Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.11.1.7 (peroxidase)
 65,474 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mouse and human spermatozoa, but not rabbit spermatozoa, have long been known to be sensitive to loss of motility induced by exogenous H2O2. Recent work has shown that loss of sperm motility in these species correlates with the extent of spontaneous lipid peroxidation. In this study, the effect of H2O2 on this reaction in sperm of the three species was investigated. The rate of spontaneous lipid peroxidation in mouse and human sperm is markedly enhanced in the presence of 1-5 mM H2O2, while the rate in rabbit sperm is unaffected by H2O2. The enhancement of lipid peroxidation, the rate of reaction of H2O2 with the cells, the activity of sperm glutathione peroxidase, and the endogenous glutathione content are highest in mouse sperm, intermediate in human sperm, and very low in rabbit sperm. Inactivation of glutathione peroxidase occurs in the presence of H2O2 due to complete conversion of endogenous glutathione to GSSG: No GSH is available as electron donor substrate to the peroxidase. Inactivation of glutathione peroxidase by the inhibitor mercaptosuccinate has the same effect on rate of lipid peroxidation and loss of motility in mouse and human sperm as does H2O2. This implies that H2O2 by itself at 1-5 mM is not intrinsically toxic to the cells. With merceptosuccinate, the endogenous glutathione is present as GSH in mouse and human sperm, indicating that the redox state of intracellular glutathione by itself plays little role in protecting the cell against spontaneous lipid peroxidation. Mouse and human sperm also have high rates of superoxide production. We conclude that the key intermediate in spontaneous lipid peroxidation is lipid hydroperoxide generated by a chain reaction initiated by and utilizing superoxide. Removal of this hydroperoxide by glutathione peroxidase protects these sperm against peroxidation; inactivation of the peroxidase allows lipid hydroperoxide to increase and so increases the peroxidation rate. Rabbit sperm have low rates of superoxide reaction due to high activity of their superoxide dismutase; lack of endogenous glutathione and low peroxidase activity does not affect their rate of lipid peroxidation. As a result, these sperm are not affected by either H2O2 or mercaptosuccinate. These results lead us to postulate a mechanism for spontaneous lipid peroxidation in mammalian sperm which involves reaction of lipid hydroperoxide and O2 as the rate-determining step.
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PMID:Role of glutathione peroxidase in protecting mammalian spermatozoa from loss of motility caused by spontaneous lipid peroxidation. 254 84

The one- or two-electron oxidation of thyroglobulin by the thyroid peroxidase system was found to be regulated by the iodine content of thyroglobulin. The catalytic intermediate of thyroid peroxidase observed at steady state of the reaction was Compound I and II when the iodine content in thyroglobulin was 0.2 and 0.7%, respectively, apparent rate constants for the rate-limiting steps being estimated at 4.7 x 10(7) and 4.8 x 10(4) M-1 S-1. The thyroglobulin-mediated oxidation of GSH occurred by way of two-electron transfer at 0.2% iodine content and by way of one-electron transfer at 0.7% iodine content. The spin-trapping experiment with 5,5-dimethyl-1-pyrroline-N-oxide showed that glutathione radicals were formed in the latter reaction but not in the former. In the reactions of thyroid peroxidase, the one- and two-electron oxidations of ascorbate were also mediated by 0.2 and 0.7% iodine thyroglobulins, respectively. The reactions were analyzed and mimicked with the use of p-cresol and p-acetaminophenol as a mediator in the reactions of lactoperoxidase and thyroid peroxidase.
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PMID:Thyroglobulin-mediated one- and two-electron oxidations of glutathione and ascorbate in thyroid peroxidase systems. 254 39

