Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.6.3.1 (NADPH oxidase)
 11,281 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The release of proteolytic enzymes and generation of strong oxidants such as the hydroxyl radical by activated neutrophils has been proposed to play an important role in mediating toxin-induced liver injury. The antithyroid drug propylthiouracil protects against liver injury induced by many hepatotoxic agents and markedly reduces mortality in patients with alcoholic liver disease. However, the mechanism(s) by which propylthiouracil protects against liver injury is not well understood. The present studies investigate the effect of antithyroid drugs on proteolytic enzyme activity and on hydroxyl radical generation from activated neutrophils. In the presence of hydrogen peroxide and chloride, neutrophil myeloperoxidase, an enzyme from the same gene superfamily as thyroid peroxidase, generates hypochlorous acid which inactivates alpha-1-proteinase inhibitor (A1PI) present in serum. This inactivation allows neutrophil-released proteolytic enzymes to attack cells. In the present study myeloperoxidase activity was inhibited fully at therapeutic concentrations by antithyroid drugs (propylthiouracil and methimazole). Antithyroid drugs fully prevented hypochlorous acid formation, and prevented neutrophil-mediated inactivation of A1PI, with concomitant blockage of proteolytic activity. Conversely, generation of both superoxide and hydroxyl radicals by activated neutrophils was unaffected by propylthiouracil. The production of these oxygen radicals was fully inhibited by the NADPH oxidase inhibitor diphenylene iodonium chloride, however. These studies indicate that antithyroid drugs are unlikely to prevent cell injury by inhibiting hydroxyl radical generation or by scavenging hydroxyl radicals, but are likely to exert their hepatoprotective anti-inflammatory action by inhibiting neutrophil myeloperoxidase, an enzyme akin to thyroid peroxidase.
 ...
PMID:Effect of antithyroid drugs on hydroxyl radical formation and alpha-1-proteinase inhibitor inactivation by neutrophils: therapeutic implications. 961 27

Plant cells respond to pathogen attach with a burst of H2O2 secretion. The question whether this defense reaction is catalysed by a NAD(P)H oxidase similar to the NADPH oxidase of phagocytic leukocytes in mammals or by an extracellular peroxidase is presently a matter of controversial debate. The observation that H2O2 production by plant cells can be inhibited by diphenyleneiodonium (DPI), a potent inhibitor of the mammalian NADPH oxidase, has fostered the view that a mammalian-type enzyme is responsible for the H2O2 production by plant cells. Here we show that DPI inhibits the NADH-dependent H2O2 production by horseradish peroxidase in the same concentration range as previously used for the inhibition of putative NADPH oxidase activity in plants. The peroxidative activity normally used for assaying peroxidase is not affected by DPI, indicating that the inhibitor specifically interferes with a partial reaction that is exclusively involved in the O2 reducing activity of the enzyme.
 ...
PMID:Inhibition of O2-reducing activity of horseradish peroxidase by diphenyleneiodonium. 963 62

The role of the inflammatory cytokine interleukin 1beta (IL-1beta) as potent agonist of the PMN respiratory burst signal transduction cascade has been described. We hypothesized that this phenomenon is self-limiting and that polymorphonuclear leukocyte (PMN)-derived reactive oxygen intermediates (ROI) might provide feedback regulation on the IL-1beta surface receptor (IL-1betaR)-G-protein-effector enzyme transducing tripartite complex that ultimately leads to NADPH oxidase activation. Therefore, we separately assessed either baseline or IL-1beta-induced activation of each member of the IL-1betaR-G-protein-phospholipase D (PLD) or IL-1betaR-G-protein-phospholipase C (PLC) signaling systems in the presence or absence of one of several specific ROI scavengers/antioxidants. Purified human PMN were lipopolysaccharide primed, adhered for 2 h, and stimulated with 100 ng/mL IL-1beta with or without 1% v/v dimethyl sulfoxide, 10 mM NaN3, 30 mM L-alanine, 200 U catalase, or 300 U superoxide dismutase (SOD). To validate the use of these antioxidants, the production of O2-, H2O2, hypochlorous acid, or myeloperoxidase (MPO) in the employed experimental model was confirmed in a separate set of experiments. The expression of IL-1betaR type I or II was assessed by binding with corresponding 125I-labeled monoclonal antibodies and corrected for nonspecific binding. PLD activation was assessed by measuring phosphatidyl ethanol formation in the presence of ethanol. PLC activation was determined by quantitative measurement of diacylglycerol. The level of Galpha stimulatory and inhibitory subunits was assessed by Western blotting. IL-1betaR type I expression was significantly up-regulated in the presence of catalase and SOD. PLD activation was increased by dimethyl sulfoxide and NaN3, and PLC activation was up-regulated by NaN3, L-alanine, SOD, and catalase. After 5 min of stimulation with IL-1beta, Gialpha expression was significantly down-regulated by NaN3 and SOD, whereas SOD had an up-regulating effect on the expression of Gs alpha. Increasing concentrations of externally added authentic MPO progressively down-regulated both PLD and PLC activity. Thus, PMN-derived ROI, in addition to their role as antibacterial/fungal agents, serve as second messengers in IL-1beta signal transduction, with MPO having the most ubiquitous role as a modulator of PMN second messenger pathways.
 ...
PMID:The role of neutrophil-derived oxidants as second messengers in interleukin 1beta-stimulated cells. 968 92

