Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Crude cell-free extracts of nine strains of Streptomyces tested for nitroalkane-oxidizing activity showed production of nitrous acid from 2-nitropropane, 1-nitropropane, nitroethane, nitromethane, and 3-nitropropionic acid. These substrates were utilized in most strains but to a decreasing extent in the order given, and different strains varied in their relative efficiency of oxidation. p-Nitrobenzoic acid, p-aminobenzoic acid, enteromycin, and omega-nitro-l-arginine were not attacked. d-Amino acid oxidase, glucose oxidase, glutathione S-transferase, and xanthine oxidase, enzymes potentially responsible for the observed oxidations in crude cellfree extracts, were present at concentrations too low to play any significant role. A nitroalkane-oxidizing enzyme from streptozotocin-producing Streptomyces achromogenes subsp. streptozoticus was partially purified and characterized. It catalyzes the oxidative denitrification of 2-nitropropane as follows: 2CH(3)CH(NO(2))CH(3) + O(2) --> 2CH(3)COCH(3) + 2HNO(2). At the optimum pH of 7.5 of the enzyme, 2-nitropropane was as good a substrate as its sodium salt; t-nitrobutane was not a substrate. Whereas Tiron, oxine, and nitroxyl radical acted as potent inhibitors of this enzyme, superoxide dismutase was essentially without effect. Sodium peroxide abolished a lag phase in the progress curve of the enzyme and afforded stimulation, whereas sodium superoxide did not affect the reaction. Reducing agents, such as glutathione, reduced nicotinamide adenine dinucleotide, and nicotinamide adenine dinucleotide phosphate, reduced form, as well as thiol compounds, were strongly inhibitory, but cyanide had no effect. The S. achromogenes enzyme at the present stage of purification is similar in many respects to the enzyme 2-nitropropane dioxygenase from Hansenula mrakii. The possible involvement of the nitroalkane-oxidizing enzyme in the biosynthesis of antibiotics that contain a nitrogen-nitrogen bond is discussed.
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PMID:Nitroalkane oxidation by streptomycetes. 3 65

Ligandin (Y protein) is an abundant cytoplasmic glutathione transferase present in liver, kidney and gut in various animals and man. Its interaction with four radiologic contrast media (Telepaque, 3-(3 amino-2,4,6, triiodophenyl -2 ethylpropanoic acid, sodium salt; Hypaque, sodium -3, 5-diacetamido-2,4,6,-triiodobenzoate; Cholografin, N,N'adipyl-bis-(3-amino-2,4,6-triiodobenzoic acid) N-methyl-glucosamine; Diodrast, 3,5-Diiodo-4-pyridone-N-acetic acid, Diethanolamine Salt was investigated by observing inhibitory effects on the enzyme-catalyzed conjugation of glutathione with 1-chloro-2, 4-dinitrobenzene. Lineweaver-Burk plots of reciprocal initial velocity versus reciprocal inhibitor concentrations at fixed glutathione and chlorodinitrobenzene concentrations demonstrate non-competitive inhibition by all contrast media except Diodrast. No conjugates of contrast media with glutathione were formed. It is postulated that intracellular accumulation of contrast media is aided by intracellular binding with ligandin. Inhibition of the GSH transferase activity of ligandin can disrupt the mercapturate formation, an important detoxification process.
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PMID:Interaction of ligandin with radiographic contrast media. 100 14

Signal transduction by dioxin (2,3,7,8-tetrachloro-dibenzo-p-dioxin) is mediated by the intracellular dioxin receptor which, in its dioxin-activated state, regulates transcription of target genes encoding drug metabolizing enzymes such as cytochrome P-450IA1 and glutathione S-transferase Ya. Upon binding of dioxin the receptor translocates from the cytoplasm to the nucleus in vivo and is converted from a latent non-DNA binding form to a species which binds to dioxin-responsive positive control elements in vitro. The latent receptor form is associated with an inhibitory protein (the 90-kDa heat shock protein, hsp90), the release of which is necessary to unmask the DNA binding activity of the receptor. Here we have established a protocol to disrupt the hsp90-receptor complex in the absence of ligand. We show that it was possible to covalently cross-link with dioxin only the hsp90-associated form of dioxin receptor. In contrast, the disrupted hsp90-free form of receptor did not form a stable complex with dioxin but bound DNA constitutively. Moreover, we could partially reconstitute the ligand binding activity of the salt-disrupted hsp90-free dioxin receptor by incubation with hsp90-containing reticulocyte lysate but not by incubation with wheat germ lysate which lacks immuno-detectable levels of hsp90. Thus, we demonstrate that the dioxin receptor loses its high affinity ligand binding activity following release of hsp90 and that it is possible to reverse this process. In conclusion, hsp90 appears to play dual roles in the modulation of functional activities of the dioxin receptor: (i) it represses the intrinsic DNA binding activity of the receptor and (ii) it appears to determine the ability of the receptor to assume and/or maintain a ligand binding conformation.
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PMID:Dual roles of the 90-kDa heat shock protein hsp90 in modulating functional activities of the dioxin receptor. Evidence that the dioxin receptor functionally belongs to a subclass of nuclear receptors which require hsp90 both for ligand binding activity and repression of intrinsic DNA binding activity. 132 28

