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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)

The number of binding sites and the dissociation constants were determined for the binding of bilirubin to human liver ligandin and to human serum albumin. Albumin has a primary bilirubin binding site (KD = 0.03 microM), measured by the peroxidase procedure, and two apparently equivalent secondary binding sites (KD = 2 microM), determined by fluorescence quenching experiments. By contrast, ligandin does not have a corresponding high affinity site. The absence of this high affinity site was shown both by the peroxidase procedure and by direct competition between albumin and ligandin for bilirubin. Bilirubin binding to ligandin, measured by fluorescence quenching, is complex. At both pH 6.5 and 7.4, two interacting sites were observed with a Hill coefficient of 1.5, K' approximately 5 microM. Bilirubin binding to ligandin is not independent of glutathione S-transferase activity. Depending upon pH and upon the order with which the reactants are added, bilirubin can markedly alter the transferase activity. The results are interpreted in terms of kinetically stable conformational isomers of ligandin induced by bilirubin or by glutathione.
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PMID:Bilirubin binding to human liver ligandin (glutathione S-transferase). 737 7

Organic anions can be excreted from the liver into the bile or back into the general circulation (sinusoidal efflux). It has previously been shown that the net sinusoidal efflux rate of dibromosulfophthalein from the perfused liver into the perfusate is the result of actual efflux from and reuptake into the liver, and can be strongly influenced by the presence of bovine serum albumin in the perfusion medium. The present study investigated whether the influence of albumin on the net sinusoidal efflux process is albumin-specific or whether other binding proteins could have a similar effect on the sinusoidal efflux. Using a single-pass liver perfusion technique and short-lasting (pulse) protein infusions, the stimulatory effect of a wide range of dibromosulfophthalein binding proteins on the sinusoidal efflux process were determined. These experiments showed that all the serum albumins tested as well as the liver cytosolic binding proteins fatty acid binding protein and ligandin (glutathione S-transferase) stimulated this process. The other proteins tested, bovine beta lactoglobulin-b, human gamma globulin and chicken egg lysozyme showed no stimulatory effect, despite relatively high equilibrium binding of dibromosulfophthalein. No clear-cut relationship was found between the equilibrium unbound ligand concentration as measured in perfusate and the stimulatory effect, suggesting absence of equilibrium binding in the sinusoids. Equilibrium binding of dibromosulfophthalein to chicken serum albumin and ligandin as well as the dissociation rate constants were determined in vitro with rapid filtration techniques.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The sinusoidal efflux of dibromosulfophthalein from rat liver is stimulated by albumin, ligandin and fatty acid binding protein but not by other dibromosulfophthalein binding proteins. 752 96

To examine the hypothesis that glutathione S-transferases (GST) play an important role in the hepatocellular transport of hydrophobic organic anions, the kinetics of the spontaneous transfer of unconjugated bilirubin between membrane vesicles and rat liver glutathione S-transferase B (ligandin) was studied, using stopped-flow fluorometry. Bilirubin transfer from glutathione S-transferase B to phosphatidylcholine vesicles was best described by a single exponential function, with a rate constant of 8.0 +/- 0.7 s-1 (+/- SD) at 25 degrees C. The variations in transfer rate with respect to acceptor phospholipid concentration provide strong evidence for aqueous diffusion of free bilirubin. This finding was verified using rhodamine-labeled microsomal membranes as acceptors. Bilirubin transfer from phospholipid vesicles to GST also exhibited diffusional kinetics. Thermodynamic parameters for bilirubin dissociation from GST were similar to those for human serum albumin. The rate of bilirubin transfer from rat liver basolateral plasma membranes to acceptor vesicles in the presence of glutathione S-transferase B declined asymptotically with increasing GST concentration. These data suggest that glutathione S-transferase B does not function as an intracellular bilirubin transporter, although expression of this protein may serve to regulate the delivery of bilirubin, and other nonsubstrate ligands, to sites of metabolism within the cell.
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PMID:Influence of glutathione S-transferase B (ligandin) on the intermembrane transfer of bilirubin. Implications for the intracellular transport of nonsubstrate ligands in hepatocytes. 756 84