We have demonstrated that penicillamine (PSH) has the capacity to effect phagocytic cells by its interaction with the myeloperoxidase-halide system (MPOHS). We have undertaken studies at the cellular level, measuring the activity of the MPOHS through quantitation of I125 uptake (free and bound), known as the iodination reaction (i.e., in isolated polymorphonuclear leukocytes (PMN) and in whole blood). In contrast to other studies investigating the effects of PSH on isolated myeloperoxidase (MPO), we have shown that PSH scavenges the H2O2 produced by phagocytic cells, thereby reducing the availability of H2O2 for conversion to HOI125 by myeloperoxidase. This was observed as a reduction in the level of iodination. This finding is supported by our having obtained similar results in PMN and whole blood with catalase (C), glutathione (GSH) and N-acetylcysteine (NAC) but not with penicillamine disulphide (PSSP) or superoxide dismutase. Cu2+ (8 microM) when incubated with PSH reduced the level of inhibition of the iodination reaction by the oxidation of PSH to PSSP, illustrating the importance of the free sulphydryl group for this action. Incubation of PMN or whole blood for 0 to 2 hours with PSH, with a subsequent washing of PMN prior to stimulation, showed that PSH (free) requires to be present during stimulation of phagocytic cells to have this effect on the iodination reaction. Superoxide dismutase (SOD) produced increases in the iodination reaction in stimulated PMN by increasing the availability of H2O2. In conclusion, PSH inhibits the myeloperoxidase-halide system at a cellular level by scavenging H2O2 rather than by oxidation of the myeloperoxidase enzyme. This was observed at clinically relevant concentrations of PSH.
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PMID:Modulation of the iodination reaction in normal human neutrophils and in whole blood by penicillamine, congeners and intracellular enzyme catalase and superoxide dismutase. 255 28

Cellular copper metabolism and the mechanism of resistance to copper toxicity were investigated using a wild type hepatoma cell line (HAC) and a copper-resistant cell line (HAC600) that accumulates copper and has a highly elevated level of metallothionein (MT). Of the enzymes involved in reactive oxygen metabolism, only glutathionine peroxidase was elevated (3-4-fold) in resistant cells, suggestive of an increase in the cellular flux of hydrogen peroxide. A majority of the cytoplasmic copper (greater than 60%) was isolated from both cell lines as a GSH complex. Kinetic studies of 67Cu uptake showed that GSH bound 67Cu before the metal was complexed by MT. Depletion of cellular GSH with buthionine sulfoximine inhibited the incorporation of 67Cu into MT by greater than 50%. These results support a model of copper metabolism in which the metal is complexed by GSH soon after entering the cell. The complexed metal is then transferred to MT where it is stored. This study also indicates that resistance to metal toxicity in copper-resistant hepatoma cells is due to increases in both cellular GSH and MT. Furthermore, it is suggested that elevated levels of GSH peroxidase allows cells to more efficiently accommodate an increased cellular hydrogen peroxide flux that may occur as a consequence of elevated levels of cytoplasmic copper.
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PMID:The role of glutathione in copper metabolism and toxicity. 256 91

A spontaneously originated murine mammary adenocarcinoma (16C), selected for its sensitivity to agents active against breast cancer in women, and one of the very few experimental solid tumor models responsive to Adriamycin (ADR) was used to study the mechanism of induced ADR resistance in vivo. A resistant variant of the tumor was obtained from the explant of a regrown tumor following a dose of ADR (12 mg/kg) that caused complete tumor repression but not cure. Progressive refractoriness to ADR was observed following up to six repeated cycles of treatment, regression and regrowth. However, beyond the sixth treatment, no further degree of resistance could be obtained. The cell line so established, designated 16C/ADRR, has a glutathione (GSH) content 1.67 times greater than the parent 16C line. Depletion of GSH by buthionine sulfoximine (BSO) enhanced the cytoxicity of ADR in both cell lines. The sensitization effect appeared to be dependent on the degree of GSH depletion, requiring a threshold level of depletion to approximately 30% of control. The resistance of 16C/ADRR, however, appeared not to be directly related to the increased absolute GSH level per se since reduction of the GSH content of the 16C/ADRR line to levels similar to that of the parent 16C line did not restore the original sensitivity to ADR. However, the activities of two important elements in the GSH detoxification system, GSH peroxidase and S-transferase, were found to be elevated in resistant cells by factors of 2.4 and 4.7-5.6 respectively. In vivo studies with a diverse spectrum of antineoplastic drugs revealed a pattern of cross-resistance consistent with the idea that elevated GSH S-transferase and peroxidase activities may be responsible for the decreased (2.8- to 5.3-fold) sensitivity to ADR. 16C/ADRR exhibited cross-resistance with melphalan (MEL), but none with vincristine (VCR), vinblastine (VBL) or etoposide (VP-16). These results clearly demonstrate non-adherence by the 16C/ADRR tumors to the well characterized multidrug resistance (mdr) phenotype. Further affirmation of this conclusion was obtained by immunochemical and pharmacological studies. When a monoclonal antibody prepared against the mdr associated, 170 kD P-glycoprotein (170 P-gp), was used, the presence of the 170 kD P-gp in both the sensitive and resistant 16C lines could not be detected, although the presence of a lower molecular weight form of P-gp could not be ruled out entirely. High performance liquid chromatographic measurement of ADR accumulation and elimination also failed to reveal any significant differences between the sensitive and resistant variants.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:A study of the mechanism of resistance to Adriamycin in vivo. Glutathione metabolism, P-glycoprotein expression, and drug transport. 257 74

