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: UNIPROT:P36969 (phospholipid hydroperoxide glutathione peroxidase)
344 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The importance of nutrition in protecting the living organism against the potentially lethal effects of reactive oxygen species and toxic environmental chemicals has recently been realized. This new perspective has prompted re-evaluation of the food constituents of human diet from the point of view of their nutritional adequacy, deficiency and toxicity. The biological antioxidant defense system is an integrated array of enzymes, antioxidants and free radical scavengers. These include glutathione reductase, glutathione-s-transferase, glutathione peroxidase, phospholipid hydroperoxide glutathione peroxidase, superoxide dismutase (SOD) and catalase, together with the antioxidant vitamins C, E and A. The individual components of this system get utilized in various physiological process and for chemoprotection and therefore require replenishment from the diet. Other components of the diet like carbohydrates, proteins and lipids are important for maintaining the levels of various enzymes required in body's defense system providing protection against carcinogens. However, the emerging newer concepts focus on the role of trace elements and other dietary components in antioxidant defense and detoxification mechanisms. Trace elements like Iron, zinc magnesium, selenium, copper, and manganese are some of the elements involved in antioxidant defense mechanisms. Inadequate intake of these nutrients has been associated with ischemic heart disease, arthritis, stroke and cancer, where pathogenic role of free radicals is suggested. Further the importance of diet in the prevention of chemical induced toxicity can not be undetermined. Recent reports on the role of bioflavonoids as antioxidents and their potential use to reduce the risks of coronary heart disease and cancer in human beings have opened a new arena for future research. Induction of the cytochrome P450 isoenzymes by food pyrolysis, mutagens, alcohol and fasting, on the other hand is reported to contribute to chemical toxicity and carcinogenecity. Certain chemicals moieties in the food are mutagenic and carcinogenic.
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PMID:Role of nutrition in toxic injury. 1064 Nov 28

Severe steroidogenic and spermatogenic alterations are reported in association with diabetic manifestations in humans and experimental animals. This study was planned to determine whether oxidative stress is involved in diabetes-induced alterations in the testes. Diabetes was induced in male rats by injection of 50 mg/kg of streptozotocin (STZ). Ten weeks after injection of STZ, levels of selenium and activities of selenium dependent-glutathione peroxidase (GPx) and phospholipid hydroperoxide glutathione peroxidase (PHGPx) were measured in rat testis. Lipid and protein oxidations were evaluated as measurements of testis malondialdehyde (MDA) and protein carbonyl levels, respectively. Testis sulfydryl (SH) levels were also determined. The control levels of GPx and PHGPx activities were found to be 46.5 +/- 6.2 and 108.8 +/- 19.8 nmol GSH/mg protein/min, respectively. Diabetes caused an increase in testis GPx (65.0 +/- 21.1) and PHGPx (155.9 +/- 43.1) activities but did not affect the levels of selenium or SH. However, the testis MDA and protein carbonyl levels as markers of lipid and protein oxidation, respectively, did not increase in the diabetic group. Aminoguanidine (AG) treatment of diabetic rats returned the testis PHGPx activity (136.5 +/- 24.9) to the control level but did not change the value of GPx activity (69.2 +/- 17.4) compared with diabetic group. MDA and protein carbonyl levels in testis were not affected by AG treatment of diabetic rats, but interestingly AG caused SH levels to increase. The results indicate that reactive oxygen radicals were not involved in possible testicular complications of diabetes because diabetes-induced activations of GPx and PHGPx provided protection against oxidative stress, which was reported to be related to some diabetic complications.
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PMID:Testis glutathione peroxidase and phospholipid hydroperoxide glutathione peroxidase activities in aminoguanidine-treated diabetic rats. 1089 37

Although reactive oxygen species (ROS) such as superoxide and hydroperoxide are known to induce apoptotic cell death, little is known as to the apoptotic death signaling of mitochondrial ROS. Recent evidence has suggested that antioxidant enzymes in mitochondria may be responsible for the regulation of cytochrome c release and apoptotic cell death. This paper examines the current state of knowledge regarding the role of mitochondrial antioxidant enzymes, especially phospholipid hydroperoxide glutathione peroxidase. A model for the release of cytochrome c by lipid hydroperoxide has also been proposed.
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PMID:Involvement of mitochondrial phospholipid hydroperoxide glutathione peroxidase as an antiapoptotic factor. 1122 42