Periodontal disease, a frequent complication of diabetes mellitus, is the major cause of tooth loss. However, studies on neutrophil function in patients with this condition have yielded contradictory findings. The NADPH oxidase activity of 40 diabetic patients with periodontosis who were on metabolic control was evaluated and compared with that in 40 healthy subjects. Superoxide anion production was measured by a photometric method, with NBT reduction at 490 nm in a microplate reader and by a microscopic method, with a percentage of positive PMNs with granules of formazan in the cytoplasm. When the PMN respiratory burst was activated by phorbol myristate acetate (PMA), a protein kinase C (PKC) soluble activator, superoxide production of diabetics (4.31 +/- 1.67 A x 10(-3)/min) and normal subjects (4.25 +/- 1.25 A x 10(-3)/min) was comparable by photometric method, whereas a significantly defective response to opsonized zymosan was observed when the microscopic method was used (58 +/- 17% in diabetics and 66 +/- 18% in controls; p = 0.05). Therefore in patients with diabetes the impact on PMN function is of multifactorial origin, and is probably correlated to the glucose level and to glycation of PMN protein, such as NADPH oxidase or myeloperoxidase. Alternatively, glucose in PMN may be reduced by aldose reductase to polyols, and this pathway requires NADPH, the coenzyme for the respiratory burst. Moreover, we found that superoxide production in response to opsonized zymosan was reduced in diabetic patients. The activation of protein tyrosine kinase (PTK) is an important mechanism underlying transmembrane signaling and, moreover, protein tyrosine phosphorylations, stimulated by zymosan receptor-mediated activation, might be caused by the activation of specific PTK, whereas activation by PMA is probably mediated through another PKC type.
 ...
PMID:Respiratory burst of neutrophils in diabetic patients with periodontal disease. 970 64

This study reviews the putative mechanism of ethanol (ETOH)-mediated downregulation of inducible nitric oxide synthase (iNOS) messenger RNA (mRNA) and protein and upregulation of constitutive NOS activity (ecNOS) in immunocompetent cells and endothelium, in vivo. Current evidence supports the hypothesis that ETOH inhibits the phospholipase D-tyrosine kinase pathway involved in the phosphorylation and activation of NADPH oxidase and myeloperoxidase, which upregulates the formation of reactive oxygen intermediates and mitogen-activated protein kinase cascade, including the extracellular receptor-linked kinase 1 and 2 (erk1 and erk2). This decreases reactive oxygen intermediate formation, tyrosine kinase-induced phosphorylation, and activation of transcription factors that, in turn, decreases the expression of iNOS mRNA. Also, ETOH-mediated attenuation of endotoxin-induced downregulation of nuclear protein kinase C activity appears to decrease the stability of expressed iNOS mRNA. ETOH-mediated inhibition of tyrosine kinase activity may also explain the ability of ETOH to upregulate ecNOS enzymatic activity, because tyrosine kinase activity suppresses ecNOS enzymatic activity.
 ...
PMID:The potential mechanism of induction of inducible nitric oxide synthase mRNA in alveolar macrophages by lipopolysaccharide and its suppression by ethanol, in vivo. 972 48