Our previous studies (Sidhu JS et al. Arch Biochem Biophys 1993: 301, 103-113; Sidhu JS et al. In Vitro Toxicol 1994: 7, 225-242) demonstrated the importance of culturing primary rat hepatocytes with an overlay of extracellular matrix (ECM), together with optimal media formulations (Williams' E or Chee's), to efficiently maintain in vivo-like responsiveness of phenobarbital (PB)-inducible cytochrome P450 genes in vitro. In the present report, we have characterized culture conditions further by examining individual and interactive effects of dexamethasone (Dex) and PB on CYP2B1, CYP2B2, and CYP3A1 expression. Dex alone was not effective in enhancing CYP2B1 or CYP2B2 expression levels. However, together with PB, addition of low concentrations (10(-9)-10(-8) M) of Dex resulted in a marked potentiation of PB-inducible P450 gene expression. In contrast, at levels > 10(-7) M, Dex profoundly inhibited PB induction of the CYP2B1 and CYP2B2 genes. The overall stimulatory response to Dex was more dramatic in cells cultured in Williams' E than in Chee's medium. Similarly, concentrations of PB > 0.5 mM resulted in substantially reduced levels of CYP2B1 and CYP2B2 induction than those attainable at lower PB concentrations. These results suggest that Dex and PB function cooperatively to regulate the CYP2B1 and CYP2B2 genes, and that composite interactions may either negatively or positively regulate expression, in a concentration-dependent manner. CYP3A1 was not regulated in a similar biphasic fashion, as this gene was fully responsive even at high dose levels of PB or Dex. With respect to other marker genes evaluated, high Dex concentrations (> 10(-7) M) were only marginally inhibitory to beta-naphthoflavone-mediated induction of CYP1A1 and CYP1A2 mRNAs, and did not perturb expression of the liver-selective serum albumin gene. Addition of Dex was critical, however, to maintain glutathione S-transferase Pi expression, a marker of hepatocyte dedifferentiation, in the repressed state. Defining optimal culture conditions for maintaining hepatocyte differentiation in vitro are requisite for establishing primary culture models enabling investigation of the molecular mechanisms of PB-mediated gene regulation.
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PMID:Modulation of xenobiotic-inducible cytochrome P450 gene expression by dexamethasone in primary rat hepatocytes. 777

Liver-type L-arginase is a major urea-cycle enzyme which is strongly induced during amphibian metamorphosis, but little is known about the molecular mechanisms underlying this induction. As a first step towards elucidating the possible mechanisms, we have isolated a cDNA clone for L-arginase from an adult Xenopus laevis liver cDNA library. Sequence comparison of Xenopus liver-type L-arginase cDNA shows a strong conservation at the amino acid level with those of human, rat and yeast. Using a Xenopus arginase cDNA fragment as a hybridization probe, we have shown by Northern blotting that the gene is highly expressed in the liver, and very slightly in kidney and spleen, of adult Xenopus. The expression is developmentally regulated. Only traces of arginase mRNA can be detected in pre-metamorphic tadpoles, but its accumulation increases very markedly at the onset of natural metamorphosis, being maintained at a high concentration constitutively upon completion of this developmental process. Amphibian metamorphosis is under the strict control of thyroid hormones. It is therefore significant that exposure of pre-metamorphic tadpoles (at stages before endogenous thyroid hormone secretion) to exogenous hormone (1 nM triiodothyronine) precociously activated the L-arginase gene. The time course of this precocious hormonal induction paralleled that of serum albumin gene in the liver. Polyclonal antibodies were raised against recombinant Xenopus L-arginase expressed in Escherichia coli as a fusion protein with glutathione S-transferase in the plasmid expression vector pGEX. Western blotting using this antibody showed that, although arginase mRNA is present in high concentration in Xenopus tadpole liver at the onset of natural metamorphosis, the protein is detected only upon its completion. Our results show a complex transcriptional and post-transcriptional regulation of the Xenopus liver-type L-arginase gene during post-embryonic development. They also demonstrate that this gene can be exploited as a target for thyroid hormones in further studies to analyze the mechanisms underlying the establishment of the adult phenotype during amphibian metamorphosis.
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PMID:Developmental and hormonal regulation of the Xenopus liver-type arginase gene. 791 84

