EC:3.4.24.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.24.3 (collagenase)
18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Aberrant expression of the antioxidant enzyme glutathione peroxidase (GPx) could contribute to the etiology of rheumatoid arthritis (RA). However, previous enzyme activity studies examining this relationship were inconclusive. Indirect evidence for this relationship derives from the known efficacy of gold therapy in RA, since gold compounds specifically inhibit GPx. The hypothesis that variants of GPx are associated with RA was examined by two approaches: enzyme activity analysis and restriction fragment length polymorphism (RFLP) association analysis. No significant difference was found in whole blood GPx activity between 28 RA patients and 36 controls. GPx activity appeared to be independent of sex, race, or type of drug treatment. However, a statistically significant difference was found with respect to treatment responsiveness. RA patients classified as good responders to gold therapy, but who were no longer taking gold, had a significantly higher GPx activity compared to both the controls and good responders currently on gold therapy. Aberrantly high GPx activity could contribute to RA by generating excess oxidized glutathione, a potent collagenase activator. Gold therapy would reduce GPx activity to normal levels. The restriction enzyme Pvu II in conjunction with a GPx gene probe identified a useful RFLP (Al, 22 kbp; A2, 15 kbp) with allelic frequencies of A1 and A2 equal to 0.11 and 0.89, respectively, in the control population. No statistically significant association, however, could be demonstrated between this allelic variant of the GPx gene and RA.
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PMID:Role of glutathione peroxidase in rheumatoid arthritis: analysis of enzyme activity and DNA polymorphism. 134 42

The characteristics of the human neutrophil collagenase and intracellular and extracellular mechanism regulating this enzyme were given. There were presented molecular basis collagenase latent state , activation of latent enzyme form through the system dependent on free oxygen radicals and the role of glutathione peroxidase in the regulation of the activity of the human leukocyte collagenase.
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PMID:[Collagenase of human leukocytes. Its characteristics, function and regulatory mechanisms]. 165 60

The effects of culture duration on primary cultured mouse hepatocyte antioxidant levels (superoxide dismutase, catalase, glutathione peroxidase, vitamin E, and glutathione) and susceptibility to glucose oxidase (GO)- and hydrogen peroxide (H2O2)-induced cell killing and lipid peroxidation were examined. Membrane fatty acid composition was also evaluated. Adult male B6C3F1/CrlBR mouse hepatocytes were isolated by collagenase perfusion of the liver and cultured on 60-mm plastic dishes in Leibovitz's L-15 medium supplemented with glucose (1 mg/ml), dexamethasone (1 microM), fetal bovine serum (10%, v/v), and gentamicin sulfate (50 micrograms/ml) for 0 hr (freshly isolated cells) to 96 hr. Hepatocyte toxicity (determined by lactate dehydrogenase release and lipid peroxidation) after a 2-hr exposure to GO (0.8-80 micrograms/ml) or H2O2 (1-5 mM) decreased with increased time in culture. This decreased hepatocyte sensitivity to GO and H2O2 toxicity was not related to antioxidant enzyme activity since superoxide dismutase, catalase, and glutathione peroxidase declined during the 96-hr culture period. In contrast, glutathione and vitamin E levels in the cultured hepatocytes rose to 274.9 +/- 8.3% and 220.6 +/- 18.6% of the levels in freshly isolated cells (129.6 +/- 11.5 nmol and 0.10 +/- 0.01 nmol per 10(6) hepatocytes, respectively). The percentage of polyunsaturated fatty acids in hepatocyte phospholipids and triglycerides decreased with culture duration while the percentage of oleic acid increased in esterified and free fatty acid pools after 2 hr in culture. Total fatty acids were not affected by time in culture. These results suggest that the decreased hepatocyte susceptibility to the toxic effects of hydrogen peroxide may have been due to elevations in cellular GSH and vitamin E levels and decreases in membrane polyunsaturated fatty acids. The data also indicate that hepatocytes in primary culture undergo changes in antioxidant levels and fatty acid composition that may affect free radical toxicity at different times in culture.
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PMID:Effects of culture duration on hydrogen peroxide-induced hepatocyte toxicity. 278 69

Periportal and perivenous hepatocytes were isolated by the digitonin-collagenase perfusion technique. The activity of the cytosolic glutathione S-transferase was higher in perivenous cells, but the cytosolic glutathione reductase and the microsomal glutathione S-transferase activities were evenly distributed. In contrast, both the Se-dependent and the microsomal Se-independent glutathione peroxidase activity and the glucose-6-phosphate dehydrogenase activity was much lower in perivenous hepatocytes, suggesting that these cells have a lowered detoxification capacity, which may contribute to their greater susceptibility to damage by xenobiotics. The mechanism of the ethanol-induced GSH depletion in vivo was studied by incubating conventionally isolated hepatocytes. In the absence of glutathione precursors, ethanol (80 mM) did not influence the GSH content, despite accumulation of acetaldehyde (10-100 MicroM). L-Methionine or L-cysteine stimulated GSH replenishment to in vivo rates. Ethanol oxidation resulted in acetaldehyde accumulation, but did not inhibit GSH replenishment from L-methionine and even stimulated that from L-cysteine. This seems to exclude conjugation of GSH with acetaldehyde as a mechanism by which ethanol suppresses GSH levels in vivo.
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PMID:Glutathione metabolism in isolated rat hepatocytes: acinar heterogeneity of detoxifying enzymes and effects of ethanol. 342 86