We have tested the membrane-protein solubilizing properties of two perfluoroalkylphosphocholines. These compounds belong to a series of fluorinated amphiphiles which are being investigated as potential stabilizing agents for a variety of fluorocarbon-based systems. We are particularly interested in cytochrome b558 from phagocytes, the redox component of NADPH oxidase. Its heavy subunit is believed to carry binding sites for NADPH and FAD. Nevertheless, when the cytochrome is purified in the presence of classical detergents, it carries no FAD. This could be due to a delipidating, denaturing effect of these detergents (octyl glucoside, Triton, etc). The first perfluoroalkyphosphocholine, C8F17(CH2)2O-P(O2-)-O(CH2)2N+(CH3)3(F8C2PC), extracted about as much protein from neutrophil plasma membranes into a 100,000 g supernatant as octyl glucoside. The second compound, C8F17(CH2)11O-P(O2-)-O(CH2)2N+(CH3)3(F8C11PC), was less efficient. We found that flavin was still protein-bound in the crude F8C2PC extract at a FAD to heme ratio of about 1, and a good NADPH oxidase activity was obtained without addition of exogenous FAD, even after dialysis or gel filtration, whereas dialysis eliminated most of the FAD from the octyl glucoside extracts. These experiments appeared to make F8C2PC an interesting membrane-solubilizing agent. Nevertheless, no protein in the F8C2PC extract could be adsorbed on the chromatographic supports normally used for purification. After dilution of the extract and addition of 15 mM octyl glucoside, some of the proteins, such as myeloperoxidase, could be adsorbed (and eluted), but not cytochrome b558. Freeze-fracture electron microscopy showed that the F8C2PC extracts contained numerous vesicles and aggregates of small shapeless particles. Higher centrifugal forces sedimented most proteins of the 100,000 g supernatant. As a check, the effect of F8C2PC was tested on sarcoplasmic reticulum vesicles, the behavior of which with respect to the usual non-denaturating detergents has been well studied. There was little, if any, solubilization. We conclude that, although supernatants of F8C2PC extracts of neutrophil membranes are optically clear, proteins are not really solubilized. This result is in keeping with the absence of lytic effects of F8C2PC on erythrocyte membranes.
 ...
PMID:Perfluoroalkylphosphocholines are poor protein-solubilizing surfactants, as tested with neutrophil plasma membranes. 978 91

Peroxidase activity was characterized in lettuce (Lactuca sativa L.) leaf tissue. Changes in the activity and distribution of the enzyme were examined during the development of a nonhost hypersensitive reaction (HR) induced by Pseudomonas syringae (P. s.) pv phaseolicola and in response to an hrp mutant of the bacterium. Assays of activity in tissue extracts revealed pH optima of 4.5, 6.0, 5.5 to 6.0, and 6.0 to 6.5 for the substrates tetramethylbenzidine, guaiacol, caffeic acid, and chlorogenic acid, respectively. Inoculation with water or with wild-type or hrp mutant strains of P. s. pv phaseolicola caused an initial decline in total peroxidase activity; subsequent increases depended on the hydrogen donor used in the assay. Guaiacol peroxidase recovered more rapidly in tissues undergoing the HR, whereas changes in tetramethylbenzidine peroxidase were generally similar in the two interactions. In contrast, increases in chlorogenic acid peroxidase were significantly higher in tissues inoculated with the hrp mutant. During the HR, increased levels of Mn2+/2, 4-dichlorophenol-stimulated NADH and NADPH oxidase activities, characteristic of certain peroxidases, were found in intercellular fluids and closely matched the accumulation of H2O2 in the apoplast. Histochemical analysis of peroxidase distribution by electron microscopy revealed a striking, highly localized increase in activity within the endomembrane system and cell wall at the sites of bacterial attachment. However, no clear differences in peroxidase location were observed in tissue challenged by the wild-type strain or the hrp mutant. Our results highlight the significance of the subcellular control of oxidative reactions leading to the generation of reactive oxygen species, cell wall alterations, and the HR.
 ...
PMID:Localized changes in peroxidase activity accompany hydrogen peroxide generation during the development of a nonhost hypersensitive reaction in lettuce 980 52

