Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.6.99.6 (NADPH oxidase)
 10,295 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The presence of more than one dental alloy in the oral cavity often causes pathological galvanic currents and voltage resulting in superficial erosions of the oral mucosa and eventually in the emergence of oral cancer. In the present study the mechanisms of apoptosis of oral mucosa cancer cells in response to electromagnetic fields was investigated. Direct current (DC) electrical fields with field strengths between 2 and 16 V/m, applied for 24 h to UM-SCC-14-C oral mucosa cancer cells, dose-dependently resulted in decreased cell proliferation as evaluated by Ki-67 immunohistochemistry and upregulation of the cyclin-dependent kinase (CDK) inhibitors p21(cip1/waf1) and p27(kip1), which are associated with cell cycle arrest. Electrical field treatment (4 V/m, 24 h) increased apoptosis as evaluated by immunohistochemical analysis of cleaved caspase-3 and poly-(ADP-ribose)-polymerase-1 (PARP-1). Furthermore, robust reactive oxygen species (ROS) generation, increased expression of NADPH oxidase subunits as well as Hsp70 was observed. Electrical field treatment (4 V/m, 24 h) resulted in increased expression of Cu/Zn superoxide dismutase and decreased intracellular concentration of reduced glutathione (GSH), whereas the expression of catalase remained unchanged. Pre-treatment with the free radical scavenger N-acetyl cysteine (NAC) and the superoxide dismutase mimetic EUK-8 abolished caspase-3 and PARP-1 induction, suggesting that apoptosis in oral mucosa cancer cells is initated by ROS generation in response to DC electrical field treatment.
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PMID:Direct current electrical fields induce apoptosis in oral mucosa cancer cells by NADPH oxidase-derived reactive oxygen species. 1778 77

Under hypobaric hypoxia, antioxidant defenses of the heart are stressed by the enhanced production of ROS. Mammalian heart acclimatizes to hypoxia through altered gene expression, which we studied in murine heart exposed to 10h of acute hypobaric hypoxia (AHH), equivalent to 15000ft, using cDNA arrays. Functional classification of genes with a > or =2-fold change revealed a number of pro-oxidants like Cyba, Xdh, Txnip, Ppp1r15b and antioxidants like Cat, Gpx1, Mt1, Mgst1. Interestingly, the protein level of Cyba, a subunit of NADPH oxidase, was markedly decreased in AHH exposed heart, suggesting the involvement of some stress response pathways. The AHH exposure also caused a significant reduction (50%) in the level of GSH (P<0.05). The present study provides a retrospective insight on the cellular antioxidant defense mechanisms under AHH.
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PMID:Expression and functional activity of pro-oxidants and antioxidants in murine heart exposed to acute hypobaric hypoxia. 1782

In the present study, we investigated the role of glucose-6-phosphate dehydrogenase (G6PDH) in regulating the levels of reduced form of glutathione (GSH) to the tolerance of calli from two reed ecotypes, Phragmites communis Trin. dune reed (DR) and swamp reed (SR), in a long-term salt stress. G6PDH activity was higher in SR callus than that of DR callus under 50-150 mM NaCl treatments. In contrast, at higher NaCl concentrations (300-600 mM), G6PDH activity was lower in SR callus. A similar profile was observed in GSH contents, glutathione reductase (GR) and glutathione peroxidase (GPX) activities in both salt-stressed calli. After G6PDH activity and expression were reduced in glycerol treatments, GSH contents and GR and GPX activity decreased strongly in both calli. Simultaneously, NaCl-induced hydrogen peroxide (H2O2) accumulation was also abolished. Exogenous application of H2O2 increased G6PDH, GR, and GPX activities and GSH contents in the control conditions and glycerol treatment. Diphenylene iodonium (DPI), a plasma membrane (PM) NADPH oxidase inhibitor, which counteracted NaCl-induced H(2)O(2) accumulation, decreased these enzymes activities and GSH contents. Furthermore, exogenous application of H2O2 abolished the N-acetyl-L: -cysteine (NAC)-induced decrease in G6PDH activity, and DPI suppressed the effect of buthionine sulfoximine (BSO) on induction of G6PDH activity. Western-blot analyses showed that G6PDH expression was stimulated by NaCl and H2O2, and blocked by DPI in DR callus. Taken together, G6PDH activity involved in GSH maintenance and H2O2 accumulation under salt stress. And H2O2 regulated G6PDH, GR, and GPX activities to maintain GSH levels. In the process, G6PDH plays a central role.
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PMID:Glucose-6-phosphate dehydrogenase plays a central role in modulating reduced glutathione levels in reed callus under salt stress. 1795 57

