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:6.3.2.3 (glutathione synthetase)
678 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Glutathione synthetase from Escherichia coli B showed amino acid sequence homology with mammalian and bacterial dihydrofolate reductases over 40 residues, although these two enzymes are different in their reaction mechanisms and ligand requirements. The effects of ligands of dihydrofolate reductase on the reaction of E. coli B glutathione synthetase were examined to find resemblances in catalytic function to dihydrofolate reductase. The E. coli B enzyme was potently inhibited by 7,8-dihydrofolate, methotrexate, and trimethoprim. Methotrexate was studied in detail and proved to bind to an ATP binding site of the E. coli B enzyme with K1 value of 0.1 mM. The homologous portion of the amino acid sequence in dihydrofolate reductases, which corresponds to the portion coded by exon 3 of mammalian dihydrofolate reductase genes, provided a binding site of the adenosine diphosphate moiety of NADPH in the crystal structure of dihydrofolate reductase. These analyses would indicate that the homologous portion of the amino acid sequence of the E. coli B enzyme provides the ATP binding site. This report gives experimental evidence that amino acid sequences related by sequence homology conserve functional similarity even in enzymes which differ in their catalytic mechanisms.
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PMID:Homology of Escherichia coli B glutathione synthetase with dihydrofolate reductase in amino acid sequence and substrate binding site. 355 73

A strain of Escherichia coli enriched in its content of gamma-glutamylcysteine synthetase and glutathione synthetase by recombinant DNA techniques has been immobilized in a carrageenan matrix and used for the synthesis of various types of isotopically labeled glutathione (L-gamma-glutamyl-L-cysteinyl-glycine) (K. Murata, W. A. Abbott, R. J. Bridges, and A. Meister (1985) Anal. Biochem. 150, 235-237). In the present work, this E. coli matrix was used as the basis of a method for the synthesis of glutathione analogs. Thus, amino acid analogs were used in place of the corresponding amino acid constituents of glutathione (e.g., 4-fluoroglutamate was substituted for glutamate) in the reaction mixtures. Using this method we have synthesized several analogs of glutathione including L-gamma-glutamyl-(beta-chloro)-L-alanyl-glycine, (R,S)-4-fluoro-DL-gamma-glutamyl-L-cysteinyl-glycine, D-gamma-glutamyl-L-cysteinyl-glycine, and L-gamma-glutamyl-L-homocysteinyl-glycine. This method may also be used for the synthesis of a number of L- and D-gamma-glutamyl amino acids. The analogs are purified by gel-filtration and ion-exchange chromatography. The analogs are used to examine the substrate specificity and mechanisms of action of glutathione-utilizing enzymes and for studies on glutathione metabolism and function. Fluorine-containing analogs may be used for NMR studies. The enzymatically prepared compounds may also be used as intermediates in the chemical synthesis of other analogs of glutathione and glutathione disulfide.
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PMID:Enzymatic synthesis of novel glutathione analogs. 355 55

Glutathione functions in catalysis, metabolism, transport, and reductive processes and in protection of cells by destruction of free radicals, reactive oxygen intermediates, and other toxic compounds of endogenous and exogenous origin. It also functions as a storage and transport form of cysteine. Depletion of glutathione (effectively accomplished by inhibition of its synthesis) increases sensitivity to radiation and to certain toxic compounds and is of value in combination with radiation therapy or chemotherapy in situations in which cell selectivity can be achieved. Increased cellular levels of glutathione protect cells against radiation and certain toxic compounds. Glutathione levels can be increased by administration of cysteine or of glutathione, but these approaches are not entirely satisfactory. Cellular glutathione levels can be increased by supplying substrate for gamma-glutamylcysteine synthetase or for glutathione synthetase. L-2-Oxothiazolidine-4-carboxylate is well transported into many cells and is converted by 5-oxoprolinase to cysteine, a substrate of gamma-glutamylcysteine synthetase. gamma-Glutamylcysteine and related compounds are effectively transported, especially into renal cells, thus providing substrate for glutathione synthetase; higher than normal levels of glutathione can be achieved because this enzyme is not significantly inhibited by glutathione, whereas gamma-glutamylcysteine synthetase is feedback-inhibited. Derivatives of glutathione that are effectively transported into cells (glutathione itself is not) offer another means of increasing glutathione levels. The monoethyl ester of glutathione (in which the glycine carboxyl group is esterified) is well transported in vivo into liver and kidney and into cultured fibroblasts and lymphoid cells. Glutathione levels much higher than usual can be obtained by this procedure, which protects lymphoid cells against the lethal effects of irradiation and mice against acetaminophen, and which therefore may be a relatively safe way to increase cellular resistance to radiation and certain toxic compounds.
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PMID:Intracellular cysteine and glutathione delivery systems. 372 29

