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)

The roles of tyrosine 9 and aspartic acid 101 in the catalytic mechanism of rat glutathione S-transferase YaYa were studied by site-directed mutagenesis. Replacement of tyrosine 9 with phenylalanine (Y9F), threonine (Y9T), histidine (Y9H), or valine (Y9V) resulted in mutant enzymes with less than 5% catalytic activity of the wild type enzymes. Kinetic studies with purified Y9F and Y9T mutants demonstrated poor catalytic efficiencies which were largely due to a drastic decrease in kcat. The estimated pK alpha values of the sulfhydryl group of glutathione bound to Y9F and Y9T mutant enzymes were 8.5 to 8.7, similar to the chemical reaction, in contrast to the estimated pK alpha value of 6.7 to 6.8 for the glutathione enzyme complex of wild type glutathione S-transferase. These results indicate that tyrosine 9 is directly responsible for the lowering of the pKa of the sulfhydryl group of glutathione, presumably due to the stabilization of the thiolate anion through hydrogen bonding with the hydroxyl group of tyrosine. To examine the role of aspartic acid in the binding of glutathione to YaYa, 4 conserved aspartic acid residues at positions 61, 93, 101, and 157 were changed to glutamic acid and asparagine. All mutant enzymes retained either full or partial activity except D157N, which was virtually inactive. Kinetic studies with four mutant enzymes (D93E, D93N, D101E, and D101N) indicate that only D101N exhibited a 5-fold increase in Km toward glutathione. Also, the binding of this mutant to the affinity column was greatly reduced. These results demonstrate that aspartic acid 101 plays an important role in glutathione interaction to YaYa. The role of aspartic acid 157 in catalysis remains to be determined.
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PMID:Site-directed mutagenesis of glutathione S-transferase YaYa. Important roles of tyrosine 9 and aspartic acid 101 in catalysis. 140 Mar 2

The rat cytosolic glutathione S-transferase Ya subunit contains three histidine residues (at positions 8, 143, and 159), two cysteine residues (at positions 18 and 112), and a single tryptophan residue (at position 21). Histidine, cysteine, and tryptophan have been proposed to be present either near or at the active site of other glutathione S-transferase subunits. The functional role of these amino acids at each of the positions was evaluated by site-directed mutagenesis in which valine or asparagine, alanine, and phenylalanine were substituted for histidine, cysteine, and tryptophan, respectively. Mutant enzymes H8V, H143V, H159N, C112A, and W21F retained either full or better catalytic efficiencies (k(cat)/Km) toward 1-chloro-2,4-dinitrobenzene and glutathione. Lower but significant k(cat)/Km values were observed for H159V and C18A toward 1-chloro-2,4-dinitrobenzene. Some mutants displayed different thermal stabilities and intrinsic fluorescence intensities, but all retained the ability to bind heme. These results indicate that histidine, cysteine, and tryptophan in the glutathione S-transferase Ya subunit are not essential for catalysis nor are they involved in the binding of heme to the YaYa homodimer.
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PMID:Site-directed mutagenesis of glutathione S-transferase YaYa: functional studies of histidine, cysteine, and tryptophan mutants. 163 85

In order to examine the roles of cysteine and histidine residues in the activity of human class Pi glutathione S-transferase (GST pi), site-directed mutagenesis was used to replace each of the four cysteine residues (at positions 14, 47, 101 and 169) with serine and each of the two histidine residues (at positions 71 and 162) with asparagine using a cDNA for the enzyme (Kano, T. et al. (1987) Cancer Res., 47, 5626-5630) and an E. coli expression system. The replacements of Cys101, Cys169, His71 and His162 did not affect the GSH-conjugating activity toward 1-chloro-2,4-dinitrobenzene and ethacrynic acid. On the other hand, the activities were partly decreased by the replacements of Cys47 and Cys14. These results indicated that the cysteine and histidine residues in GST pi are not essential for the catalytic activity, although Cys47 and Cys14 may contribute to some extent to the catalytic efficiency.
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PMID:Non-essentiality of cysteine and histidine residues for the activity of human class PI glutathione S-transferase. 175 56

A cDNA encoding a rat liver glutathione S-transferase Ya subunit has been expressed in Escherichia coli and the expressed enzyme purified to homogeneity. In order to examine the catalytic role of histidine in the glutathione S-transferase Ya homodimer, site-directed mutagenesis was used to replace all three histidine residues (at positions 8, 143, and 159) by other amino acid residues. The replacement of histidine 8 or histidine 143 with valine did not affect the 1-chloro-2,4-dinitrobenzene-conjugating activity nor the isomerase activity. However, the replacement of histidine with valine at position 159 produced the mutant GST which exhibited only partial activity. A greater decrease in catalytic activity was observed by histidine----tyrosine or histidine----lysine replacement at position 159. On the other hand, the histidine 159----asparagine mutant retained full catalytic activity. Our results indicate that histidine residues in the Ya homodimer are not essential for catalytic activity. However, histidine 159 might be critical in maintaining the proper conformation of this enzyme since replacement of this amino acid by either lysine or tyrosine did result in significant loss of enzymatic activity.
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PMID:Site-directed mutagenesis of glutathione S-transferase YaYa: nonessential role of histidine in catalysis. 189 79