Lipoic acid (LA) and its reduced product dihydrolipoic acid (DHLA) are potent antioxidants with capacity to scavenge reactive oxygen species (ROS) and recycle endogenous antioxidants. LA may increase cellular glutathione (GSH), an antioxidant lacking in the lung's epithelial lining fluid in lung disorders such as idiopathic pulmonary fibrosis (IPF). Neutrophils (PMN) are key innate responders and are pivotal in clearing bacterial infection, therefore it is crucial to understand the impact LA may have on their function. Circulating neutrophils were isolated from healthy volunteers and pretreated with LA or diluent. Cells were subsequently activated with phorbol 12-myristate 13-acetate (PMA, 100 ng/ml) to induce ROS production. SOD-inhibitable reduction of acetylated cytochrome c demonstrated the PMA-dependent respiratory burst was suppressed by LA. Oxygen consumption also was diminished when PMA-stimulated cells were pretreated with LA. PMN respiratory burst was partially restored by addition of NADPH but not other pyridine nucleotides. LA did not inhibit glucose-6-phosphate dehydrogenase activity of PMN. These data together suggest that the reduction of LA to DHLA using cellular NADPH may limit the capacity of the PMN NADPH oxidase to produce superoxide. Further studies will be required to determine if LA can diminish excessive superoxide produced by PMN and/or alveolar macrophages in IPF or relevant disease models in vivo.
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PMID:Lipoic acid suppression of neutrophil respiratory burst: effect of NADPH. 1815 60

Lead (Pb2+) is a cytotoxic metal ion in plants, the mechanism of which is not yet established. The aim of this study is to investigate the signalling pathways that are activated by elevated concentrations of Pb2+ in rice roots. Root growth was stunted and cell death was accelerated when exposed to different dosages of Pb2+ during extended time periods. Using ROS-sensitive dye and Ca2+ indicator, we demonstrated that Pb2+ induced ROS production and Ca2+ accumulation, respectively. In addition, Pb2+ elicited a remarkable increase in myelin basic protein (MBP) kinase activities. By immunoblot and immunoprecipitation analysis, 40- and 42-kDa MBP kinases that were activated by Pb2+ were identified to be mitogen-activated protein (MAP) kinases. Pre-treatment of rice roots with an antioxidant and a NADPH oxidase inhibitor, glutathione (GSH) and diphenylene iodonium (DPI), effectively reduced Pb2+-induced cell death and MAP kinase activation. Moreover, calcium-dependent protein kinase (CDPK) antagonist, W7, attenuated Pb2+-induced cell death and MAP kinase activation. These results suggested that the ROS and CDPK may function in the Pb2+-triggered cell death and MAP kinase signalling pathway in rice roots.
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PMID:ROS and CDPK-like kinase-mediated activation of MAP kinase in rice roots exposed to lead. 1816 45

