Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.5.1.47 (cysteine synthase)
 625 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nigral cell death in Parkinson's disease (PD) may involve oxidative stress and mitochondrial dysfunction initiated by a decrease in reduced glutathione (GSH) levels in substantia nigra. L-buthionine-(S,R)-sulphoximine (BSO; 4.8 and 9.6 mg/kg/day), an irreversible inhibitor of gamma-glutamyl cysteine synthetase, was chronically infused into the left lateral ventricle of rats over a period of 28 days and markedly reduced GSH concentrations in substantia nigra (approx. 59% and 65% in 4.8 and 9.6 mg/kg/d BSO respectively) and the striatum (approx. 63% and 80% in 4.8 and 9.6 mg/kg/d BSO respectively). However, the number of tyrosine hydroxylase (TH)-positive cells in substantia nigra was not altered by BSO-treatment compared to control animals. Similarly, there was no difference in specific [3H]-mazindol binding in the striatum and nucleus accumbens of BSO-treated rats compared to control rats. In conclusion, depletion of GSH following chronic administration of BSO in the rat brain does not cause damage to the nigrostriatal pathway and suggests that loss of GSH alone is not responsible for nigrostriatal damage in PD. Rather, GSH depletion may enhance the susceptibility of substantia nigra to destruction by endogenous or exogenous toxins.
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PMID:Glutathione depletion in rat brain does not cause nigrostriatal pathway degeneration. 908 94

We have previously observed that transforming growth factor beta 1 (TGF beta 1) produces a pro-oxidant effect and decreases cellular glutathione (GSH) levels of cultured bovine pulmonary artery endothelial cells (BPAEC) (White A. C., S. K. Das, and B. L. Fanburg. Am. J. Respir. Cell Mol. Biol. 6:364-368, 1992). In the present studies we demonstrate that 2 ng/ml TGF beta 1 reduces the uptake of two GSH precursor amino acids (cystine and glutamate) by 50% (cystine; control 359.35 +/- 100, TGF beta 1 187.7 +/- 26 pmol/10 min/10(6) cells, p < 0.05; glutamate; control 215.15 +/- 18, TGF beta 1 110.2 +/- 16 pmol/10 min/10(6) cells, p < 0.001). The inhibitory effect of TGF beta 1 on the uptake of GSH precursor amino acids persisted in the presence of buthionine sulfoximine (inhibits gamma-glutamyl cysteine synthetase, the rate limiting step in GSH synthesis) or acivicin (inhibits gamma-glutamyl transpeptidase). The uptake of leucine, an amino acid that does not serve as a precursor for GSH, was unaffected by TGF beta 1. In additional experiments TGF beta 1 decreased the levels of cellular and medium GSH-indicating that TGF beta 1 did not increase efflux of GSH from BPAEC. We propose from these observations that TGF beta 1 decreases cellular glutathione, at least in part, through down regulation of precursor amino acid transport and, thereby, its rate of synthesis.
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PMID:Transforming growth factor B1 decreases uptake of glutathione precursor amino acids in bovine pulmonary artery endothelial cells. 914 17

Time-dependent alterations in glutathione (GSH) concentration and the activities of several key enzymes of GSH metabolism were studied in a rat model of experimental Fanconi syndrome induced by i.p. injection of sodium maleate (400 mg/kg BW). The changes in the parameters tested were monitored 0, 2, 4, and 12 h after sodium maleate administration. A significant decrease in renal GSH level was observed 2 and 4 h after sodium maleate treatment (27% and 38% of control values, respectively). The renal GSH depletion did not appear to be due to the decreased production rate or to an increased degradation of the tripeptide. This suggestion is based on the findings that the activities of the GSH synthesis (gamma-glutamyl cysteine synthetase and glutathione reductase) and those of the catabolic pathways (gamma-glutamyl transpeptidase) were unaltered at the same time points. The unchanged activity of gamma-glutamyl transpeptidase also suggests preserved luminal membrane integrity in experimental Fanconi syndrome. The decreased activity of glutathione peroxidase, which utilizes GSH as a cosubstrate in the course of inactivation of free radicals, in the first hours after treatment could facilitate lipid peroxidation reactions in this model of acute renal failure. The observed changes in all parameters tested were transient, with recovery to baseline levels in a period of 12 h after sodium maleate administration. At the same time a pronounced functional impairment still existed. The beneficial effect of fast recovery of renal GSH level on the functional and morphological restitution in experimental Fanconi syndrome is suggested.
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PMID:Time course of renal glutathione levels in experimental Fanconi syndrome: an enzyme-based approach. 915 54