To test the proposition that a histidine residue is essential in the catalytic mechanism of glutathione S-transferase, rat liver isoenzyme 3-3 specifically labeled with [ring-2-13C]histidine was prepared. The 13C NMR spectrum of the labeled enzyme revealed four resonances corresponding to the 4 histidine residues in the mu gene class type 3 subunit. Titration of the four resonances in the range of pH 4-9 both in the presence and absence of glutathione gave pK alpha values of much less than 4, 5.2, 7.1, and 7.8 for the four side chains that were identified by site-specific mutagenesis as His14, His83, His84, and His167, respectively. The magnetic resonance properties and titration behavior of His14 suggest that this residue is buried in a hydrophobic environment. Conservative replacement of each histidine with asparagine results in mutant enzymes that have catalytic properties very close to the native protein as assessed with three different substrates, 1-chloro-2,4-dinitrobenzene, 4-phenyl-3-buten-2-one, and phenanthrene 9,10-oxide. The results indicate clearly that none of the histidine residues of isoenzyme 3-3 is essential for stabilization of the bound glutathione thiolate or for any other aspect of catalysis.
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PMID:Are the histidine residues of glutathione S-transferase important in catalysis? An assessment by 13C NMR spectroscopy and site-specific mutagenesis. 191 58

cDNA encoding the more acidic form, glutathione transferase (GST) psi, of the polymorphic Mu-class GSTs discovered in liver, was mutated in the 5'-end to create an NcoI site, facilitating cloning into the expression plasmid pKK233-2. The protein expressed from this construct has a point mutation Pro-2----Ala-2, but gives a catalytically functional protein. Back-mutation of the codon for amino acid residue 2 gave rise to a plasmid expressing the wild-type enzyme GST psi, or GST Mu1b-1b. A variant cDNA, differing only in specifying lysine rather than asparagine in position 173 of the coding region, was generated by site-directed mutagenesis. The variant sequence corresponds to another cDNA clone isolated from a human liver cDNA library and expresses the near-neutral GST mu, or GST Mu1a-1a. The two recombinant proteins GST Mu1a-1a and GST Mu1b-1b, by physicochemical as well as kinetic criteria, were found to be indistinguishable from GST mu and GST psi respectively, isolated from human liver. It is therefore concluded that the recombinant proteins correspond to the allelic variants observed in the human population. The two forms have different isoelectric points and correspond to the allelic variants observed in the human population. The two forms have different isoelectric points and their protein subunits can be separated by h.p.l.c. on a reverse-phase column. With standard substrates and inhibitors no differences in kinetic parameters between the two variants were detected. The mutated GST Mu1b-1b (Pro-2----Ala) was not significantly different in catalytic properties from the wild-type enzyme, even though Pro-2 is a well conserved amino acid residue in the known Mu-class GSTs.
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PMID:Heterologous expression of the allelic variant mu-class glutathione transferases mu and psi. 204 77

The levels of cytochrome P-450 in hepatocytes cultured as monolayers for 22 hrs in Dulbecco's modified Eagle medium supplemented with serum and insulin was reduced to approximately 40% of initial values of freshly isolated hepatocytes. In correspondence with this the activities of the cytochrome P-450 monooxygenases aryl hydrocarbon (benzo(a)pyrene) hydroxylase (AHH) and ethylmorphine (EM) N-demethylase were reduced to 40 and 22% of their initial activities, respectively. Modifying the culture medium through omission of cysteine and cystine, and adding dexamethazone and delta-amino levulinic acid, increased the content of cytochrome P-450 to 59% and EM N-demethylase to 46% of initial values, but was without effect on AHH activity. However, further modifications by adding high concentrations of asparagine and leucine increased AHH activity to 62% of initial values, but did not further enhance the total content of cytochrome P-450 or the EM N-demethylase activity. The activities of cytochrome P-450 reductase, flavin containing monooxygenase, epoxide hydrolase and glutathione S-transferase decreased less (to about 70-80% of initial values) than cytochrome P-450 associated monooxygenase activities, whereas UDP-glucuronyl transferase decreased to about 50% of initial values. In contrast to what was observed regarding cytochrome P-450 and associated monooxygenase activities, modification of the incubation conditions did not affect the non-cytochrome P-450 enzymatic activities.
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PMID:Drug metabolism activities of isolated rat hepatocytes in monolayer culture. 688 Jul 70

