracoccidioides brasiliensis enolase is a surface protein that binds plasminogen and mediates interaction of yeast forms with host cells. 2060 75

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