For assessment of the carcinogenic potential and the mutagenicity of dipyrone, an antipyretic anodyne, -[(2,3-dihydro-1,5-dimethyl-3-oxo-2-phenyl-1H-pyrazol-4-yl) methylamino]-methanesulfonic acid sodium salt monohydrate, three experiments were conducted using dipyrone A produced in Japan and/or dipyrone B obtained from the Federal Republic of Germany. (i) Carcinogenic potential of dipyrone A for rat liver: 8 week old male F344 rats were pretreated with 0.01% diethylnitrosamine (DEN) in drinking water for 2 weeks and, after 1 week of resting, administered 0.4% dipyrone in drinking water, 5 days a week, for 72 weeks. After an 8 week recovery period, all surviving rats were killed at 83 weeks. Hepatocellular carcinomas developed at a higher incidence in the DEN + dipyrone group (18 of 29 rats, 62%) than in the DEN alone group (9 of 29 rats, 31%), the difference being statistically significant (P less than 0.05). No carcinogenic activity of dipyrone was demonstrated in the groups given 0.4% dipyrone for 72 weeks or 0.4% dipyrone for 25 weeks, followed by 0.05% phenobarbital (PB) for 50 weeks. However, glutathione S-transferase P positive (GST-P+) preneoplastic hepatic foci in these groups were observed at a higher incidence than in the untreated control group (P less than 0.01). (ii) Effect of dipyrone A and dipyrone B on induction of DEN-initiated GST-P+ hepatic foci in a medium-term bioassay system: 0.4% dipyrone A in drinking water and 0.57% dipyrone A or dipyrone B in powdered diet after DEN initiation had similar enhancing effects on the development of GST-P+ foci (P less than 0.001). (iii) The Ames mutation test in Salmonella: both dipyrone A and dipyrone B proved weakly mutagenic for strain TA100 in the presence or absence of S9 fraction.
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PMID:Tumor promoting potential in male F344 rats and mutagenicity in Salmonella typhimurium of dipyrone. 207 Apr 86

We have previously shown that a 30 kDa DNA-binding protein isolated from rat cell nuclei exhibits the chemical and immunological properties of glutathione S-transferase Yb subunits [Bennett, Spector & Yeoman (1986) J. Cell Biol. 102, 600-609]. It was of interest, therefore, to determine whether Yb subunits isolated from rat liver nuclei would return to nuclear fractions upon reintroduction to cell cytoplasms via red-blood-cell-mediated fusion. Labelled Yb subunits were associated with nuclear fractions 60 min after cell fusion. The microinjected protein remained associated with the nuclei for 18 h and was not extractable with low-salt washes. In addition, injected Yb subunits were found to equally distribute between extractable (56%) and residual (44%) nuclear fractions. These experiments demonstrate that glutathione S-transferase Yb subunits isolated from nuclei rapidly translocate to nuclei upon reintroduction into cell cytoplasms.
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PMID:Microinjected glutathione S-transferase Yb subunits translocate to the cell nucleus. 368 37

Salmon from salt water have three classes of soluble hepatic glutathione S-transferases which can be separated from cytosol by affinity chromatography and chromatofocusing. The classes have different substrate specificities and kinetic properties. All the enzymes are dimeric proteins. There are immunologically distinct subunits of Mrs 22.4, 23.0 and 24.0 kDa. Fish killed in August have enzymes with different apparent isoelectric points and subunit compositions than fish killed in February. The glutathione S-transferase activity of fresh-water salmon is similar to that of February salt-water fish except that the former binds less avidly to S-hexylglutathione-Sepharose 6B.
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PMID:Purification and properties of the hepatic glutathione S-transferases of the Atlantic salmon (Salmo salar). 394 8

Noninbred Long-Evans rats fed the reduced form of glutathione (GSH) 2 hours before injection with 7,12-dimethylbenz[a]anthracene [(DMBA) CAS: 57-97-6)] showed a significant suppression of DMBA-induced chromosome aberrations (CA) in bone marrow cells. However, rats given injections of ethyl maleate [(EM) CAS: 141-05-9; (z)-2-butenedioic acid diethyl ester] 0.5 or 2 hours before being killed showed a remarkable fall in the hepatic GSH level. Furthermore, the administration of EM and bromosulfophthalein [CAS: 71-67-0; 3,3'-(4,5,6,7-tetrabromo-3-oxo-1(3H)-isobenzofuranylidene) bis(6-hydroxy)benzenesulfonic acid disodium salt] shortly before the DMBA injection inhibited the suppressive effects of Sudan III on DMBA-induced CA. A clear positive correlation was found between the capacity of Sudan III and related azo dyes to protect against DMBA-induced CA in bone marrow cells and glutathione transferase (GST) activity toward 1-chloro-2,4-dinitrobenzene in the liver cytosol induced by these azo dyes. DMBA activation with hepatic S-9 obtained from rats treated by polychlorinated biphenyls (PCB), phenobarbital, and Sudan III in the Ames system was high in this order as was also the case for the cytochrome P450 content. The addition of GSH to the Ames system containing S-9 from PCB-treated rats resulted in a substantial loss in the mutagenicity of DMBA. The present results suggest that GST and GSH play important roles in DMBA inactivation in rats previously administered Sudan III.
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PMID:Induction of hepatic glutathione transferase and suppression of 7,12-dimethylbenz[a]anthracene-induced chromosome aberrations in rat bone marrow cells by Sudan III and related azo dyes. 620 95