Cadmium (Cd) is a highly toxic metal and a known carcinogen. Although the carcinogenic mechanism of action is unknown, Cd will induce transcriptional activation of c-myc and c-jun. We have previously found that the extent of Cd-induced oncogene expression is limited by the presence of cellular metallothionein (MT) in rat L6 myoblasts. Glutathione (GSH) is thought to play an important role in protection against Cd before the onset of MT synthesis. Thus, this study examined the effects of GSH depletion on Cd-induced MT synthesis, cytotoxicity, and proto-oncogene expression in rat L6 myoblasts after pretreatment with L-buthionine sulfoximine (BSO), a potent inhibitor of gamma-glutamyl-cysteine synthetase, which effectively depletes GSH. Exposure of L6 cells to BSO (5 or 25 microM) resulted in a dose-dependent decrease in cellular GSH levels. GSH depletion had no effect on Cd- or zinc-induced MT synthesis. Although the depletion of GSH was not itself cytotoxic in L6 cells, BSO pretreatment, particularly at the higher dose (25 microM), resulted in a dose-dependent increase in the sensitivity to Cd cytotoxicity, as assessed by a tetrazolium-based dye (MTT) assay. Low levels of Cd (1 microM) slightly increased the expression of both c-myc and c-jun as assessed by increases in gene-specific mRNA levels, in accordance with previous studies. GSH depletion (5 muM BSO) likewise caused an increase in expression of c-myc and c-jun. However, combined GSH depletion and Cd exposure decreased levels of c-myc and c-jun transcription well below control levels. These results suggest that increased cytotoxicity resulting from exposure to Cd after BSO depletion of cellular GSH abrogates the oncogene activation observed after either treatment alone. Thus proto-oncogene expression induced by Cd appears to be dependent on the absence of over Cd-induced cytotoxicity.
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PMID:Effects of glutathione depletion on cadmium-induced metallothionein synthesis, cytotoxicity, and proto-oncogene expression in cultured rat myoblasts. 924 31

Maintenance of cellular homeostasis is a critical survival trait in tumors when exposed to anticancer drugs. Because conjugation and elimination of drugs and their metabolites is dependent upon sequential and coordinated pathways, acquired drug resistance through a gradual adaptive response would rarely be expected to be the consequence of changes in the expression of one gene product. We have used a number of drug-resistant human cell lines to characterize those genes that are implicated in maintaining a resistant phenotype. Human HT29 colon cancer cells chronically exposed to ethacrynic acid (EA) [a glutathione (GSH) and glutathione S-transferase (GST) modulator] have acquired resistance to the drug. Commensurate with resistance, EA is more effectively conjugated to GSH and effluxed from the resistant cells. Using directed and random (differential display) approaches, a number of detoxification and/or protective gene products have been shown to be expressed at elevated levels. These include: gamma-glutamyl cysteine synthetase (gamma-GCS, the rate-limiting enzyme in GSH biosynthesis); GST pi (the enzyme catalyzing the conjugation reaction); multidrug resistance associated protein (MRP) (the membrane pump responsible for effluxing the conjugate from the cell interior). In addition, other gene products not directly linked with EA metabolism were induced, including dihydrodiol dehydrogenase (an alpha-ketoreductase) (30-fold), DT-diaphorase (threefold), and a transcriptional regulator SSP 3521 (threefold). HL60 cells resistant to a GSH paralog Ter199 also show increased expression of some of these gene products. Furthermore, an adriamycin-resistant human HL60 cell line also shows overexpression of GST pi, gamma-GCS, and MRP, but in addition has approximately 20-fold more DNA-dependent protein kinase catalytic subunit (DNA-PKcs). This enzyme is an early stress response gene that can phosphorylate and activate downstream transcription factors. Such overexpression could impact on the transcriptional control of the other detoxification gene products. Both adriamycin and a typical drug-GSH conjugate (APA-SG) are inhibitors of DNA-PK. Because cellular levels of these conjugates would presumably be a good indicator of stress, it would seem reasonable to speculate that DNA-PK may act as a receiver and transmitter of signals that are crucial to the drug-resistant phenotype. Additionally, this enzyme may prove to be a potentially important target for drug design based upon the inhibitory activity of GSH conjugates.
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PMID:Importance of glutathione and associated enzymes in drug response. 940 35