The acinar distribution of glutathione S-transferase (GST), glutathione peroxidase (GPx), glutathione reductase (GR), and glucose-6-phosphate dehydrogenase (G-6-PDH) was examined by analyzing periportal (p.p.) and perivenous (p.v.) rat hepatocytes selectively isolated by the digitonin-collagenase perfusion. The cytosolic GST activity was higher in p.v. cells, but the microsomal GST and cytosolic GR were found to be evenly distributed in the acinus. In contrast, the activity of both the Se-dependent GPx and the microsomal (Se-independent) GPx, as well as G-6-PDH, was much lower in the p.v. than in the p.p. cells. The heterogeneous distribution of GST, GPx and G-6-PDH was confirmed by analyzing liver perfusion effluents collected after ante- or retrograde digitonin infusion. The relatively low activities of GPx and G-6-PDH in the p.v. cells could partly explain the susceptibility of this region to chemical injury.
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PMID:Acinar distribution of glutathione-dependent detoxifying enzymes. Low glutathione peroxidase activity in perivenous hepatocytes. 359 5

Bleomycin-Cu(II) complex tended to increase the lipid peroxide level in cultured lung fibroblasts, though neither free bleomycin nor free cupric ion increased the level. Simultaneous addition of DL-alpha-tocopherol decreased the level significantly. Bleomycin-Cu(II) complex decreased glutathione peroxidase activity remarkably, though free bleomycin reduced the activity only slightly. Collagenase activity was not decreased but rather increased by both free bleomycin and bleomycin-Cu(II) complex. Accordingly, the accumulation of collagen induced by bleomycin could be explained not by a decrease in collagenase activity, but by the occurrence of cross-linking of collagen due to the increased lipid peroxides.
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PMID:Effect of bleomycin on lipid peroxides, glutathione peroxidase and collagenase in cultured lung fibroblasts. 619 Jul 99

Chloroform (CHCl3) is widely used in the manufacture of drugs, cosmetics, plastics and cleaning agents. It is also found in chlorinated drinking water. This study was designed to investigate the toxic effect of CHCl3 on isolated male rat hepatocytes using several toxicity parameters. The hepatocytes were isolated by a collagenase perfusion technique and the cell viability was determined by Trypan blue exclusion. The leakage of cytosolic enzymes such as aspartate transaminase (AST) and alanine transaminase (ALT) after treatment with CHCl3 was measured. Reduced glutathione content (GSH) and its related enzymes, glutathione reductase (GSH-Rx) and glutathione peroxidase (GSH-Px), were also evaluated to study the effect of CHCl3 on hepatocytes. Exposure to 100 and 1000 ppm CHCl3 results in a significant decrease in cell after 30 min incubation. However, the effect of 1 and 10 ppm concentrations was observed at 60 min incubation. AST leakage was significantly increased in all treatment groups, while ALT was significantly increased at 100 and 1000 ppm CHCl3 after 60 and 30 min, respectively. As early as 15 min, GSH was decreased significantly at 1000 ppm, but at 100 and 10 ppm CHCl3 the decrease in GSH began after 30 and 120 min, respectively. GSH-Px activity did not changed. However, the activity of GSH-Rx was significantly decreased at 1000 ppm CHCl3 and at the same time GSH content was decreased. The data indicate that the toxic effect of CHCl3 was dose- and time-dependent. The degree of GSH depletion correlated with increased cytotoxicity and decreased GSH-Rx activity due to CHCl3.
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PMID:The mechanism of chloroform toxicity in isolated rat hepatocytes. 835 69