The effects of long term intake of dietary alcohol on myocardial glutathione metabolism and taurine content were studied in rats. Alcohol, comprising more than 30% of the dietary calorie content, was administered to male CFY rats for six weeks. Compared with the controls, the left ventricle of the alcohol treated animals had an increased taurine content (18.4(2.6) vs 13.1(2.5) mumol X g wet weight-1) and a slightly, but not significantly, decreased reduced glutathione content. To assess the glutathione metabolism in the myocardium, the activities of glutathione reductase, glutathione peroxidase, glutathione-S-transferase, gamma-glutamylcysteine synthetase, and glutathione synthetase were measured. Significant increases were found in the activities of glutathione reductase (0.65(0.03) U.g wet weight-1 in the controls and 0.80(0.05) U.g wet weight-1 in the alcohol treated rats) and glutathione-peroxidase after six weeks of alcohol ingestion. Only slight, non-significant changes were found for the other enzymes investigated. It is thus apparent that in the myocardium of rats treated long term with ethanol the previously observed enhanced lipoperoxidation is not necessarily associated with severe glutathione depletion, and an increase in the activity of glutathione reductase might be responsible, at least in part, for the preservation of glutathione.
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PMID:Effects of long term alcohol ingestion on glutathione metabolising enzymes and taurine contents in the myocardium of rats. 380 27

The amount of reduced glutathione in transplantable hepatomas and in a primary DEN-induced hepatoma is lower than in normal liver. In all tumors examined, the glutathione decrease is not due to an increase of oxidized glutathione. In this paper the in vitro activities of two enzymes involved in glutathione synthesis, gamma-glutamylcysteine synthetase and glutathione synthetase, are studied in normal adult rat liver, in regenerating rat liver and in highly anaplastic Yoshida AH-130 hepatoma cells. The activity of these enzymes was determined in the postmicrosomal supernatant fraction as nmoles of [U-14C]-glutamate incorporated into product per mg of soluble protein. In Yoshida AH-130 hepatoma, the gamma-glutamylcysteine synthetase and glutathione synthetase activities are lower in respect to normal liver. This is in agreement with the low glutathione content observed in the hepatoma cells. On the other hand, in regenerating liver, there are minimal differences in comparison with normal liver.
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PMID:Glutathione synthesis in normal liver and in Yoshida AH-130 hepatoma. 380 95

The cytotoxic and radiosensitizing effects of misonidazole have been studied on glutathione synthetase deficient fibroblasts and on their controls. At any concentration from 0.1 to 4 mM, deficient cells are more sensitive to the cytotoxic effect of misonidazole than the control cells. The differential effect between the two cell strain concerns both the shoulder and the slope of the survival curve, thus suggesting that NPSH play a role in the determination of misonidazole cytotoxicity. Like oxygen, misonidazole clearly sensitizes deficient cells to a lesser extent than control cells. For both cell strains, the maximum sensitizing effect of misonidazole is very close to that of oxygen (1.5 and 1.5 for deficient cells, 2.8 and 2.9 for control cells, respectively). The sensitizing effect of misonidazole appears in the same concentration range for both cell strains, with a maximal effect at lower concentrations for deficient cells.
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PMID:Radiosensitizing and cytotoxic properties of misonidazole on glutathione synthetase deficient human fibroblasts. 387 43