The aims of our experiments were to clear up the possible correlations between the free radical mechanisms and the gastric cytoprotection of beta-carotene on HCl-induced gastric mucosal lesions. The beta-carotene was intragastrically given in doses of 1 and 10 mg/kg and 30 min. later 1 ml 0.6 N HCl was given to provoke the mucosal damage. After 1, 5, 15, 30 and 60 min. the animals were sacrificed. The number and severity of gastric mucosal lesions were calculated. The superoxide dismutase (SOD), glutathion peroxidase (GPX), catalase (CAT) activity and the malondialdehyde (MDA) and reduced glutathion (GSH) contents were determined from the gastric mucosa of rats. It was found that 1. beta-carotene was able to reduce the number and severity of ulcers only after 30 min.; 2. the CAT activity was decreased at 60 min. by carotene; 3. the GPX activity became dissimilar in the different groups after 15 min; 4. the changes of GSH were found to be similar ones; 5. the SOD activity was lower during the cyto-protection; 6. the MDA level remained practically unchanged. It has been concluded that 1. the free radicals are the consequences of the development of gastric ulcer and cytoprotection; 2. the scavenger character of beta-carotene is involved in its cytoprotective effect.
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PMID:The free radical mechanisms in beta-carotene induced gastric cytoprotection in HCl model. 259 22

Glutathione (GSH) comprises the bulk of the pool of free thiol groups in biological systems. Since its first description as philothione 100 years ago, there have been repeated surprises in discoveries of novel functions. Just recently the important role of thioethers with products of the lipoxygenase reaction, i.e., the leukotrienes, was revealed as mediator of physiological and pathophysiological processes. Another major function resides in detoxication, GSH being cosubstrate in the GSH-peroxidase reaction for the reduction of hydroperoxides in the defense against oxidative stress. Interest also focuses on reactions of glutathionyl radicals in protection by thiols against DNA damage resulting from ionizing radiation.
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PMID:[Biochemistry of thiol groups: the role of glutathione]. 265 38

