EC:1.6.3.1 - FACTA Search

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

We investigated the function and transcriptional regulation of ywcG. The protein is essential for Bacillus subtilis. Biochemical characterization of the protein revealed that it is an FMN-containing NADPH oxidase. ywcG is transcribed throughout the whole life cycle of B. subtilis. The start point of transcription is preceded by potential promoter sequences for sigmaA, sigmaB and sigmaD. A boost in transcription occurs at the beginning of stationary phase in complex media containing glutamate and glucose. The induction of transcription at the beginning of stationary phase needs the activity of a different alternative sigma-factor sigmaD. ywcG is, therefore, the first gene with a putative role in energy metabolism from B. subtilis that is transcribed in a sigmaD-dependent fashion, but its regulation is unique and the reverse of that described for all other sigmaD-dependent genes.
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PMID:The sigmaD-dependent transcription of the ywcG gene from Bacillus subtilis is dependent on an excess of glucose and glutamate. 953 80

In this study we tested the hypothesis that the pentose phosphate pathway (PPP) participates in the meiotic induction of mouse oocytes. The electron acceptors methylene blue, phenazine ethosulfate (PES), and pyrroline-5-carboxylate (P5C) oxidize NADPH to NADP and activate the NADP-dependent enzymes of the PPP. Each of these compounds triggered a dose-dependent increase in meiotic maturation in hypoxanthine-arrested cumulus cell-enclosed oocytes during 17- to 18-h cultures. More than 96% of the oocytes underwent germinal vesicle breakdown (GVB) at the highest concentrations of P5C and PES tested (250 and 1 microM, respectively) as compared to only 45-52% of control oocytes. P5C was also stimulatory to denuded oocytes. Analysis of energy substrates in microdrop cultures revealed a 3.6-fold increase in glucose consumption by PES-treated oocyte-cumulus cell complexes that was associated with stimulation of GVB. On the other hand, 2-deoxyglucose, which interferes with glucose utilization, prevented the induction of maturation brought about by P5C. Apocynin and diphenyleneiodonium, inhibitors of NADPH oxidase, prevented meiotic maturation in the presence or absence of FSH. Gonadotropin-induced maturation was also prevented by 6-aminonicotinamide (6-AN) and dehydroepiandrosterone (DHEA), inhibitors of the two NADP-dependent enzymes of the PPP, and this was accompanied by suppression of glucose consumption. Phosphoribosyl-pyrophosphate (PRPP) is an important compound required in purine metabolism and can be formed from the end product of the oxidative arm of the PPP, ribose-5-phosphate. Ribose, which can be metabolized to PRPP, increased PRPP synthesis in complexes and induced meiotic maturation when added to hypoxanthine-arrested cumulus cell-enclosed oocytes in glucose-free medium in both the presence and absence of FSH. PRPP levels within complexes were also increased by glucose and FSH, but were reduced by hypoxanthine, 6-AN, and DHEA. In addition, exogenous PRPP stimulated maturation in hypoxanthine-arrested oocytes. These results support the proposition that glucose metabolism through the PPP is important in the meiotic induction mechanism and may involve the generation of PRPP that acts, at least in part, through the purine metabolizing pathways.
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PMID:Meiotic induction in cumulus cell-enclosed mouse oocytes: involvement of the pentose phosphate pathway. 954 44

During the innate immune response, excessive release of reactive oxygen species (ROS) from sequestered phagocytes and activated resident macrophages represents the predominant component of oxidative stress in the liver and other tissues. The consequence of oxidative stress is determined by the status and adaptive changes of antioxidant pathways. In this review, we present evidence that the synchronized response of hepatic sinusoidal endothelial cells, the primary sites of phagocyte attachment, plays an important role in defense against phagocyte-derived ROS. An essential component of the metabolic adaptation of hepatic sinusoidal cells to lipopolysaccharide (LPS)-induced oxidative stress is the stimulated expression of glucose-6-phosphate dehydrogenase (G6PD), the key enzyme of the pentose cycle (hexose monophosphate shunt, HMS). All major ROS-metabolic enzymes, i.e., glutathione peroxidase, glutathione reductase, catalase, superoxide dismutases, NADPH oxidase, and nitric oxide synthase, directly or indirectly depend on NADPH, which is produced in the HMS in these cells. The functional significance of up-regulated HMS within a particular cell type depends on the accompanying adaptive changes in ROS-metabolizing enzymes. In LPS-activated Kupffer cells, the elevated expression of glucose transporter GLUT1 and G6PD mainly serves primed production of superoxide anion, hydrogen peroxide, and nitric oxide. In sinusoidal endothelial cells, the LPS-induced response pattern of glucose- and ROS-metabolizing enzymes results in elevated ROS detoxifying capacity. The described studies also suggest the existence of an intercellular oxidant balance between pro-oxidant Kupffer cells and antioxidant endothelial cells in the hepatic micro-environment. Maintenance of the intercellular oxidant/antioxidant balance between phagocytes and endothelial cells may represent an important mechanism protecting the hepatic parenchyma against exogenous oxidative stress during the inflammatory response.
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PMID:Endotoxemia, pentose cycle, and the oxidant/antioxidant balance in the hepatic sinusoid. 958 96