The procedure developed for purification of the N-ethylmaleimide-activated microsomal glutathione transferase was applied successfully to isolation of this same enzyme in unactivated form. The microsomal glutathione transferases, the unactivated and activated forms, were shown to be identical in terms of molecular weight, immunochemical properties, and amino acid composition. In addition the microsomal glutathione transferase purified in unactivated form could be activated 15-fold with N-ethylmaleimide to give the same specific activity with 1-chloro-2,4-dinitrobenzene as that observed for the enzyme isolated in activated form. This activation involved the binding of one molecule N-ethylmaleimide to the single cysteine residue present in each polypeptide chain of the enzyme, as shown by amino acid analysis, determination of sulfhydryl groups by 2,2'-dithiopyridyl and binding of radioactive N-ethylmaleimide. Except for the presence of only a single cysteine residue and the total absence of tryptophan, the amino acid composition of the microsomal glutathione transferase is not remarkable. The contents of aspartic acid/asparagine + glutamic acid/glutamine, of basic amino acids, and of hydrophobic amino acids are 15%, 12% and 54% respectively. The isoelectric point of the enzyme is 10.1. Microsomal glutathione transferase conjugates a wide range of substrates with glutathione and also demonstrates glutathione peroxidase activity with cumene hydroperoxide, suggesting that it may be involved in preventing lipid peroxidation. Of the nine substrates identified here, the enzymatic activity towards only two, 1-chloro-2,4-dinitrobenzene and cumene hydroperoxide, could be increased by treatment with N-ethylmaleimide. This treatment results in increases in both the apparent Km values and V values for 1-chloro-2,4-dinitrobenzene and cumene hydroperoxide. Thus, although clearly distinct from the cytosolic glutathione transferases, the microsomal enzyme shares certain properties with these soluble enzymes, including a relative abundance, a high isoelectric point and a broad substrate specificity. The exact role of the microsomal glutathione transferase in drug metabolism, as well as other possible functions, remains to be established.
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PMID:Microsomal glutathione transferase. Purification in unactivated form and further characterization of the activation process, substrate specificity and amino acid composition. 688 49

The interaction of erythropoietin (Epo) with the erythropoietin receptor (EpoR) supports erythropoiesis. The EpoR is a member of the well-recognized cytokine receptor superfamily characterized by four conserved cysteines and a WSXWS domain in the extracellular portion of the molecule. To localize ligand-binding determinants of the EpoR near the WSXWS domain, we tested the ligand-binding ability of the wild-type human EpoR extracellular domain (EREx), two truncated and three chimeric constructs with the interleukin-2 receptor beta subunit (IL2R beta). Constructs were expressed in E. coli as GST fusion proteins linked to a solid-phase support and assayed for binding to 125I Epo. As previously shown, Epo bound specifically to the expressed extracellular domain, EREx. Epo did not bind to truncated receptors lacking either the entire fifth exon or the WSXWS domain. Epo also did not bind to chimeric receptors that had the amino acids encoded by the fifth exon replaced by IL2R beta or that had the amino acids subsequent to asparagine residue 209 replaced by IL2R beta. Specific binding was demonstrated for a construct in which the WSXWS was replaced by that of IL2R beta. We conclude that the amino acids encoded by this 5' portion of exon 5 of the EpoR are necessary for ligand binding and that the WSXWS domain is necessary for Epo binding but is not involved in ligand-binding specificity. We also speculate that if the putative soluble form of the EpoR is expressed (predicted to lack exon 5), it does not bind Epo and therefore may serve a physiologic purpose other than ligand binding.
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PMID:Localization of an essential ligand binding determinant of the human erythropoietin receptor to a domain N-terminal to the WSXWS motif: implications for soluble receptor function. 749 61

To assess the possibility that two conserved amino acids (glutamine 90 and asparagine 137) in O6-methylguanine-DNA methyltransferase (MGMT) are involved in protein-substrate contact and/or discrimination between favored and non-favored substrates, families of proteins mutant at these two sites were expressed in alkyltransferase-deficient bacteria and analyzed for stability, ability to repair O6-methylguanine (MG)-containing DNA, and ability to differentially repair a preferred (MG-containing DNA) versus a non-preferred (free base MG) substrate. All seven proteins mutant at glutamine 90 (except a proline mutant) were stable in bacteria and repaired MG-containing DNA (> 50% of wild-type levels). A representative glutamine 90 mutant protein was not, however, significantly different from the wild-type protein in the preferential repair of MG-containing DNA versus MG free base. Of eight proteins mutant at asparagine 137, only glutamine and serine mutants repaired MG-containing DNA to any degree (8.5% and 0.8% of wild-type respectively) and only the glutamine mutant protein was detectable in bacterial sonicates by Western blot analysis. Alanine and leucine mutant alkyltransferases, inactive and unstable as non-fusion proteins, could, however, be stably expressed in bacteria as glutathione S-transferase fusion proteins, although the proteins were still inactive in repair. These results suggest that while glutamine 90 has no direct role in MG-DNA methyltransferase-mediated repair or free base/lesioned DNA substrate specificity, asparagine 137 is important in both the stability and activity of the protein and may contribute to the formation or function of the active site of the protein.
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PMID:The role of two conserved amino acids, glutamine 90 and asparagine 137, in O6-methylguanine-DNA methyltransferase stability, activity and substrate specificity. 792 83


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