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: EC:1.6.3.1 (NADPH oxidase)
11,281 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study was designed to test the hypothesis that stimulation of nicotinamide adenine dinucleotide/nicotinamide adenine dinucleotide phosphate (NADH/NADPH) oxidase is involved in increased vascular superoxide anion (*O(2)(-)) production in spontaneously hypertensive rats (SHR). The study was performed in 16-week-old and 30-week-old normotensive Wistar-Kyoto rats (WKY(16) and WKY(30), respectively) and in 16-week-old and 30-week-old SHR (SHR(16) and SHR(30), respectively). In addition, 16-week-old SHR were treated with oral irbesartan (average dose 20 mg/kg per day) for 14 weeks (SHR(30)-I). Aortic NADH/NADPH oxidase activity was determined by use of chemiluminescence with lucigenin. The expression of p22phox messenger RNA was assessed by competitive reverse transcription-polymerase chain reaction. Vascular responses to acetylcholine were determined by isometric tension studies. Aortic wall structure was studied, determining the media thickness and the cross-sectional area by morphometric analysis. Whereas systolic blood pressure was significantly increased in the 2 groups of hypertensive animals compared with their normotensive controls, no differences were observed in systolic blood pressure between SHR(30) and SHR(16). No other differences in the parameters measured were found between WKY(16) and SHR(16). In SHR(30) compared with WKY(30), we found significantly greater p22phox mRNA level, NADH/NADPH-driven *O(2)(-) production, media thickness, and cross-sectional area and an impaired vasodilation in response to acetylcholine. Treated SHR had similar NADH/NADPH oxidase activity and p22phox expression as the WKY(30) group. The vascular functional and morphological parameters were improved in SHR(30)-I. These findings suggest that an association exists between p22phox gene overexpression and NADH/NADPH overactivity in the aortas of adult SHR. Enhanced NADH/NADPH oxidase-dependent *O(2)(-) production may contribute to endothelial dysfunction and vascular hypertrophy in this genetic model of hypertension.
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PMID:Vascular NADH/NADPH oxidase is involved in enhanced superoxide production in spontaneously hypertensive rats. 1081 64

The reduced nicotinamide dinucleotide phosphate (NADPH) oxidase complex allows phagocytes to rapidly convert O2 to superoxide anion which then generates other antimicrobial reactive oxygen intermediates, such as H2O2, hydroxyl anion, and peroxynitrite anion. Chronic granulomatous disease (CGD) results from a defect in any of the 4 subunits of the NADPH oxidase and is characterized by recurrent life-threatening bacterial and fungal infections and abnormal tissue granuloma formation. Activation of the NADPH oxidase requires translocation of the cytosolic subunits p47phox (phagocyte oxidase), p67phox, and the low molecular weight GT-Pase Rac, to the membrane-bound flavocytochrome, a heterodimer composed of the heavy chain gp91phox and the light chain p22phox. This complex transfers electrons from NADPH on the cytoplasmic side to O2 on the vacuolar or extracellular side, thereby generating superoxide anion. Activation of the NADPH oxidase requires complex rearrangements between the protein subunits, which are in part mediated by noncovalent binding between src-homology 3 domains (SH3 domains) and proline-rich motifs. Outpatient management of CGD patients relies on the use of prophylactic antibiotics and interferon-gamma. When infection is suspected, aggressive effort to obtain culture material is required. Treatment of infections involves prolonged use of systemic antibiotics, surgical debridement when feasible, and, in severe infections, use of granulocyte transfusions. Mouse knockout models of CGD have been created in which to examine aspects of pathophysiology and therapy. Gene therapy and bone marrow transplantation trials in CGD patients are ongoing and show great promise.
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PMID:Genetic, biochemical, and clinical features of chronic granulomatous disease. 1084 36