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.
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PMID:Respiratory burst of neutrophils in diabetic patients with periodontal disease. 970 64

Changes in amount and activity of enzyme protein are critical factors in regulating intracellular metabolisms. However, since the metabolisms are proceeding in environment with complex architecture consisted of various membranes, spatial factors should be taken into consideration for the regulation. In this review, involvement of interaction between cytosolic and membrane proteins in metabolic regulation are discussed. It had been reported that hexokinase activity was found in mitochondrial fraction in spite of almost exclusive distribution of other glycolytic enzymes to soluble fraction, the tendency being marked in the brain and many types of tumor cells whereas mitochondrial hexokinase activity was quite low in the liver. Interested in such enzyme and tissue specificities, we investigated the significance and mechanism of the unique intracellular distribution of hexokinase. We found that mitochondria-bound hexokinase was more active than the cytosolic type in producing glucose 6-phosphate (G6P), probably due to the advantage in utilizing ATP produced in mitochondria. In addition, we also found that the binding stabilized hexokinase against G6P inhibition. As to the binding, it was reported that G6P released hexokinase from mitochondria while Mg2+ promoted the binding. In this respect, we found that polyamines promoted the binding at much lower concentration than that of Mg2+, and mitochondria-bound form had small hydrophobic domain at terminal region for the binding to porin on the outer membrane. Then, we found a protease which specifically cleaved the domain with little effect on catalytic activity and molecular size of the bindable form. Such a modifying protease was purified and identified as lysosomal cathepsin L. The protease activity was high in the liver and low in the brain, suggesting that the difference in the activity was responsible for the afore-mentioned tissue specificity. On the other hand, we examined regulatory mechanism for active oxygen production in neutrophils, since the production of superoxide anion (O2-) by NADPH oxidase was very low at the resting state while markedly increased on phagocytosis and chemical stimulation. Since the stimulants for the activation were so various in chemical nature, we postulated mechanism to converge the stimulation to the activation. Incidentally, we found increase in phosphorylation of 46-47 K protein, irrespective of the type of stimulation. Use of inhibitors and examination on the phosphorylation condition indicated protein kinase C (PKC) as the phosphorylating enzyme. In addition, we observed the 46-47 K protein existed in cytosol at resting state, while it was translocated to cell membranes in concurrence with the phosphorylation. Similar findings were obtained in many laboratories and those proteins were named cytosolic activating factors (and then p47-phox, etc.). These proteins associate with membrane proteins to constitutes the active from of NADPH oxidase. Next, we examined mechanism to shut off the O2- production, and found that the inactivation through disassembly of the constituents was attained by dephosphorylation of phosphorylated p47-phox by cytosolic protein phosphatase. Then we have also found that protein kinases other than PKC were involved in regulation of NADPH oxidase activity. Though phosphorylation of p47-phox etc. is deeply involved in the activation of NADPH oxidase, membrane perturbation, so-called priming, is required for the activation. We also reported some possible indications for the priming, and possible involvement of cytoskeletons in O2- production. Apart from protein phosphorylation, it has been reported that amphiphilic acidic compounds are potent activator for NADPH oxidase. We also have examined their effects to find that these compounds also caused the assembly of the NADPH oxidase constituents. Reversely, amphiphilic basic compounds suppressed suggesting significance of introduction of negative charge in NADPH oxidase activat
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PMID:[Cooperation of membrane proteins and cytosolic proteins in metabolic regulation--involvement of binding of hexokinase to mitochondria in regulation of glucose metabolism and association and complex formation between membrane proteins and cytosolic proteins in regulation of active oxygen production]. 992 8

MnCl2 induced manganese-containing superoxide dismutase (MnSOD) expression (mRNA, immunoreactive protein, and enzyme activity) in human breast cancer Hs578T cells. The induction of MnSOD immunoreactive protein in Hs578T cells was inhibited by tiron (a metal chelator and superoxide scavenger), pyruvate (a hydrogen peroxide scavenger), or 2-deoxy-d-glucose (DG, an inhibitor of glycolysis and the hexose monophosphate shunt), but not by 5,5-dimethyl-1-pyrroline-1-oxide (a superoxide scavenger), N-acetyl cysteine (a scavenger for reactive oxygen species and precursor of glutathione), diphenylene iodonium (an inhibitor of flavoproteins such as NADPH oxidase and nitric oxide synthase), or SOD (a superoxide scavenger). Northern blotting demonstrated that tiron or DG affected at the mRNA level, while pyruvate affected Mn-induced MnSOD expression at both the mRNA and protein levels. These results demonstrate that Mn can induce MnSOD expression in cultured human breast cancer cells. Mn also induced apoptosis and necrosis in these cells. Since inhibitors of Mn-induced MnSOD induction did not affect cell viability, MnSOD induction is probably not the cause of the Mn-induced cell killing.
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PMID:Induction of superoxide dismutase and cytotoxicity by manganese in human breast cancer cells. 1032 27