Mercury is the major component of dental amalgam restorative material, which typically has 50% pure elemental mercury. It is also used in some skin creams, and in the manufacturing of plastic, drugs and fungicides. The present study was designed to investigate the toxicity of methyl mercury (MeHg+) on isolated rat hepatocytes using several toxicity parameters. The hepatocytes were isolated by a collagenase perfusion technique and were incubated with different concentrations of MeHg+ (0.1-100 ppm) for 2 h. Through the incubation period the viability was determined by Trypan blue exclusion. Reduced glutathione (GSH) content and its enzymes, glutathione peroxidase (GSH-PX) and glutathione reductase (GSH-RX) were measured. Leakage of enzymes such as aspartate transaminase (AST), and alanine transaminase (ALT) were determined. The cell viability was reduced significantly after 1 h incubation when 0.1 and 1 ppm MeHg+ were applied. The decrease in the cell viability was dose- and time-dependent. A depletion of GSH content was observed with 100 ppm MeHg+ after 30 min of incubation. A significant decrease in GSH-RX was observed with 100 ppm during 15 and 30 min of incubation, while 10 ppm of MeHg+ significantly increased ALT leakage after 60 min. However, there was a significant increase in AST leakage with 100 ppm only. The present investigation indicates that the toxic effect of MeHg+ is most likely cytosolic enzyme related.
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PMID:The mechanism of methyl mercury toxicity in isolated rat hepatocytes. 835 70

The study aimed to assess the effect of lipopolysaccharide (LPS) in vivo (from Escherichia coli, 2 mg/kg body weight intraperitoneally) on the production and elimination of hydrogen peroxide (H2O2) in rat hepatic endothelial and Kupffer cells. Twenty-two hours after the injection of LPS, hepatic cells were isolated by collagenase and pronase digestion followed by centrifugal elutriation, and cell-associated H2O2 was determined by flow cytometry analysis using 2',7'-dichloroflorescin diacetate (DCF-diacetate). LPS treatment did not alter the basal or phorbol myristate acetate-stimulated levels of H2O2-related fluorescence in endothelial cells; however, it doubled phorbol myristate acetate-stimulated fluorescence in Kupffer cells. Administration of varying concentrations of H202 (range, 10(-7) - 10(-4) mol/L) in vitro caused a significantly delayed increase in fluorescence in endothelial cells from endotoxemic rats as compared with cells from saline-injected animals. The 50% effective concentration of H202 was found at 1.1 x 10(-6) and 8.1 x 10(-6) mol/L on endothelial cells after saline and LPS treatment, respectively. No differences were detected in H2O2-stimulated fluorescence between resting and LPS-stimulated Kupffer cells. Administration of varying glucose concentrations in vitro significantly decreased the H2O2-stimulated fluorescence in endothelial and Kupffer cells from LPS-injected animals. Inhibition of nitric oxide synthase by in vitro administration of NG-monomethyl-L-arginine (L-NNMMA) did not alter the H2O2- or phorbol myristate acetate-stimulated responses in endothelial and Kupffer cells. As shown earlier, LPS stimulates the gene expression of GLUT1 glucose transporter, glucose-6-phosphate dehydrogenase (G6PD), superoxide dismutases, and glutathione peroxidase in hepatic endothelial cells. The present data indicate that the LPS-induced metabolic alterations are accompanied by an increased H2O2-detoxifying capacity in hepatic endothelial cells. This may represent a protective mechanism against exogenous oxidative stress caused by activated hepatic phagocytes during inflammation. Our observations are consistent with primed production of reactive oxygen species (ROS) in LPS-activated Kupffer cells.
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PMID:Endotoxin stimulates hydrogen peroxide detoxifying activity in rat hepatic endothelial cells. 878 44

Reactive oxygen species (ROS) have been shown to be important messenger molecules in the induction of several genes. In human dermal fibroblasts the herbicide paraquat (PQ2+) was used to induce intracellular oxidative stress that was modulated by the inhibition of copper, zinc superoxide dismutase (Cu,ZnSOD), glutathione peroxidase (GSHPx), catalase, and blocking of the Fenton reaction. Interstitial collagenase (MMP-1) mRNA increased time dependently for up to 72 h following paraquat treatment. A correlation with the translation of MMP-1 could, however, only be detected up to 24 h, indicating an uncoupling of transcription and translation. Interleukin-1 alpha and beta mRNA showed two peaks at 6 h and 72 h. The inhibition of catalase by aminotriazol (ATZ), inhibition of GSHPx by buthionine sulfoximine (BSO), and blocking the Fenton reaction by the iron chelator desferrioxamine (DFO) in concert led to an increase in steady-state MMP-1 mRNA levels, possibly dependent on intracellular H2O2 increase. This combined treatment potentiated MMP-1 mRNA induction up to 6.5-fold compared to paraquat treated controls. Furthermore, exogenously added H2O2 caused an increase in MMP-1 mRNA levels. In contrast, inhibition of Cu,ZnSOD by diethyldithiocarbamate (DDC), leading to diminished H2O2 production from O2.-, decreased MMP-1 mRNA induction. Collectively, our data provide evidence that H2O2 is an important intermediate in the downstream signalling pathway finally leading to the induction of increased steady state MMP-1 mRNA levels. The synthesis of MMPs may contribute to connective tissue damage in vivo related to photoaging, inflammatory diseases, and tumor invasion.
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PMID:Hydrogen peroxide (H2O2) increases the steady-state mRNA levels of collagenase/MMP-1 in human dermal fibroblasts. 898 Oct 44

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