A simple and sensitive assay for glutathione transferase activity on polyacrylamide gel is described. The method is based on the fast reduction of nitroblue tetrazolium salt by glutathione. Blue insoluble formazan colors the gel except in the glutathione transferase area. The stable and defined colorless zone is still detectable with 0.005 unit enzyme. This technique has been successfully applied with enzyme preparations of human heart and other tissues.
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PMID:Detection of glutathione transferase activity on polyacrylamide gels. 653 39

We have previously reported that the hyaluronan (HA) receptor RHAMM (Receptor for HA Mediated Motility) [Turley et al., 1991] contains two HA binding motifs located within a 35 amino acid region of its C-terminus end [Yang et al., 1993] and that HA stimulation of the motility of ras-transformed fibroblasts is mediated via its interaction with RHAMM. Here we show that RHAMM also contains binding sites for heparin (HP) and that interaction of HP with these sites can regulate the locomotion of ras-transformed fibroblasts. At low concentrations (0.01 mg/ml), HP inhibited HA-induced locomotion of ras-transformed cells in a manner independent of RHAMM. At higher, but still physiological concentrations (0.1 mg/ml), HP alone stimulated cell locomotion and this stimulation appeared to be RHAMM-dependent as it was blocked by anti-RHAMM antibodies. Other related glycosaminoglycans such as chondroitin sulfate and dermatin sulfate had no effect on cell motility. In ligand blotting assays, GST-RHAMM fusion protein was shown to bind biotin-labelled HP and this binding was displaceable with unlabelled HP. In similar ligand binding analyses conducted with truncations of RHAMM fusion protein, the HP binding region was found to be localized in the same 35 amino acid segment of RHAMM that contains the two HA binding domains. Synthetic peptides corresponding to these HA binding domains were retained on and bound effectively to an HP-Sepharose affinity column. Fusion proteins generated by linkage of these peptides to the non-HP binding amino terminus of RHAMM conferred HP binding capacity to the genetically engineered proteins. Conversely, deletion of the HA binding domains of RHAMM resulted in fusion proteins devoid of HP binding activity. The relative affinities of RHAMM for HA and HP, as determined by competition and transblot assays as well as quantification of binding at various salt concentrations, indicated that RHAMM had lower affinity for HP than that for HA. These results demonstrate the existence of a new HP binding motif that has biological relevance to cell locomotion.
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PMID:Identification of a novel heparin binding domain in RHAMM and evidence that it modifies HA mediated locomotion of ras-transformed cells. 753 13

beta Subunits of voltage-dependent Ca2+ channels play an important role in regulating Ca2+ channel function. The sites of alpha 1-beta subunit interaction have been localized recently to cytoplasmic domains of both subunits. The alpha 1 subunit interaction domain (AID) is an 18-amino-acid conserved motif located between repeats I and II on all alpha 1 subunits which is essential for the binding of beta subunits. In order to further study the interaction of beta subunits with AID, we have expressed a 50-amino-acid glutathione S-transferase (GST) fusion protein from the alpha 1A subunit that contains the AID. Mutant GST fusion proteins that contain a single amino acid change (Y392S, Y392F, and Y392W) in the AIDA along with control GST were coupled to glutathione-Sepharose beads to form affinity beads. Binding assays using these affinity beads with in vitro synthesized 35S-labeled beta 2 and beta 3 subunits demonstrate that the hydroxyl group on tyrosine 392 of AIDA is critical for binding to beta subunits. The affinity bead assay was also used to identify and characterize native beta subunits from detergent extracts of different tissues. The AIDA affinity beads, but not the control or Y392S beads, specifically bind beta subunits from detergent extracts of skeletal muscle, cardiac muscle, and brain. Immunoblot analyses demonstrate the presence of beta 1a in skeletal muscle, beta 2 and beta 3 in cardiac muscle, and beta 1b, beta 3, and beta 4 in brain. The assays also demonstrate the AIDA beads bind to beta subunits from tissue homogenates extracted with low salt and no detergent suggesting the existence of a pool of beta subunits which is not always associated with alpha 1 subunits. Also, beta subunits from solubilized skeletal muscle triads can be affinity-purified using AIDA CNBr-Sepharose. Our data demonstrate that the AID binds to native beta subunits from detergent and non-detergent tissue extracts illustrating that this domain on the alpha 1 subunit is the major anchoring site for the beta subunit.
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PMID:Association of native Ca2+ channel beta subunits with the alpha 1 subunit interaction domain. 762 19


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