We previously reported the isolation from Entamoeba histolytica of a novel rac family protein kinase gene, termed Ehrac1, for "related to cAMP-dependent protein kinases and protein kinase Cs". To study the function and properties of this kinase gene further, we fused the full-length coding region and the truncated catalytic domain of the Ehrac1 gene in frame with the gene encoding glutathione S-transferase in the pGEX-KG vector and expressed the fusion in Escherichia coli. The thrombin-cleaved and uncleaved fusion proteins, GST-Ehrac1 and GST-Ehrac1-c (catalytic domain), were purified and found to exhibit similar protein kinase activities. The Ehrac1 fusion kinase was found to phosphorylate serine/threonine residues exclusively in vitro. The preferred substrate for the enzyme was histone H1 with a Km of approx. 14 microM. Histone H3 and kemptide were phosphorylated at about half the rate of histone H1. Protamine, enolase, bovine serum albumin, and poly (Glu:Tyr) were not substrates for the enzyme. The protein kinase activity was higher in the presence of Mn2+ than Mg2+. Neither cAMP, Ca2+, nor Ca2+/calmodulin stimulated enzyme activity. The pH optimum of the enzyme was 7.5. The Ehrac1 kinase can utilize GTP as well as ATP as a phosphate donor with an apparent Km of 80 microM. Enzyme activity was inhibited 30-40% by a crude cAMP-dependent protein kinase inhibitor from rabbit and by thiol reagents. The expression and purification of enzymatically active Ehrac1 protein kinase should allow further analysis of the regulation and signal transduction pathways of E. histolytica.
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PMID:Expression and characterization of a rac family protein kinase of Entamoeba histolytica. 798 73

Glutathione S-transferase from an Aedes albopictus cell line, C6/36, was purified to apparent homogeneity by a single glutathione-Sepharose 4B affinity chromatography, with an overall yield of 66% and 226-fold purification. The enzyme is presumably a homodimer with subunit M(r) 23,000, which is similar to the enzyme isolated from other sources. Under native conditions, the enzyme exhibited multiple forms upon isoelectric focusing or polyacrylamide gel electrophoresis, and all these forms retained enzymatic activity. The pI value of the purified enzyme was distributed between approximately 4.7 and 5.4 with major form at 4.9. The purified enzyme lost 63% activity at -20 degrees C within 1 week. Stability of the purified enzyme was greatly improved by the addition 10 mg/ml of bovine serum albumin, under which only 7% activity was lost after 1 week at -20 degrees C. Activation energy for the enzyme-catalyzed conjugation of glutathione with 1-chloro-2,4-dinitrobenzene was found to be 49.1 kJ/mol. The enzyme could utilize 1-chloro-2,4-dinitrobenzene and ethacrynic acid as substrate, but not bromosulfophthalein, cumene hydroperoxide, or trans-4-phenyl-3-buten-2-one. The initial-velocity and product-inhibition studies indicated that the enzyme reaction conformed to a steady-state random Bi-Bi kinetic mechanism, which was similar to the glutathione S-transferase from other sources. The kinetic data also indicated a synergistic effect between the binding of glutathione G-site and that of organic electrophilic substrate in the H-site of the enzyme active center. The biological significance of the conjugation reaction is discussed.
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PMID:Purification and kinetic mechanism of the glutathione S-transferase from C6/36, an Aedes albopictus cell line. 816 Nov 96

We previously demonstrated that Treponema pallidum cells incubated in vitro in the presence of heat-inactivated normal rabbit serum (HINRS) synthesize, in very small quantities, several pathogen-specific, low-molecular-mass proteins that appear to be localized extracellularly. In this study, we have taken advantage of our ability to metabolically radiolabel T. pallidum cells to high specific activity to further characterize these antigens. We found that the low-molecular-mass proteins are not related to the 15- and 17-kDa detergent-phase proteins (J. D. Radolf, N. R. Chamberlain, A. Clausell, and M. V. Norgard, Infect. Immun. 56:490-498, 1988). The low-molecular-mass proteins did not incorporate 3H-labeled fatty acids and were not precipitated by rabbit immunoglobulin G (IgG) antibodies directed against glutathione S-transferase fusions to the nonlipidated 15- and 17-kDa proteins. We prepared polyclonal antisera to the low-molecular-mass proteins by immunizing two rabbits with the concentrated supernatant of T. pallidum cells. IgG antibodies present in the sera of both rabbits precipitated a 21.5-kDa protein from solubilized extracts of T. pallidum supernatant and cells. IgG antibodies in the serum of the second rabbit precipitated an additional 15.5-kDa low-molecular-mass protein only from solubilized extracts of supernatant. While investigating the effect of eliminating HINRS from the extraction medium, we observed that the low-molecular-mass proteins remained associated with treponemal cells that were incubated in the absence of HINRS. These proteins could be eluted from the cells by the addition of HINRS or rabbit serum albumin, suggesting that they are located on or near the treponemal cell surface. The 15.5- and 21.5-kDa low-molecular-mass proteins were not washed off treponemal cells with buffer containing 1 M KCl. Experiments employing selective solubilization of the T. pallidum outer membrane with 0.1% Triton X-114 and proteinase K accessibility indicated that the 15.5-kDa protein, but not the 21.5-kDa protein, is cell surface exposed.
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PMID:Characterization of the low-molecular-mass proteins of virulent Treponema pallidum. 826 39