Two important consequences of hyperglycemia in diabetes are development of oxidative stress and formation of advanced glycation end products (AGE) which are known to be associated with diabetic complications. Relationship between AGE formation and development of oxidative stress (OS) is yet to be established. In the present study, the involvement of AGE in PMN-mediated ROS generation and the associated OS were investigated in type 2 diabetic mellitus (DM) patients. We assessed OS parameters (serum MDA, FRAP and GSH), PMN oxidative functions (respiratory burst and superoxide production) and total serum AGE in 90 subjects divided equally in three groups--control group, Group I consisting of type 2 diabetic patients without microvascular complications and Group II consisting of type 2 diabetic patients with microvascular complications. PMNs isolated from both groups (I and II) exhibited higher level of respiratory burst (RB) and produced increased amount of superoxide anion as compared to the controls. The increase was more pronounced in diabetes with complications, as compared to those without. Serum malondialdehyde (MDA) level was elevated, whereas glutathione (GSH) and ferric reducing ability of plasma (FRAP) levels were significantly reduced in diabetes as compared to the controls, suggesting the presence of oxidative stress in DM. A positive correlation between PMN oxidative function and OS parameters suggested the involvement of PMN in the development of OS in DM. Serum AGE level was also elevated in diabetic groups as compared to the controls. Further, the positive correlation between serum AGE level and PMN oxidative function suggested the involvement of AGE in increased RB and generation of reactive oxygen species (ROS) by resting diabetic PMN. The results of the study indicate that AGE-PMN interaction possibly upregulates NADPH oxidase, leading to enhanced ROS generation and thus contributes to the pathogenesis in diabetes.
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PMID:Advanced glycosylated end products-mediated activation of polymorphonuclear neutrophils in diabetes mellitus and associated oxidative stress. 1834 Dec 13

The hepatocyte growth factor and its receptor c-Met direct a pleiotropic signal transduction pathway that controls cell survival. We previously demonstrated that mice lacking c-Met (Met-KO) in hepatocytes were hypersensitive to Fas-induced liver injury. In this study, we used primary hepatocytes isolated from Met-KO and control (Cre-Ctrl) mice to address more directly the protective effects of c-Met signaling. Loss of c-Met function increased sensitivity to Fas-mediated apoptosis. Hepatocyte growth factor suppressed apoptosis in Cre-Ctrl but not Met-KO hepatocytes concurrently with up-regulation of NF-kappaB and major antiapoptotic proteins Bcl-2 and Bcl-xL. Intriguingly, Met-KO hepatocytes exhibited intrinsic activation of NF-kappaBas well as Bcl-2 and Bcl-xL. Furthermore, unchallenged Met-KO cells displayed oxidative stress as evidenced by overproduction of reactive oxygen species, which was associated with greater NADPH and Rac1 activities, was blocked by the known NADPH oxidase inhibitors, and was paralleled by increased lipid peroxidation and reduced glutathione (GSH) content. N-Acetylcysteine, an antioxidant and GSH precursor, significantly reduced Jo2-induced cell death. Conversely, the GSH-depleting agent buthionine sulfoximine completely abolished the protective effects of N-acetylcysteine in Met-KO hepatocytes. In conclusion, genetic inactivation of c-Met in mouse hepatocytes caused defects in redox regulation, which may account for the increased sensitivity to Fas-induced apoptosis and adaptive up-regulation of NF-kappaB survival signaling. These data provide evidence that intact c-Met signaling is a critical factor in the protection against excessive generation of endogenous reactive oxygen species.
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PMID:Hepatocyte-specific c-Met deletion disrupts redox homeostasis and sensitizes to Fas-mediated apoptosis. 1834 81

