EC:6.3.2.3 - FACTA Search

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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)

Synthesis of GSH occurs via two enzymatic steps, the first is catalyzed by gamma-glutamylcysteine synthetase (GCS) and the second is catalyzed by GSH synthetase (GS). A heavy (HS) and light subunit (LS) make up GCS; regulation of both subunits have been well characterized, whereas regulation of GS is largely unknown. In this study, we examined the effects of treatments known to influence the gene expression of GCS subunits on GS expression. Insulin and hydrocortisone treatment of rat hepatocytes or ethanol-feeding of rats for 9 weeks, which increased the expression of GCS-HS only, had no influence on GS expression. However, two-thirds partial hepatectomy in rats which increased the expression of GCS-HS only, also increased GS expression. Treatment of hepatocytes or rats with diethyl maleate, buthionine sulfoximine, tert-butylhydroquinone, or thioacetamide, which increased the expression of both GCS subunits, increased the expression of GS. The GSH synthesis capacity increased 50-100% by treatments that increased only the GCS-HS expression, whereas it increased 161-200% by treatments that increased both GCS-HS and GS expression. Thioacetamide treatment of Chang cells increased cell GSH and GS expression by 50%, but had minimal influence on GCS subunits. Thus, GS induction can further increase the cell's GSH synthetic capacity and in some cells may be as important as GCS in determining the rate of GSH synthesis.
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PMID:Inducers of gamma-glutamylcysteine synthetase and their effects on glutathione synthetase expression. 1097 6

In Arabidopsis thaliana, trichome cells are specialized unicellular structures with uncertain functions. Based on earlier observations that one of the genes involved in cysteine biosynthesis (Atcys-3A) is highly expressed in trichomes, we have extended our studies in trichome cells to determine their capacity for glutathione (GSH) biosynthesis. First, we have analyzed by in situ hybridization the tissue-specific expression of the genes Atcys-3A and sat5, which encode O-acetylserine(thio)lyase (OASTL) and serine acetyltransferase (SAT), respectively, as well as gsh1 and gsh2, which encode gamma-glutamylcysteine synthetase and glutathione synthetase, respectively. The four genes are highly expressed in leaf trichomes of Arabidopsis, and their mRNA accumulate to high levels. Second, we have directly measured cytoplasmic GSH concentration in intact cells by laser-scanning microscopy after labeling with monochlorobimane as a GSH-specific probe. From these measurements, cytosolic GSH concentrations of 238+/-25, 80+/-2, and 144+/-19 microM were estimated for trichome, basement, and epidermal cells, respectively. Taking into account the volume of the cells measured using stereological techniques, the trichomes have a total GSH content more than 300-fold higher than the basement and epidermal cells. Third, after NaCl treatment, GSH biosynthesis is markedly decreased in trichomes. Atcys-3A, sat5, gsh1, and gsh2 mRNA levels show a decrease in transcript abundance, and [GSH](cyt) is reduced to 47+/-5 microM. These results suggest the important physiological significance of trichome cells related to GSH biosynthesis and their possible role as a sink during detoxification processes.
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PMID:Glutathione biosynthesis in Arabidopsis trichome cells. 1099 73

The thiol tripeptides glutathione (GSH) and homoglutathione (hGSH) are very abundant in legume root nodules and their synthesis is catalyzed by the enzymes gamma-glutamylcysteine synthetase (gammaECS), GSH synthetase (GSHS), and hGSH synthetase (hGSHS). As an essential step to elucidate the role of thiols in N(2) fixation we have isolated cDNAs encoding the three enzymes and have quantified the transcripts in nodules. Assay of enzyme activities in highly purified nodule organelles revealed that gammaECS is localized in the plastids, hGSHS in the cytosol, and GSHS in the cytosol and mitochondria. These results are consistent with sequence analyses. Subcellular fractionation of nodules also showed that bacteroids contain high thiol concentrations and high specific gammaECS and GSHS activities. Results emphasize the role of nodule plastids in antioxidant protection and in control of thiol synthesis, and suggest that plastids may be important in the stress response of nodules. Overall, our results provide further evidence that thiol synthesis is critical for nodule functioning.
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PMID:Glutathione and homoglutathione synthetases of legume nodules. Cloning, expression, and subcellular localization. 1108 Mar 13