Double applications of phorbol esters trigger excessive reactive oxygen species (ROS) production in mouse skin. Previously reported data suggest that the two applications induce distinguishable biochemical events, namely, priming and activation. The former is characterized as a recruitment of inflammatory cells, such as neutrophils, by chemotactic factors to inflammatory regions and edema formation. The latter is responsible for ROS generation. Thus, inhibitory effects of 1'-acetoxychavicol acetate (ACA), previously reported to be a superoxide generation inhibitor in vitro, on 12-O-tetradecanoylphorbol-13-acetate (TPA)-induced oxidative stress and inflammatory responses in mouse skin model were examined using a double application of ACA. We demonstrated that two pretreatments and pretreatment with ACA (810 nmol) in the activation phase suppressed double TPA application-induced H2O2 formation in mouse skin. ACA exhibited no inhibitory effects on edema formation and the enhancement of myeloperoxidase activity during the first TPA treatment, whereas the anti-inflammatory agent genistein administered at the same dose inhibited both biomarkers. No inhibitory potential of ACA for TPA-induced H2O2 formation in the priming phase was confirmed. On the other hand, in the in vitro study, ACA inhibited ROS generation in differentiated HL-60 cells more strongly than did 1'-hydroxychavicol, which showed no inhibition by pretreatment in the activation phase. In addition, allopurinol did not inhibit double TPA application-induced H2O2 formation in mouse skin. These findings suggest that the NADPH oxidase system of neutrophils rather than the epithelial xanthine oxidase system is dominant for the O2--generating potential in double TPA-treated mouse skin. ACA significantly inhibited mouse epidermis thiobarbituric acid-reacting substance formation, known as an overall oxidative damage biomarker. Moreover, histological studies demonstrated that ACA inhibited double TPA treatment-induced morphological changes reflecting inflammatory response, such as edema formation, leukocyte infiltration, hyperplasia, and cell proliferation. Furthermore, pretreatment with ACA but not 1'-hydroxychavicol in the activation phase inhibits double TPA application-induced increases in both number of leukocytes and proliferating cell nuclear antigen index. These results suggested that ROS from leukocytes including O2- plays an important role for continuous and excessive production of chemotactic factors, leading to chronic inflammation and hyperplasia, which are inhibitable by ACA. Thus, we concluded that O2- generation inhibitors are agents that effectively inhibit oxidative stress and inflammatory responses in mouse skin.
 ...
PMID:Suppression of tumor promoter-induced oxidative stress and inflammatory responses in mouse skin by a superoxide generation inhibitor 1'-acetoxychavicol acetate. 980 87

The vacuoles of morula cells (MC) of the colonial ascidian Botryllus schlosseri contain phenoloxidase (PO). As the release of their vacuolar content at the border of incompatible contacting colonies is associated with the formation of necrotic masses which characterize the rejection reaction, the role of PO in Botryllus cytotoxicity was investigated. When hemocytes are incubated with blood plasma from incompatible (heterologous) colonies, MC degranulate and, after 60 min, the cytotoxicity index becomes significantly greater than that observed in controls incubated with autologous plasma. The rise in cell mortality is completely inhibited by the addition of PO inhibitors sodium benzoate, tropolone and phenylthiourea, and serine protease inhibitors phenylmethylsulfonyl fluoride, benzamidine, N-tosyl-L-phenylalanine chloromethyl ketone and N-tosyl-L-lysine chloromethyl ketone. The addition of either reducing agents L-cysteine and ascorbic acid or reactive oxygen species scavenger enzymes superoxide dismutase and catalase has a similar effect. Significant inhibition of cytotoxicity is also observed with the quinone scavenger, 3-methyl-2-benzothiazolinone hydrazone. In the presence of sodium benzoate and phenylthiourea, there is a significant reduction in the number, size and color intensity of necrotic masses along the contact border of incompatible colonies. A significant increase in superoxide anion production, completely inhibited by sodium benzoate, is observed when hemocytes are incubated with heterologous blood plasma. These results indicate that: (i) PO is the enzyme responsible for the cytotoxicity observed in both hemocyte cultures and rejection reactions; (ii) PO is present inside MC vacuoles as a proenzyme which is activated, upon release, by humoral proteases; (iii) cytotoxicity appears to be mainly due to oxidative stress generated by PO during oxidation of polyphenols to quinones without the involvement of other oxidases such as NADPH oxidase and peroxidase.
 ...
PMID:Phenoloxidase and cytotoxicity in the compound ascidian Botryllus schlosseri. 987 31

Diphenyleneiodonium (DPI) has frequently been used to inhibit reactive oxygen species (ROS) production mediated by flavoenzymes, particularly NAD(P)H oxidase. This study was undertaken to examine if DPI could also inhibit production of superoxide and H2O2 by mitochondria, the major source of cellular ROS. Detection of mitochondrial superoxide by lucigenin-derived chemiluminescence (CL) with unstimulated monocytes/macrophages showed that DPI at concentrations that inhibit NAD(P)H oxidase markedly diminished the production of superoxide by mitochondrial respiration. Similarly, the extracellular H2O2 derived from mitochondrial respiration as detected by luminol-derived CL in the presence of horseradish peroxidase was also greatly reduced by DPI. DPI was as potent as rotenone in inhibiting the production of superoxide and H2O2 by mitochondrial respiration. With substrate-supported isolated mitochondria, DPI was shown to reduce mitochondrial superoxide production probably through inhibiting NADH-ubiquinone oxidoreductase (complex I).
 ...
PMID:Diphenyleneiodonium, an NAD(P)H oxidase inhibitor, also potently inhibits mitochondrial reactive oxygen species production. 987 31


<< Previous 1 2 3 4 5 6 7 8 9 10