Small, muscular pulmonary arteries (PAs) constrict within seconds of the onset of alveolar hypoxia, diverting blood flow to better-ventilated lobes, thereby matching ventilation to perfusion and optimizing systemic PO2. This hypoxic pulmonary vasoconstriction (HPV) is enhanced by endothelial derived vasoconstrictors, such as endothelin, and inhibited by endothelial derived nitric oxide. However, the essence of the response is intrinsic to PA smooth muscle cells in resistance arteries (PASMCs). HPV is initiated by inhibition of the Kv channels in PASMCs which set the membrane potential (EM). It is currently uncertain whether this reflects an initial inhibitory effect of hypoxia on the K+ channels or an initial release of intracellular Ca2+, which then inhibits K+ channels. In either scenario, the resulting depolarization activates L-type, voltage gated Ca2+ channels, which raises cytosolic calcium levels [Ca2+]i and causes vasoconstriction. Nine families of Kv channels are recognized from cloning studies (Kv1-Kv9), each with subtypes (i.e. Kv1.1-1.6). The contribution of an individual Kv channel to the whole-cell current (IK) is difficult to determine pharmacologically because Kv channel inhibitors are nonspecific. Furthermore, the PASMC's IK is an ensemble, reflecting activity of several channels. The K+ channels which set EM, and inhibition of which initiates HPV, conduct an outward current which is slowly inactivating, and which is blocked by the Kv inhibitor 4-aminopyridine (4-AP) but not by inhibitors of Ca(2+)- or ATP-sensitive K+ channels. Using anti-Kv antibodies to immunolocalize and inhibit Kv channels, we showed that the PASMC contains numerous types of Kv channels from the Kv1 and Kv2 families., Furthermore Kv1.5 and Kv2.1 may be important in determining the EM and play a role as effectors of HPV in PASMCs. While the Kv channels in PASMCs are the "effectors" of HPV, it is uncertain whether they are intrinsically O2-sensitive or are under the control of an "O2 sensor". Certain Kv channels are rich in cysteine, and respond to the local redox environment, tending to open when oxidized and close when reduced. Candidate sensors vary the PASMC redox potential in proportion to O2. These include Nicotinamide Adenine Dinucleotide Phosphate Oxidase, (NADPH oxidase) and the cytosolic ratio of reduced/oxidized redox couples (i.e. glutathione GSH/GSSG), as controlled by electron flux in the mitochondrial electron transport chain (ETC). Using a mouse that lacks the gp91phox component of NADPH oxidase, we have recently shown that loss of the gp91phox-containing NADPH oxidase as a source of activated oxygen species does not impair HPV. However, inhibition of complex 1 of the mitochondrial electron transport chain mimics hypoxia in that it inhibits IK, reduces the production of activated O2 species and causes vasoconstriction. We hypothesize that a redox O2 sensor, perhaps in the mitochondrion, senses O2 through changes in the accumulation of freely diffusible electron donors. Changes in the ratio of reduced/oxidized redox couples, such as NADH/NAD+ and glutathione (GSH/GSSG) can reduce or oxidize the K+ channels, resulting in alterations of PA tone.
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PMID:Molecular identification of O2 sensors and O2-sensitive potassium channels in the pulmonary circulation. 1084 63