The metabolism of chemical carcinogens was investigated in liver preparations from 28 captive woodchucks (Marmota monax). Of these, 23 were naturally infected with the woodchuck hepatitis virus (WHV), and eight also had primary hepatocellular carcinoma (PHC). Twenty-nine parameters were investigated in liver subcellular fractions, including cross-reactivity with HBsAg, and biochemical parameters, such as gamma-glutamyl transpeptidase, cytochrome P-450 and microsomal monooxygenases (aryl hydrocarbon hydroxylase, ethoxycoumarin and ethoxyresorufin deethylases, aminopyrine and dimethylnitrosamine demethylases, and testosterone 7 alpha-, 16 alpha- and 6 beta-hydroxylases), uridine 5'-diphosphoglucuronosyl transferase, GSH and related enzymes (peroxidase, reductase and S-transferase), as well as other cytosolic enzyme activities (glucose 6-phosphate and 6-phosphogluconate dehydrogenases, NADPH- and NADH-dependent diaphorases, and DT diaphorase). In addition, liver preparations were used in order to quantify the metabolic activation into bacterial mutagens of five procarcinogens (aflatoxin B1, the pyrolysis products Trp-P-2 and MeIQ, 2-aminofluorene and dimethylnitrosamine) and the decrease of potency of three direct-acting mutagens (sodium dichromate, ICR 191 and 4-nitroquinoline 1-oxide). WHV infection produced a significant stimulation of carcinogen metabolism, as shown by the simultaneous change in detoxification parameters (GSH depletion) and activation indices (enhancement of microsomal monooxygenases and of procarcinogen activation into mutagenic metabolites). There were no significant differences between WHV-positive samples from animals without PHC and the noncancerous tissue of PHC-bearing animals, whereas a decrease of both activation and detoxification indices was recorded in the tumorous tissue. There was a considerable interindividual variability among WHV carriers, which was tentatively ascribed to genetic factors. Pregnancy was the only known factor influencing the results in WHV carriers. However, even by excluding pregnant animals, the effects on carcinogen metabolism produced by WHV infection were still statistically significant. These results, together with previous data obtained in humans, revealed that metabolic factors may play a role in the synergism between viral hepatitis and chemical hepatocarcinogens in the etiopathogenesis of PHC.
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PMID:Enhanced metabolic activation of chemical hepatocarcinogens in woodchucks infected with hepatitis B virus. 272 Sep 3

Human platelets were dose- and time-dependently depleted of intracellular glutathione (GSH) by treatment with the chemical oxidizing agents diamide and N-ethylmaleimide (NEM), and by formation of chemical conjugates with 1-chloro-2,4-dinitrobenzene (CDNB) catalyzed by GSH-S-transferase. In addition to effects upon GSH, these agents also inhibited platelet GSH-peroxidase activity. The inhibitory effect of CDNB was selective for GSH-peroxidase, while diamide and NEM treatment caused inhibition of several other cytosolic enzymes tested. Arachidonic acid (AA) induced aggregation and secretion responses measured in platelets depleted of GSH by diamide and NEM were attenuated. In contrast, these platelet functions remained identical to control following GSH depletion by CDNB treatment, suggesting that GSH is not required for normal platelet aggregation or secretion. Effects of diamide and NEM apart from their action on GSH may account for the platelet dysfunction induced by these compounds.
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PMID:The influence of glutathione depleting agents on human platelet function. 273 29

The pathogenesis of neonatal necrotizing enterocolitis is unknown, but a possible role for reactive oxygen metabolites has been postulated. We evaluated whether developmental differences exist in the levels of 1) the free radical-generating enzyme xanthine oxidase, 2) granulocyte peroxidase, an index of the resident granulocyte population, 3) free radical-scavenging enzymes (superoxide dismutase, catalase, and glutathione peroxidase), and 4) reduced glutathione, an endogenous antioxidant, in the ileal and colonic mucosa of 1-d-old, 3-d-old, 2-wk-old, and 1-mo-old piglets. We found no xanthine dehydrogenase/oxidase activity in 1-d to 1-mo-old piglets. Mucosal granulocyte peroxidase activity was higher in older animals, indicating that there was an age-dependent infiltration of granulocytes (eosinophils, neutrophils) in the distal bowel. The peroxidase activity per circulating granulocyte, however, did not vary with age. Superoxide dismutase activity was significantly higher in 1-d-old piglets than in all older age groups; glutathione peroxidase activity was significantly lower in 1-d-old animals than that of older age groups. There was no detectable catalase activity in the mucosa when tissue was corrected for catalase activity of blood. Finally, ileal GSH levels were significantly lower in 1-d-old than in 2-wk-old and 1-mo-old animals, whereas colonic reduced glutathione activity did not differ among age groups. In conclusion, the distal bowel of the neonatal piglet appears to have a limited capacity to generate oxidants via xanthine oxidase and resident granulocytes. However, the neonatal piglet intestine has a lower capacity to detoxify hydrogen peroxide than that of older animals.
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PMID:Developmental biology of oxidant-producing enzymes and antioxidants in the piglet intestine. 274 Jan 52


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