Exposure of living organisms to reactive oxygen species (ROS), notably oxygen free radicals and hydrogen peroxide is closely linked to the very fact of aerobic life. Oxidants, however, are not always detrimental for cell survival, indeed moderate concentrations of ROS serve as signaling molecules. To maintain this level, cells have evolved an antioxidant defense system. Disruption of this balance leads either to oxidative or reductive stress. Down syndrome (DS) is a genetic disorder associated with oxidative stress. Overexpression of superoxide dismutase-1 (SOD-1) as a result of gene loading is suggested to be responsible for this phenomenon. To examine this view, we investigated the expression of thirteen different proteins involved in the cellular antioxidant defense system in brains of control and DS fetuses by two-dimensional electrophoresis (2-DE) coupled with matrix-assisted laser desorption/ionization mass spectroscopy (MALDI-MS). No detectable change was found in expression of SOD-1, catalase, phospholipid hydroperoxide glutathione peroxidase, glutathione reductase, antioxidant enzyme AOE372, thioredoxin-like protein and selenium binding protein between control and DS fetuses. By contrast, a significant reduction was observed in levels of glutathione synthetase (P < 0.01), glutathione-S-transferase mu2 (P < 0.01), glutathione-S-transferase p (P < 0.05), antioxidant protein 2 (P < 0.05), thioredoxin peroxidase-I (P < 0.05) and thioredoxin peroxidase-II (P < 0.01) in DS compared with controls. The data suggest that oxidative stress in fetal DS does not result from overexpression of SOD-1 protein, rather oxidative stress appears to be the consequence of low levels of reducing agents and enzymes involved in removal of hydrogen peroxide.
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PMID:Antioxidant proteins in fetal brain: superoxide dismutase-1 (SOD-1) protein is not overexpressed in fetal Down syndrome. 1177 62

Reactive oxygen species production and glutathione depletion in mammalian male germ cells are physiological events that are requisite to the functional maturation and capacitation of spermatozoa. In relation to this oxidative stress, an oxidation of the bulk of protein sulfydryl groups takes place during the final phases of male germ cell maturation. The selenoenzyme phospholipid hydroperoxide glutathione peroxidase catalyzes this reaction, and accounts for both the assembly of the mid-piece of spermatozoa and chromatin condensation. This process highlights the role of H2O2 and selenium in spermatogenesis and provides a mechanism for coupling a 'physiologically controlled' oxidative stress to a specialized phenotypic function.
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PMID:Oxidative stress, spermatogenesis and fertility. 1203 48

Reactive oxygen species (ROS) are known mediators of intracellular signal cascades. Excessive production of ROS may lead to oxidative stress, loss of cell function, and cell death by apoptosis or necrosis. Lipid hydroperoxides are one type of ROS whose biological function has not yet been clarified. Phospholipid hydroperoxide glutathione peroxidase (PHGPx, GPx4) is a unique antioxidant enzyme that can directly reduce phospholipid hydroperoxide in mammalian cells. This contrasts with most antioxidant enzymes, which cannot reduce intracellular phospholipid hydroperoxides directly. In this review, we focus on the structure and biological functions of PHGPx in mammalian cells. Recently, molecular techniques have allowed overexpression of PHGPx in mammalian cell lines, from which it has become clear that lipid hydroperoxides also have an important function as activators of lipoxygenase and cyclooxygenase, participate in inflammation, and act as signal molecules for apoptotic cell death and receptor-mediated signal transduction at the cellular level.
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PMID:Biological significance of phospholipid hydroperoxide glutathione peroxidase (PHGPx, GPx4) in mammalian cells. 1252 97

To determine the effect on gene expression of trace levels of reactive oxygen species from mitochondria, we used the mRNA differential display technique to compare gene expression in two cell lines: M15, which overexpresses mitochondrial phospholipid hydroperoxide glutathione peroxidase (mtPHGPx), in rat basophilic leukemia RBL-2H3 cells, and a control cell line, S1. We isolated 27 differentially expressed genes, including 10 previously unreported sequences. These genes included cytoskeletal proteins (beta-tubulin, nonmuscle myosin alkali light chain, and vimentin), growth or proliferation regulators [growth differentiation factor 1 (Gdf-1), Rap1a, and inhibitor of growth 3 (Ing3)], and others. Although the expression of most of the isolated genes did not respond to ROS (hydrogen peroxide) or antioxidant (pyrolidine dithiocarbamate) treatment, the expression of Gdf-1 was downregulated by hydrogen peroxide treatment. Thus, low levels of ROS produced in mitochondria during normal cellular metabolism can modulate gene expression.
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PMID:Alteration of gene expressions by the overexpression of mitochondrial phospholipid hydroperoxide glutathione peroxidase (mtPHGPx). 1283 38