Cellular detoxification, such as that mediated by the glutathione (GSH) system, is involved in the metabolism of various cytotoxic agents. Little is known, however, about the clinical relevance of cellular detoxification in chemoresistance. To elucidate the relevance of the GSH system to the resistance to chemotherapy observed in patients with ovarian cancer, we assayed the expression of mRNA encoded by the multidrug resistance-associated protein (MRP) and gamma-glutamyl cysteine synthetase (gamma-GCS) genes, as well as the level of GSH protein in 32 patients with epithelial ovarian cancer after chemotherapy. Tumors of 14 of the 32 patients responded to chemotherapy, whereas 18 did not. The levels of MRP and gamma-GCS transcripts in tumors from nonresponders were each about 2-fold higher than in responders. In contrast, the level of GSH did not differ between the two groups. We observed coordinated expression of gamma-GCS mRNA and GSH protein levels, and between gamma-GCS and MRP in nonresponders, but not in responders. Expression of MRP-encoded mRNA did not correlate to GSH level, however, in either group. These results suggest that gamma-GCS may up-regulate GSH and MRP expression in tumors unresponsive to chemotherapeutic agents, and that the GSH system may be involved in the mechanism of chemoresistance in ovarian cancer.
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PMID:Gamma-glutamyl cysteine synthetase up-regulates glutathione and multidrug resistance-associated protein in patients with chemoresistant epithelial ovarian cancer. 967 49

The relationship between l-cystine transport and intracellular glutathione (GSH) levels was investigated in cultured pancreatic AR42J acinar and betaTC3 islet cells exposed to diethylmaleate, an electrophilic agent known to activate cellular antioxidant responses. Cystine transport was mediated predominantly by the Na+-independent anionic amino acid transport system x-c, with influx inhibited potently by glutamate and homocysteate but unaffected by cationic or neutral amino acids. Saturable cystine transport was 10-fold higher in AR42J (531 pmol (mg protein)-1 min-1) than in betaTC3 (49 pmol (mg protein)-1 min-1) cells, and GSH levels were higher in AR42J cells. Treatment with 2-mercaptoethanol increased GSH levels in betaTC3 cells from 7.5 to 36 nmol (mg protein)-1, whilst the GSH content in AR42J cells (64 nmol (mg protein)-1) was not altered significantly. Incubation of AR42J or betaTC3 cells with homocysteate (2.5 mM, 0-48 h), a competitive inhibitor of cystine transport via system x-c, reduced intracellular GSH levels and resulted in a time-dependent (6-24 h) induction of system x-c transport activity. Treatment of AR42J cells with diethylmaleate (100 microM, 0-48 h) resulted in a time- (5-10 h) and protein synthesis-dependent induction of cystine transport, with intracellular GSH levels initially decreasing and then increasing 2-fold above control levels after 24 h. Diethylmaleate also depressed GSH levels in betaTC3 cells, but cystine transport was not elevated significantly. In both AR42J and betaTC3 cells, inhibition of gamma-glutamyl cysteine synthetase by buthionine sulphoximine (100 microM, 24 h) reduced GSH levels but had no effect on cystine transport. The present findings establish that induction of system x-c leads to changes in GSH levels in pancreatic AR42J acinar and betaTC3 islet cells, with changes in the intracellular redox state stimulating transporter expression. Induction of activity of system x-c, together with adaptive increases in GSH synthesis in response to oxidative stress, may contribute to cellular antioxidant defences in pancreatic disease.
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PMID:Induction of cystine transport via system x-c and maintenance of intracellular glutathione levels in pancreatic acinar and islet cell lines. 980 3