Glucocorticoids are known to promote apoptosis of eosinophils, normal and neoplastic lymphoid cells, and blastic cells in some patients with acute myeloid leukemia. We investigated the biochemical signal transduction pathways, in particular, the generation of reactive oxygen species (ROS) and activation of caspases in dexamethasone (DEX)-induced apoptosis of eosinophils, and we compared them with those in DEX-sensitive myeloid and lymphoid leukemia cell lines. The GC-receptor antagonist completely abolished DEX-induced apoptosis of eosinophils and leukemia cells. Among inhibitors related to the ROS system, diphenylene iodonium (DPI), a nicotinamide adenine dinucleotide diphosphate (NADPH) oxidase inhibitor, strongly inhibited both spontaneous and DEX-induced apoptosis of eosinophils at concentrations as low as 0.2 to 2 mumol/L, while promoting apoptosis of leukemia cells in a dose-dependent manner. Apocynin, another NADPH oxidase inhibitor, and antioxidants did not affect the apoptosis of eosinophils or leukemia cells. DEX treatment did not change intracellular production of O2- and H2O2, and it decreased the extracellular release of O2- in both cells. These results suggest little or no involvement of ROS generation in DEX-induced apoptosis of both cells. Although among peptide-based caspase inhibitors, only z-VAD-FMK, a broad caspase inhibitor, partially inhibited the apoptosis of eosinophils and leukemia cells, DEX treatment increased the activities of caspases 2-, 3-, 6-, and 8-like proteases assessed by colorimetry in both cells, suggesting the involvement of a similar caspase activation pathway in DEX-induced apoptosis in both cells. DPI markedly reduced caspase 3-like activity in eosinophils, while augmenting the activity in leukemia cells, indicating that DPI acts upstream of caspase 3 activation opposingly in both cells. Thus, the action of DPI in eosinophils seems peculiar in respect to apoptosis induction, and DPI appears to exert an influence on unknown targets rather than those involved in NADPH oxidase inhibition.
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PMID:Glucocorticoid-induced apoptotic pathways in eosinophils: comparison with glucocorticoid-sensitive leukemia cells. 1090 53

Natural killer (NK) cells are deficient in patients with chronic myelogenous leukemia (CML), but the mechanisms responsible for the dysfunction are not completely understood. This study reports that CML cells effectively inhibit the baseline and interleukin-2 (IL-2)-induced NK cell cytotoxicity against a CML cell-derived line (K562). A sizable fraction of NK cells subsequently acquired features characteristic of programmed cell death/apoptosis. The CML cell-mediated inhibition of NK cells required triggering of reduced nicotinamide adenine dinucleotide phosphate (NADPH) oxidase-mediated formation of reactive oxygen species (ROS) and was prevented by catalase, a scavenger of ROS, and by histamine, acting via H(2)-receptor-mediated inhibition of ROS production in CML cells. In contrast, nonmalignant neutrophilic granulocytes inhibited NK cells via ROS production without the requirement of exogenous NADPH oxidase-triggering stimuli. We propose that paracrine production of ROS may contribute to the dysfunction of NK cells in CML and that histamine may serve as an autocrine inhibitor of ROS formation in leukemic granulocytes. (Blood. 2000;96:1961-1968)
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PMID:Natural killer cell dysfunction and apoptosis induced by chronic myelogenous leukemia cells: role of reactive oxygen species and regulation by histamine. 1096 1

Oxidized low-density lipoprotein (OxLDL) exerts proliferation and apoptosis in vascular cells, depending on its concentration and the duration of exposure. Recent studies indicate that [O(2)](-) is involved in cell cycle regulation and that OxLDL stimulates endothelial cells to produce [O(2)](-). This study examined the role of nicotinamide adenine dinucleotide phosphate (NADPH) oxidase as a potential source for [O(2)](-) in the proliferation-inducing activity of OxLDL in cultured human umbilical vein endothelial cells (HUVEC). Human LDL was oxidized by Cu(++), and proliferation of HUVEC was detected by 3H-thymidine incorporation. OxLDL (5 microg/ml) caused an increase in proliferation of HUVEC of 250 to 300%. OxLDL-induced proliferation was blocked by addition of the antioxidants superoxide dismutase and catalase, suggesting that enhanced [O(2)](-) formation was involved. Diphenylene iodonium (DPI, 1 microM), an inhibitor of NADPH oxidase, also prevented OxLDL-induced proliferation of HUVEC, indicating that NADPH oxidase was the source for enhanced [O(2)](-) formation. The OxLDL effect was mimicked by lysophosphatidylcholine (LPC, 10 microM), a compound formed during oxidation of LDL. LPC-induced proliferation was also prevented by coincubation with DPI. Treatment of HUVEC with [O(2)](-) generated by the xanthine/xanthine oxidase reaction resulted in proliferation as did treatment with OxLDL. As expected, this stimulation could not be blocked by DPI. With the use of the cytochrome c-assay, it was demonstrated that OxLDL and LPC enhanced [O(2)](-) formation in HUVEC (by factor 3.2 and by factor 3.5, respectively). Supporting the assumption that NADPH oxidase was the enzyme responsible for [O(2)](-) formation, cells transfected with antisense oligonucleotides for NADPH oxidase showed a significantly reduced [O(2)](-) formation after stimulation with OxLDL and LPC. OxLDL and its compound LPC induce proliferation of HUVEC through activation of NADPH oxidase. The active NADPH oxidase generates [O(2)](-), which mediates the proliferative effects.
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PMID:Stimulation of NADPH oxidase by oxidized low-density lipoprotein induces proliferation of human vascular endothelial cells. 1100 12