Recombinant glutathione S-transferase P (GST-P) was purified in a homogeneous state. Fatty acid analysis of the enzyme revealed that the final enzyme preparation endogenously bound fatty acids, mostly palmitic acid or stearic acid, which were difficult to dissociate from the complex. Temperature-dependent analysis by 1H NMR indicated that the molecular motion of fatty acids was strongly restrained under physiological conditions, which was significantly different from that of serum albumin. On the other hand, there existed another hydrophobic ligand-binding region in GST-P, to which 1-amino-8-naphthalenesulfonic acid and bilirubin would bind with relatively lower affinity than the endogenously bound fatty acid. The hydrophobic ligand-binding region was determined to be around 141-156 residues from the N-terminus by procedures including association of the enzyme to fatty acid-linked Sepharose and affinity labeling with fluorescent fatty acid. Furthermore, circular dichroism analysis showed that the binding of hydrophobic ligand to GST-P produced a remarkable conformational change of the enzyme, which led to states devoid of transferase activity. In addition, the hydrophobic ligand binding caused a significant fluorescence quenching of tryptophan 38, which was assumed to be located at the active center of GST-P. It could be the result of a conformational change of the active center of the enzyme.
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PMID:Identification of the hydrophobic ligand-binding region in recombinant glutathione S-transferase P and its binding effect on the conformational state of the enzyme. 847 Aug 90

alpha2-Macroglobulin (alpha2M) functions as a major carrier of transforming growth factor-beta (TGF-beta) in vivo. The goal of this investigation was to characterize the TGF-beta-binding site in alpha2M. Human alpha2M, which was reduced and denatured to generate 180-kDa subunits, bound TGF-beta1, TGF-beta2, and NGF-beta in ligand blotting experiments. Cytokine binding was not detected with bovine serum albumin that had been reduced and alkylated, and only minimal binding was detected with purified murinoglobulin. To localize the TGF-beta-binding site in alpha2M, five cDNA fragments, collectively encoding amino acids 122-1302, were expressed as glutathione S-transferase (GST) fusion proteins. In ligand blotting experiments, TGF-beta2 bound only to the fusion protein (FP3) that includes amino acids 614-797. FP3 bound 125I-TGF-beta1 and 125I-TGF-beta2 in solution, preventing the binding of these growth factors to immobilized alpha2M-methylamine (alpha2M-MA). The IC50 values were 33 +/- 5 and 26 +/- 6 nM for TGF-beta1 and TGF-beta2, respectively; these values were comparable with or lower than those determined with native alpha2M or alpha2M-MA. A GST fusion protein that includes amino acids 798-1082 of alpha2M (FP4) and purified GST did not inhibit the binding of TGF-beta to immobilized alpha2M-MA. FP3 (0.2 microM) neutralized the activity of TGF-beta1 and TGF-beta2 in fetal bovine heart endothelial (FBHE) cell proliferation assays; FP4 was inactive in this assay. FP3 also increased NO synthesis by RAW 264.7 cells, mimicking an alpha2M activity that has been attributed to the neutralization of endogenously synthesized TGF-beta. Thus, we have isolated a peptide corresponding to 13% of the alpha2M sequence that binds TGF-beta and neutralizes the activity of TGF-beta in two separate biological assays.
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PMID:Localization of the binding site for transforming growth factor-beta in human alpha2-macroglobulin to a 20-kDa peptide that also contains the bait region. 958 81


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