A previous study using mice null for Gpx4 indicates that PHGPx plays a critical role in antioxidant defense and is essential for the survival of the mouse. In the present study, we further analyzed the stress response of MEFs (murine embryonic fibroblasts) derived from mice heterozygous for the Gpx4 gene (Gpx4(+/-) mice). MEFs from Gpx4(+/-) mice have a 50% reduction in PHGPx expression without any changes in the activities of other major antioxidant defense enzymes. Compared to MEFs from Gpx4(+/+) mice, MEFs from Gpx4(+/-) mice were more sensitive to exposure to the oxidizing agent t-butyl hydroperoxide (t-BuOOH), and t-BuOOH exposure induced increased apoptosis in MEFs from Gpx4(+/-) mice. When cultured at low cell density, MEFs from Gpx4(+/-) mice also showed retarded growth under normal culture conditions (20% oxygen) that was reversed by culturing under low oxygen (2% oxygen). In addition, oxidative damage was increased in the MEFs from the Gpx4(+/-) mice, as indicated by increased levels of F(2)-isoprostanes and 8-oxo-2-deoxyguanosine in these cells. Our data demonstrate that MEFs from Gpx4(+/-) mice are more sensitive to oxidative stress because of reduced expression of PHGPx.
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PMID:Embryonic fibroblasts from Gpx4+/- mice: a novel model for studying the role of membrane peroxidation in biological processes. 1457 12

Eicosanoids, which include prostaglandins, thromboxanes, and leukotrienes, are produced from arachidonic acid by three main pathways in cells, including cyclooxygenases and lipoxygenases, and cytochrome P450 enzymes. Accumulated evidence indicates that a certain peroxide tone is required for the initiation of reaction by lipoxygenases and cyclooxygenases. An endogenous inhibitor of arachidonate oxygenation was suspected in the cytosolic fraction of human epidermoid carcinoma A431 cells. After a series of studies, the existence of this inhibitor was confirmed, while it was purified and characterized. By amino acid sequence analysis, the inhibitor in A431 cells was subsequently identified as a phospholipid hydroperoxide glutathione peroxidase (PHGPx). Depletion of cellular glutathione in cells by diethyl maleate or by dibuthionine-sulfoximine results in an increase in enzyme activities of 12(S)-lipoxygenase and cyclooxygenase, suggesting that glutathione-depleting agents abolish the enzyme activity of PHGPx in cells. Stable transfectants of A431 cells with overexpression and depletion of PHGPx have been constructed, respectively. Reduction of arachidonate metabolism through 12(S)-lipoxygenase and cyclooxygenase 1 and that of the arsenite-induced generation of reactive oxygen species are observed in cells overexpressing PHGPx. On the other hand, enhancement of arachidonate metabolism and the arsenite-induced generation of reactive oxygen species is detected in PHGPx-depleted cells. In conclusion, the endogenous inhibitor of arachidonate metabolism present in A431 cells is a PHGPx, which plays a functional role in the down-regulation of arachidonate oxygenation catalyzed by 12(S)-lipoxygenase and cyclooxygenase 1 through the reduction of the level of intracellular lipid hydroperoxides. The latter acts as the peroxide tone for arachidonate metabolism in A431 cells.
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PMID:Identification of an endogenous inhibitor of arachidonate metabolism in human epidermoid carcinoma A431 cells. 1457 62

Reactive oxygen species arising from ischemia/reperfusion (I/R) cause damage to cardiac tissue. We examined the effects of mitochondrial phospholipid hydroperoxide glutathione peroxidase (mPHGPx) and cytosolic PHGPx (cPHGPx) overexpression on protection against simulated I/R in neonatal rat cardiac myocytes (NCM). Additionally, a protective combinatorial effect with heat shock proteins 60 and 10 (HSP60/10) was investigated. NCM were infected with adenoviral vectors expressing mPHGPx, cPHGPx, HSP60/10, or an empty control (Adv-) and submitted to 8 h of ischemia followed by 16 h of reoxygenation. mPHGPx infection led to a 40% decrease in malondialdehyde and 4-hydroxy-2(E)-nonenal following I/R (p<.05). Creatine kinase and lactate dehydrogenase release were decreased in both mPHGPx-infected and HSP60/10-infected cells (p<.05). The combination of mPHGPx and HSP60/10 overexpression led to further protection (p<.01). DNA laddering and histone-associated DNA fragments were decreased in PHGPx- and HSP60/10-infected cells (p<.01). Cytochrome c release from mitochondria was decreased in mPHGPx-infected cells. Furthermore, mPHGPx overexpression preserved electron transport chain complex IV function following simulated I/R (p<.05). These results indicate that overexpression of PHGPx provides protection against damage resulting from simulated I/R injury, particularly in the mitochondria, and that the combination of mPHGPx and HSP60/10 imparts an added protective effect.
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PMID:Overexpression of PHGPx and HSP60/10 protects against ischemia/reoxygenation injury. 1458 38


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