Long-term treatment of hypertensive disorders with hydralazine has resulted in some patients developing hepatitis and lupus erythematosus, an autoimmune syndrome. The concentration of hydralazine required to cause 50% cytotoxicity in 2 h (LC(50)) toward isolated rat hepatocytes was found to be 8 mM. Cytotoxicity was delayed by the P450 inhibitor, 1-aminobenzotriazole, suggesting that P450 catalyzed the formation of toxic metabolites from hydralazine. No hydralazine-induced oxidative stress was apparent as there was little effect on hepatocyte lipid peroxidation, protein carbonyl formation, intracellular H(2)O(2), or hepatocyte GSH levels and no effect of butylated hydroxyanisole (BHA) on cytotoxicity. Drug-induced hepatotoxicity in vivo has often been attributed to infiltrating inflammatory cells, for example, neutrophils or resident Kupffer cells whose NADPH oxidase generates H(2)O(2), when activated. The effect of a nontoxic continuous infusion of H(2)O(2) on hydralazine cytotoxicity was investigated. It was found that H(2)O(2) increased hepatocyte susceptibility to hydralazine 4-fold (LC(50), 2 mM). Cytotoxicity was still prevented by the P450 inhibitor but now involved some oxidative stress as shown by increased protein carbonyls, endogenous H(2)O(2), and GSH oxidation. Lipid peroxidation was not increased, and cytotoxicity was not inhibited by BHA. Cytotoxicity, however, was inhibited by 4-hydroxy-2,2,6,6-tetramethylpiperidene-1-oxyl (TEMPOL), a ROS scavenger. Because neutrophils or Kupffer cells release myeloperoxidase on activation, the effect of adding peroxidase to the hepatocytes exposed to H(2)O(2) on hydralazine cytotoxicity was investigated. It was found that peroxidase/H(2)O(2) increased hepatocyte susceptibility to hydralazine 80-fold (LC 50, 0.1 mM). Furthermore, cytotoxicity occurred following extensive oxidative stress that included lipid peroxidation, and cytotoxicity that was now prevented by the antioxidant BHA. These results indicate that three cytotoxic pathways exist for hydralazine: a P450-catalyzed pathway not involving oxidative stress, a P450/H(2)O(2)-catalyzed oxidative stress-mediated cytotoxic pathway not involving lipid peroxidation, and a peroxidase/H(2)O(2)-catalyzed lipid peroxidation-mediated cytotoxic pathway.
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PMID:Accelerated cytotoxic mechanism screening of hydralazine using an in vitro hepatocyte inflammatory cell peroxidase model. 1839 51

Aneurismal subarachnoid haemorrhage (SAH) is a devastating disease that is associated with significant morbidity and mortality. The mortality is approximately 50%, with 30% of survivors having significant morbidity. There is substantial evidence to suggest that oxidative stress is significant in the development of acute brain injury and cerebral vasospasm following SAH. There are several sources for the excessive generation of free radicals following SAH, including disrupted mitochondrial respiration and extracellular hemoglobin. There is also the upregulation of free radical producing enzymes such as inducible nitric oxide synthase (iNOS), xanthine oxidase, NADPH oxidase (NOX), as well as enzymes involved in the metabolism of arachidonic acid. Additionally, intrinsic antioxidant systems such as superoxide dismutase (SOD) and glutathione peroxidase (GSH-Px) are inhibited. Experiments have linked free radicals to the apoptosis of neurons and endothelial cells, BBB breakdown and the altered contractile response of cerebral vessels following SAH. Antioxidant therapy has provided neuroprotection and antispasmotic effects in experimental SAH and some therapies have demonstrated improved outcomes in clinical trials. These studies have laid a foundation for the use of antioxidants in the treatment of aneurismal SAH.
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PMID:Oxidative stress in subarachnoid haemorrhage: significance in acute brain injury and vasospasm. 1845 95

Edaravone (Eda) is a potent scavenger of hydroxyl radicals and has been demonstrated to be beneficial for patients with acute ischemic stroke. This study was set out to investigate whether Eda protect against MPP(+)-induced cytotoxicity in rat primary cultured astrocytes. The results showed that pre-treatment with Eda inhibited astrocytic apoptosis and lactate dehydrogenase release induced by MPP(+) (200 microM). Further study revealed that Eda prevented GSH depletion, down-regulated mRNA expressions of NADPH oxidase membrane subunit gp91 and membrane-translocated subunit p47, and prevented the decreases of state 3 respiration respiration and respiratory control ratio induced by MPP(+), and thereby inhibited reactive oxygen species production evoked by MPP(+). Moreover, Eda could ameliorate mitochondrial respiratory function, restrain, and prevent mitochondrial membrane potential loss induced by MPP(+). Consequently, Eda inhibited releases of cytochrome c and apoptosis-inducing factor induced by MPP(+). Taken together, these findings reveal for the first time that Eda protects against MPP(+)-induced astrocytic apoptosis via decreasing intracellular reactive oxygen species level and subsequently inhibiting mitochondrial apoptotic pathway. The antiapoptosis effects of Eda on astrocytes may provide a new perspective on neuroprotective therapy.
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PMID:Edaravone protects against MPP+ -induced cytotoxicity in rat primary cultured astrocytes via inhibition of mitochondrial apoptotic pathway. 1864 90


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