Glutathione (GSH) levels are supposed to determine the vulnerability of many cells towards a wide array of insults. We investigated the effects of chronic inhibition of GSH synthesis and acute depletion of GSH on cerebellar granule neurons in vitro and determined cytoplasmic and mitochondrial GSH with relation to mitochondrial function and generation of reactive oxygen intermediates (ROI). l-buthionine sulfoximine (BSO), which irreversibly blocks gamma-glutamyl-cysteine synthase, led to a time- and concentration-dependent loss of cytoplasmic GSH, while mitochondrial GSH was relatively preserved. No increased generation of ROI was detected over 48 h and the mitochondrial membrane potential was largely maintained. Neuronal degeneration occurred when mitochondrial GSH levels had fallen below 50% of control after 24-36 h. In contrast, direct conjugation of mitochondrial and cytoplasmic GSH with etacrynic acid (EA), resulted in immediate loss of mitochondrial GSH, a large increase of ROI within 2 h, subsequent collapse of the mitochondrial membrane potential and complete cell death within 4-8 h. Electron microscopy studies revealed an as yet unknown change of the chromatin structure to a homogeneous granular pattern after BSO, while EA resulted in typical necrotic changes. No typical features of apoptosis, i.e., no chromatin condensation or DNA fragmentation were detected after GSH depletion after BSO or EA treatment.
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PMID:Glutathione depletion and neuronal cell death: the role of reactive oxygen intermediates and mitochondrial function. 1021 96

A wide spectrum of human lung diseases is characterized by the presence of granulomas. Although understanding of the pathways leading to their development remains incomplete, data from in vitro studies suggest that neutrophils, monocytes, and their secreted products (eg, hydrogen peroxide, H2O2) influence the pathogenesis of pulmonary granulomatous disease through the regulation of local chemokine and cytokine production. Using a well-characterized rat model of glucan-induced pulmonary granulomatous vasculitis, we sought to determine the role of intracellular glutathione (GSH) redox status in the expression of monocyte chemoattractant protein-1 (MCP-1). Previous studies have revealed that vascular wall MCP-1 expression is obligatory for granuloma development and that both neutrophils and hydrogen peroxide are required for MCP-1 induction. Because in vitro expression of MCP-1 is in part mediated by the redox-sensitive transcription factors nuclear factor-kappa B (NF-kappaB) and activator protein-1 (AP-1), we studied their activation as a function of varying intracellular GSH redox status in the pathogenesis of glucan-induced pulmonary granulomatosis. Infusion of particulate yeast cell wall glucan into rats resulted in a rapid decrease in intracellular GSH concentrations which was accompanied by the activation of NF-kappaB and AP-1. The pattern of AP-1 and NF-kappaB activation in turn correlated temporally with the expression of MCP-1. Administration of L-buthionine-S, R-sulfoximine, a specific inhibitor of gamma-glutamyl cysteine synthetase, resulted in a significant reduction in intracellular GSH pools. GSH depletion resulted in a more than 100% increase in pulmonary MCP-1 concentrations and increased cytosolic to nuclear translocation of NF-kappaB while having no effect on AP-1 levels. These observations suggest that in the pathogenesis of pulmonary granulomatous disease, intracellular glutathione redox status modulates the expression of MCP-1 through redox-sensitive transcription factors.
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PMID:Intracellular glutathione redox status modulates MCP-1 expression in pulmonary granulomatous vasculitis. 1041 24

1-Cyano-3,4-epithiobutane (CEB), a naturally occurring nitrile derived from cruciferous plants, causes nephrotoxicity and increased renal glutathione (GSH) concentration in male F-344 rats. This CEB-induced nephrotoxicity is dependent on GSH conjugation and bioactivation. The objectives of the present study were to investigate the effect of CEB on several xenobiotic-metabolizing enzymes and to evaluate the effect of modulators of GSH transport and metabolism on CEB-induced nephrotoxicity and GSH concentration. Animals received 125 mg kg-1 CEB alone or following pretreatment with one of three selective inhibitors of GSH metabolism: acivicin, probenecid or aminooxyacetic acid. There were no significant alterations in epoxide hydrolase (EH), P-450, ethoxyresorufin O-deethylase (EROD) or pentoxyresorufin O-depentylase (PROD) enzyme activity, but renal glutamyl cysteine synthetase (GCS) activity was decreased at 12 and 24 h, as was renal glutathione S-transferase 4 h after CEB administration. Renal ECOD activity was also diminished at 24 h and at 12 and 24 h in liver. Aminooxyacetic acid (AOAA) abrogated the nephrotoxicity, the renal GSH-enhancing effect, and decreased GCS of CEB alone. These findings provide further evidence for the importance of GSH conjugation as a significant pathway in CEB metabolism and the role of a reactive thiol in nephrotoxicity and altered renal GSH.
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PMID:Protection from 1-cyano-3,4-epithiobutane nephrotoxicity by aminooxyacetic acid and effect on xenobiotic-metabolizing enzymes in male Fischer 344 rats. 1043 37


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