Increased glutathione (GSH) level occurs early during liver regeneration and in many drug and/or radiation-resistant tumors. Whether GSH level is elevated in liver cancer is unknown. GSH levels and expression of GSH synthetic enzymes were measured in hepatocellular carcinoma (HCC) and normal liver. GSH levels doubled in HCC. The mRNA levels of g-glutamylcysteine synthetase heavy subunit (GCS-HS) and GSH synthetase (GS) doubled, whereas the expression of GCS light subunit was unchanged. Nuclear run-on assay showed that the rate of gene transcription doubled for both GCS-HS and GS. In HCC, there is increased binding to anti-oxidant response, AP-1 and NF-kB, three cis-acting elements in the 5'-flanking region of the human GCS-HS important for its transcriptional regulation. The role of GSH in cell growth was examined by using HepG2 cells. Cell GSH level was varied by treating cells with cystine (0 to 0.2 mM) with or without GSH ester or buthionine sulfoximine. Cell GSH level correlated directly with growth rate. Finally, preventing the increase in GSH after two-thirds partial hepatectomy blunted liver regeneration. Thus, GSH level is increased during liver growth as a result of up-regulation of GCS-HS and GS. This increase, in turn, facilitates growth.
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PMID:Mechanism and significance of increased glutathione level in human hepatocellular carcinoma and liver regeneration. 1109 88

The biosynthesis of reduced glutathione (GSH) is carried out by the enzymes gamma-glutamylcysteine synthetase (GCL) and GSH synthetase. GCL is the rate-limiting step and represents a heterodimeric enzyme comprised of a catalytic subunit (GCLC) and a ("regulatory"), or modifier, subunit (GCLM). The nonhomologous Gclc and Gclm genes are located on mouse chromosomes 9 and 3, respectively. GCLC owns the catalytic activity, whereas GCLM enhances the enzyme activity by lowering the K(m) for glutamate and increasing the K(i) to GSH inhibition. Humans have been identified with one or two defective GCLC alleles and show low GSH levels. As an initial first step toward understanding the role of GSH in cellular redox homeostasis, we have targeted a disruption of the mouse Gclc gene. The Gclc(-/-) homozygous knockout animal dies before gestational day 13, whereas the Gclc(+/-) heterozygote is viable and fertile. The Gclc(+/-) mouse exhibits a gene-dose decrease in the GCLC protein and GCL activity, but only about a 20% diminution in GSH levels and a compensatory increase of approximately 30% in ascorbate-as compared with that in Gclc(+/+) wild-type littermates. These data show a reciprocal action between falling GSH concentrations and rising ascorbate levels. Therefore, the Gclc(+/-) mouse may be a useful genetic model for mild endogenous oxidative stress.
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PMID:Knockout of the mouse glutamate cysteine ligase catalytic subunit (Gclc) gene: embryonic lethal when homozygous, and proposed model for moderate glutathione deficiency when heterozygous. 1111 86

The genes(gsh-I,gsh-II) for gamma-glutamyl-cysteine synthetase(GSH-I) and glutathione synthetase(GSH-II) from Escherichia coli B were amplified by PCR and then subcloned into plasmid pUC19 respectively. The DNA fragments harboring gshII and gsh I were inserted into plasmid pTrc99A one by one to get a hybrid plasmid pTrc-gsh. E. coli BL21 was transformed by pTrc-gsh for expression of the related enzymes. Analysis of SDS-PAGE showed that the expected products were expressed. E. coli BL21(pTrc-gsh) were incubated at 37 degrees C and pH 7.2 to OD550 = 0.5. The conditions were then switched to 34 degrees C and pH6.7 after the addition of 0.1 mmol/L IPTG. The expressed products were up to 25% of the total protein of the bacteria. Acetone-treated cells of the engineered strain could synthesize GSH efficiently.
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PMID:[Cloning and expression of the genes of glutathione synthetases]. 1133 Jan 98

The present study examined how the multidrug resistance protein (MRP1), which is an ATP-dependent anionic conjugate transporter, also mediates the transport of reduced glutathione (GSH) and the co-transport of the cationic drug, daunorubicin, with GSH in living GLC4/Adr cells. To obtain information on the affinity of GSH for the multidrug resistance protein in GLC4/Adr cells, we investigated the GSH concentration dependence of the ATP-dependent GSH efflux. The intracellular GSH concentration was modulated by preincubation of the cells with 25 microM buthionine sulfoximine, an inhibitor of GSH synthetase, for 0-24 h. The transport of GSH was related to the intracellular GSH concentration up to approximately 5 mM and then plateaued. Fitting of the obtained data according to the Michaelis-Menten equation revealed a Km of 3.4+/-1.4 mM and a Vmax of 1.5+/-0.2x10(-18) mol/cell/s. The ATP-dependent transport of GSH was inhibited by 3-([[3-(2-[7-chloro-2-quinolinyl]ethenyl)phenyl]-[(3-dimethylamino-3-oxopropyl)-thio]-methyl]thio)propanoic acid (MK571), with 50% inhibition being obtained with 1.4 microM MK571. We investigated the GSH concentration dependence of the MRP1-mediated ATP-dependent transport of daunorubicin under conditions where the transport of daunorubicin became saturated. The daunorubicin transport was related to the intracellular GSH concentration up to approximately 5 mM and then plateaued. We were therefore in the situation where GSH acted as an activator: its presence was necessary for the binding and transport of daunorubicin by MRP1. However, GSH was also transported by the multidrug resistance protein. The concentration of GSH that gave half the maximal rate of daunorubicin efflux was 2.1+/-0.8 mM, very similar to the Km value obtained for GSH. In conclusion, the rate of daunorubicin efflux, under conditions where the transport of daunorubicin became saturated, and the rate of GSH efflux determined at any intracellular concentration of GSH were very similar, yielding a 1:1 stoichiometry with respect to GSH and daunorubicin transport. These results support a model in which daunorubicin is co-transported with GSH.
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PMID:Kinetics of glutathione and daunorubicin efflux from multidrug resistance protein overexpressing small-cell lung cancer cells. 1140 43