Endotoxin (lipopolysaccharide [LPS]) is known to induce the production of tumor necrosis factor (TNF)-alpha and the induction of manganese superoxide dismutase (MnSOD). We have recently demonstrated that induction of TNF-alpha and MnSOD by LPS is mediated through different signal transduction pathways. In the current study, we investigated the role of reactive oxygen species (ROS) in the induction of TNF-alpha and MnSOD messenger RNAs (mRNAs) in human monocytes. Hypoxia (1% O2) inhibited the production of superoxide (O2-) and the induction of MnSOD, but not TNF-alpha, mRNA. Diphenylene iodonium (DPI), a potent inhibitor of the reduced nicotinamide adenine dinucleotide phosphate (NADPH) oxidase, had no effect on LPS induction of MnSOD mRNA, whereas it markedly inhibited LPS-induced O2- production. Neither hypoxia nor DPI had any effect on LPS activation of nuclear factor (NF)-kappaB. These results suggest that (1) ROS is important in the induction of MnSOD, but not TNF-alpha, mRNA by LPS, (2) ROS from sources other than NADPH oxidase is involved in LPS induction of MnSOD mRNA, and (3) ROS-mediated LPS induction of MnSOD mRNA is independent of NF-kappaB activation.
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PMID:Differential induction of TNF-alpha and MnSOD by endotoxin: role of reactive oxygen species and NADPH oxidase. 1115 50

We examined the effects of a variety of ligands/activators of the peroxisome proliferator-activated receptor (PPAR) on the expression of the superoxide scavenger enzyme, Cu2+,Zn2+-superoxide dismutase (CuZn-SOD), and the superoxide generating enzyme nicotinamide adenine dinucleotide phosphate (reduced form) (NADPH) oxidase in primary cultures of human umbilical vein endothelial cells (HUVEC) and human aorta endothelial cells (HAEC). Our data show that 3 types of PPARs, PPARalpha, PPARbeta/delta/Nuc1, and PPARgamma are expressed in endothelial cells. Bezafibrate, which is a ligand/activator for PPARalpha, increased the CuZn-SOD gene expression and protein levels in endothelial cells. Troglitazone and pioglitazone, which are ligands/activators for PPARgamma, also induced PPARalpha gene and protein expression and increased CuZn-SOD gene expression and protein levels in addition to increasing PPARgamma gene and protein expression in endothelial cells. Moreover, with treatment of monounsaturated and polyunsaturated fatty acids (PUFA), the CuZn-SOD mRNA levels were positively correlated with PPARalpha mRNA levels (r = .872, P < .0001) in primary endothelial cells. In addition, the phorbol myristate acetate (PMA)-stimulated or PMA-nonstimulated 22-kd a-subunit (p22phox) mRNA levels and 47-kd a-subunit (p47phox) protein levels in NADPH oxidase were decreased by treatment with PPARalpha and PPARgamma ligands/activators. These results suggest that PPARalpha and PPARgamma gene and protein expression in endothelial cells may play a physiologic role as radical scavengers, although the details of these mechanisms remain to be established.
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PMID:The ligands/activators for peroxisome proliferator-activated receptor alpha (PPARalpha) and PPARgamma increase Cu2+,Zn2+-superoxide dismutase and decrease p22phox message expressions in primary endothelial cells. 1117 67