Despite the large body of information on the role of corticosteroids in regulating lymphocyte and phagocyte function, the role of the hormone adrenaline in immunoregulation is an under-investigated topic. The present study has addressed the effects of adrenaline on the rates of utilization and oxidation of glucose and glutamine, the phagocytic capacity and the rate of superoxide production by rat neutrophils. Incubation of rat neutrophils in the presence of 50 microM adrenaline caused a marked elevation in glucose metabolism, an effect that could be blocked by propranolol. Adrenaline caused a partial inhibition of glutamine utilization by neutrophils, an effect that was also blocked by propranolol. These effects of adrenaline could be mimicked by 100 microM dibutyryl cAMP. Phosphate-dependent glutaminase activity was significantly elevated in neutrophils incubated in the presence of 50 microM adrenaline or 100 microM dibutyryl cAMP for 1 h, whereas glutamine oxidation was significantly depressed (P<0.05) under these conditions. The elevation in enzyme activity was only partially blocked by propranolol. The phagocytic activity of rat neutrophils was not altered by adrenaline in the presence of either glucose or glutamine. The rate of phorbol 12-myristate 13-acetate-induced superoxide production in the presence of glucose was potently reduced by the addition of 5 nM or 50 microM adrenaline. This effect could be mimicked by dibutyryl cAMP. However, when rat neutrophils were incubated in the presence of glutamine plus adrenaline (5 nM or 50 microM), the rate of superoxide production was only marginally reduced. These findings support the proposition that adrenaline may deviate the flux of glucose from the NADPH-producing pentose phosphate pathway, thus reducing substrate availability for the superoxide-generating NADPH oxidase. However, glutamine metabolism may still give rise to substantial quantities of NADPH from the glutaminolysis pathway. We postulate that glutamine metabolism may thus provide a protective mechanism against the inhibitory effect of adrenaline on superoxide production by neutrophils.
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PMID:Effects of adrenaline on glucose and glutamine metabolism and superoxide production by rat neutrophils. 1033 60

Macrophages from experimental wounds in rats were tested for their capacity to generate reactive oxygen intermediates. Measurements of superoxide and H2O2 release, O-2-dependent lucigenin chemiluminescence, oxygen consumption, hexose monophosphate shunt flux, and NADPH oxidase activity in cell lysates indicated, at best, the presence of a vestigial respiratory burst response in these cells. The inability of wound cells to release O-2 was not rekindled by priming with endotoxin or interferon-gamma in vivo or in vitro. NADPH oxidase activity in a cell-free system demonstrated that wound macrophage membranes, but not their cytosols, were capable of sustaining maximal rates of O-2 production when mixed with their corresponding counterparts from human neutrophils. Immune detection experiments showed wound macrophages to be particularly deficient in the cytosolic component of the NADPH oxidase p47-phox. Addition of recombinant p47-phox to the human neutrophil-cell membrane/wound macrophage cytosol cell-free oxidase assay, however, failed to support O-2 production. Present findings indicate an unexpected deficit of wound macrophages in their capacity to generate reactive oxygen intermediates.
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PMID:Vestigial respiratory burst activity in wound macrophages. 1036 35

Neutrophils from patients suffering from glycogen storage disease type Ib (GSD-Ib) show several defects. one of which is a decreased rate of glucose utilization. In this study, we established experimental conditions to show the stimulation of the neutrophil respiratory burst by extracellular glucose. With phorbol-myristate-acetate as stimulus of the burst, the activity of the NADPH oxidase in GSD-Ib neutrophils hardly increased on addition of glucose. In control and GSD-type Ia neutrophils, a clear increase was observed. The lack of response to extracellular glucose in GSD-Ib neutrophils is correlated with the inability to raise intracellular glucose-6-P levels on glucose addition, thereby limiting the activity of the generation of NADPH in the hexose-monophosphate shunt. Our study shows the usefulness of this test for the diagnosis of neutrophil function abnormality in GSD-Ib patients.
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PMID:A convenient diagnostic function test of peripheral blood neutrophils in glycogen storage disease type Ib. 1036 83

We examined the levels of reactive oxygen-related enzymes in human umbilical vein endothelial cells cultured with high concentrations of glucose, in vitro. From the results, elevated levels of catalase mRNA and its protein were exhibited in the presence of higher glucose. In addition, the message level of p22-phox as the active center of NADPH oxidase, was slightly increased. Taken together, the endothelial injury induced by diabetes may associated to the elevated level of O2- production. However, the level of catalase as .OH scavenger was mainly increased, cooperatively.
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PMID:[Expression of reactive oxygen-related enzymes in human umbilical vein endothelial cells (HUVEC) cultured with high concentrations of glucose]. 1044 48

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