Glutathione (GSH) and homo-GSH (hGSH) are the major low-molecular weight thiols synthesized in Medicago truncatula. Two M. truncatula cDNAs (gshs1 and gshs2) corresponding to a putative GSH synthetase (GSHS) and a putative hGSH synthetase (hGSHS) were characterized. Heterologous expression of gshs1 and gshs2 cDNAs in an Escherichia coli strain deficient in GSHS activity showed that GSHS1 and GSHS2 are a GSHS and an hGSHS, respectively. Leucine-534 and proline-535 present in hGSHS were substituted by alanines that are conserved in plant GSHS. These substitutions resulted in a strongly stimulated GSH accumulation in the transformed E. coli strain showing that these residues play a crucial role in the differential recognition of beta-alanine and glycine by hGSHS. Phylogenetic analysis of GSHS2 and GSHS1 with other eukaryotic GSHS sequences indicated that gshs2 and gshs1 are the result of a gene duplication that occurred after the divergence between Fabales, Solanales, and Brassicales. Analysis of the structure of gshs1 and gshs2 genes shows they are both present in a cluster and in the same orientation in the M. truncatula genome, suggesting that the duplication of gshs1 and gshs2 occurred via a tandem duplication.
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PMID:A Medicago truncatula homoglutathione synthetase is derived from glutathione synthetase by gene duplication. 1150 May 68

GSH is the major low-molecular-mass thiol in most organisms. The tripeptide maintains a reduced intracellular environment and protects cellular components from damaging oxidation. GSH is synthesized by the action of two ATP-dependent enzymic steps, in which gamma-glutamylcysteine synthetase (gamma-GCS) catalyses the ligation of glutamate and cysteine and subsequently glutathione synthetase (GS) adds glycine to the dipeptide. Recently it was shown that the synthesis of gamma-glutamylcysteine is crucial for the survival of the erythrocytic stages of the malaria parasite Plasmodium falciparum by using the specific gamma-GCS inhibitor buthionine sulphoximine. In order to investigate further the synthetic pathway of the tripeptide in the parasite, GS was cloned and expressed recombinantly. The deduced amino acid sequence of P. falciparum GS shares only a moderate degree of identity with other known GSs, but the residues responsible for substrate and co-factor binding are almost all conserved, with the exception of the ones involved in gamma-glutamylcysteine binding. The protein is active as a dimer, with a subunit molecular mass of 77 kDa, and the addition of reducing reagents such as dithiothreitol is essential in maintaining enzymic activity, indicating that thiol groups are important for stability and enzymic activity. The K(app)(m) values for gamma-glutamyl-alpha-aminobutyrate, ATP and glycine were determined to be 107.1 microM, 59.1 microM and 5.04 mM, respectively, and the V(max) of 5.24 +/- 0.7 micromol.min(-1).mg(-1) was in the same range as that of the mammalian enzymes. However, the negative co-operativity observed for gamma-glutamylcysteine binding to the rat enzyme was not found for the parasite protein. This may be due to the alteration of several amino acids in the gamma-glutamylcysteine-binding site.
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PMID:Glutathione synthetase from Plasmodium falciparum. 1196 86

We used mice with a targeted disruption in g-glutamyl transpeptidase (GGT-deficient mice) to study the role of glutathione (GSH) in protection against oxygen-induced lung injury. These mice had reduced levels of lung GSH and restricted ability to synthesize GSH because of low levels of cysteine. When GGT-deficient mice were exposed to 80% oxygen, they developed diffuse pulmonary injury and died within eight days. Ten of 12 wild-type mice were alive after 18 days. Administration of N-acetylcysteine (NAC) to GGT-deficient mice corrected GSH values and prevented the development of severe pulmonary injury and death. Oxygen exposure induced an increase in lung GSH levels in both wild-type and GGT-deficient mice, but induced levels in the mutant mice were <50% of those in wild-type mice. Cysteine levels were approximately 50-fold lower than GSH levels the lungs of both wild-type and GGT-deficient mice. Levels of lung RNA coding for the heavy subunit of g-glutamyl cysteine synthetase rose three- to fourfold after oxygen exposure in both wild-type and GGT-deficient mice. In contrast, oxygen exposure failed to provoke increases in glutathione synthetase, glutathione peroxidase, glutaredoxin, or thioredoxin.
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PMID:Oxygen-induced pulmonary injury in gamma-glutamyl transpeptidase-deficient mice. 1197 99

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