The role of intracellular non-protein bound sulphydryl compounds (NPSH), and in particular that of glutathione (GSH), in the response of cells to ionizing radiation under different O2 concentrations has been assessed using cell strains deficient in glutathione synthetase and exhibiting different NPSH levels. The cell strains used originated from patients with 5-oxoprolinuria and from their relatives (heterozygotes and proficient homozygotes). No correlation has been found between NPSH and GSH concentrations and radiosensitivity under oxic, aerobic and hypoxic conditions. However, a highly significant correlation has been observed between radiosensitivity under hypoxic conditions (and therefore the oxygen enhancement ratio) and the glutathione synthetase activity, suggesting that synthesis of GSH is required after irradiation. In order to explain our results we postulated, beside radical processes, the existence of a GSH-dependent enzymatic repair mechanism for N2 type damage. Hypoxic radio-sensitivity measured with survival curves would result from the interaction of both competition and biochemical repair processes.
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PMID:Survival curves of glutathione synthetase deficient human fibroblasts: correlation between radiosensitivity in hypoxia and glutathione synthetase activity. 387 5

Thermal tolerance is a transient state of heat resistance occurring in cells and tissues after exposure to sublethal heat or certain chemicals. Although the mechanism of such resistance is unknown, it has been recently shown that preceding its development, cellular glutathione (GSH) levels rise. We have used a glutathione synthetase-deficient [GSH(-)] human fibroblast line to study the relationship between glutathione content and thermal tolerance. The GSH(-) cells had approximately 6% as much GSH as normal fibroblasts. Normal and GSH(-) fibroblasts showed similar survival after exposure to 45 degrees C. Exposure of normal fibroblasts to heat (45 degrees C for 15 min) led to a prompt rise in cellular GSH content as well as development of transient thermal tolerance. Similar treatment of GSH(-) fibroblasts produced no change in the very low GSH levels but was associated with a degree of thermal tolerance similar to that of normal cells. Thermal tolerance decayed more rapidly in GSH(-) cells than in normal fibroblasts. We conclude that the development of thermal tolerance in human fibroblasts is independent of GSH content.
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PMID:Lack of association between glutathione content and development of thermal tolerance in human fibroblasts. 396 Nov 4

High doses of orally administered vitamin E (1000 IU/day) have been given to ten normal volunteers. Ten control subjects received placebo. Red blood cell glutathione was significantly higher in treated subjects than in the controls (controls: 267.5 +/- 15.7 micrograms/mL; treated: 374.8 +/- 17.3 micrograms/mL). These findings could be explained by an increase of glutathione synthesis brought about by the stimulation of glutathione synthetase activity. An alternative possibility is a reduced utilization of glutathione for the detoxification of free radicals. These two mechanisms could be effective in counteracting the glutathione content feedback of the synthetizing enzymes.
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PMID:Vitamin E and red blood cell glutathione. 402 3

We have studied the effects of acetaminophen metabolites generated by a murine hepatic microsomal system on lymphocytes from two subjects heterozygous for glutathione synthetase deficiency. Heterozygous cells exhibited greater dose-related toxicity than controls. Following a 2-h incubation with acetaminophen and the microsomal system, cells were washed and incubated for 16 h in the presence or absence of N-acetylcysteine, the standard antidote for acetaminophen toxicity. In control cells, glutathione content was replenished to nearly base-line values and toxicity was prevented. N-Acetylcysteine thus prevented toxicity even after covalent binding of acetaminophen metabolites had occurred. Heterozygous cells failed to use N-acetylcysteine as efficiently to resynthesize glutathione, and the cells were not protected from acetaminophen toxicity. Heterozygotes may be at increased risk of toxicity from drugs whose metabolites are detoxified by glutathione conjugation.
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PMID:Acetaminophen toxicity in lymphocytes heterozygous for glutathione synthetase deficiency. 404 89


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