Previous work has demonstrated that circulating neutrophils (polymorphonuclear leukocytes [PMNs]) adhere to cardiac myocytes via beta(2)-integrins and cause cellular injury via the nicotinamide adenine dinucleotide phosphate (NADPH) oxidase enzyme system. Since PMNs induced to leave the vasculature (emigrated PMNs) express the alpha(4)-integrin, we asked whether (a) these PMNs also induce myocyte injury via NADPH oxidase; (b) beta(2)-integrins (CD18) still signal oxidant production, or if this process is now coupled to the alpha(4)-integrin; and (c) dysfunction is superoxide dependent within the myocyte or at the myocyte-PMN interface. Emigrated PMNs exposed to cardiac myocytes quickly induced significant changes in myocyte function. Myocyte shortening was decreased by 30-50% and rates of contraction and relaxation were reduced by 30% within the first 10 min. Both alpha(4)-integrin antibody (Ab)-treated PMNs and NADPH oxidase-deficient PMNs were unable to reduce myocyte shortening. An increased level of oxidative stress was detected in myocytes within 5 min of PMN adhesion. Addition of an anti-alpha(4)-integrin Ab, but not an anti-CD18 Ab, prevented oxidant production, suggesting that in emigrated PMNs the NADPH oxidase system is uncoupled from CD18 and can be activated via the alpha(4)-integrin. Addition of exogenous superoxide dismutase (SOD) inhibited all parameters of dysfunction measured, whereas overexpression of intracellular SOD within the myocytes did not inhibit the oxidative stress or the myocyte dysfunction caused by the emigrated PMNs. These findings demonstrate that profound molecular changes occur within PMNs as they emigrate, such that CD18 and associated intracellular signaling pathways leading to oxidant production are uncoupled and newly expressed alpha(4)-integrin functions as the ligand that signals oxidant production. The results also provide pathological relevance as the emigrated PMNs have the capacity to injure cardiac myocytes through the alpha(4)-integrin-coupled NADPH oxidase pathway that can be inhibited by extracellular, but not intracellular SOD.
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PMID:alpha(4)-integrin mediates neutrophil-induced free radical injury to cardiac myocytes. 1123 44

Helicobacter pylori is a contributing factor to the development of gastric and duodenal ulcers and some gastric cancers. Some therapeutic regimes comprise of a number of components, one of which is the antimicrobial metronidazole. A problem with these therapies is the increasing prevalence of metronidazole-resistant (MtrR) H. pylori strains. Several resistance mechanisms have been proposed, and this study addresses the 'scavenging of oxygen' hypothesis. Spectrophotometric assays of cytosolic fractions indicated that metronidazole-sensitive (MtrS) H. pylori isolates had 2.6-fold greater nicotinamide adenine dinucleotide (NADH) oxidase activity, 34-fold greater NADH nitroreductase activity, and eightfold greater nicotinamide adenine dinucleotide phosphate (NADPH) nitroreductase activity than cytosolic fractions from matched MtrR strains. Electrophoresis of cytosolic fractions in non-denaturing gels showed up to 10 protein bands when stained with Coomassie blue. Activity staining of non-denaturing, non-reducing polyacrylamide gels detected NAD(P)H oxidase, disulphide reductase, tetrazolium reductase and nitroreductase activities in the protein bands. Oxidase and reductase activities observed in a band from MtrS strains were absent in the corresponding band from MtrR strains. This band comprised at least 13 proteins, and the major constituent was identified as an alkyl hydroperoxide reductase AhpC subunit. The absence of oxidase and reductase activities in the band from MtrR strains indicated a correlation between the activity of the proteins in this band and the metronidazole-sensitive phenotype.
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PMID:Oxidases and reductases are involved in metronidazole sensitivity in Helicobacter pylori. 1124 Mar 71


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