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)

Inflammation contributes to many pathologies, but the mechanisms by which inflammation induces cell death are unclear. We investigated interactions between inducible nitric oxide synthase (iNOS), phagocytic NADPH oxidase (PHOX) and arachidonate in inducing cell death in a J774 macrophage cell line. Little or no cell death was induced by: (i) induction of iNOS with lipopolysaccharide (LPS) and interferon-gamma (INFgamma), (ii) activation of PHOX with phorbol-12-myristate-13-acetate (PMA), or (iii) addition of arachidonate. However, when iNOS activation was combined with PHOX activation by PMA or with arachidonate, there was extensive necrotic death of macrophages. In both cases death was accompanied by peroxynitrite production, and was blocked by removal of peroxynitrite (by FeTPPS), removal of superoxide (by superoxide dismutase), inhibition of iNOS (by 1400W) or inhibition of PARP (by IsoQ or DPQ). However, when iNOS induction was combined with PMA, death was blocked by a PHOX inhibitor (apocynin). Whereas when iNOS induction was combined with arachidonate, death was not blocked by apocynin, but was blocked by a cyclooxygenase (COX) inhibitor (ibuprofen), suggesting that the source of superoxide contributing to cell death differs in these two conditions.
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PMID:Arachidonate and NADPH oxidase synergise with iNOS to induce death in macrophages: mechanisms of inflammatory degeneration. 1733 78

The action of oxidatively modified low-density lipoprotein (oxLDL) on vascular endothelial cells has been proposed to be a crucial process leading to endothelial dysfunction and atherogenesis. OxLDL was shown here to elicit oxidative stress in bovine aortic endothelial cells or human umbilical vein endothelial cells, as judged by an increase in 2',7'-dichlorofluorescein fluorescence and elevated levels of carbonylated, nitrated, and 2-hydroxynonenal-coupled proteins. These effects were sensitive to apocynin, indicating involvement of NADPH oxidase. A 170-kDa polypeptide carbonylated upon exposure of cells to oxLDL was identified by immunoprecipitation as EGF receptor. Immunocytochemical visualization by confocal microscopy revealed the highest levels of modified proteins in the perinuclear region. Exposure of endothelial cells to oxLDL led to modulation of the expression levels of *NO synthases; the endothelial isoform (eNOS) was down-regulated via proteasomal degradation, whereas the inducible isoform (iNOS) was up-regulated in an enzymatically active state. eNOS protein was found to be both carbonylated and nitrated upon exposure of cells to oxLDL. iNOS contributed to the generation of modified proteins as judged by the effects of the selective inhibitor L-NIO. These oxLDL-elicited changes in vascular endothelial cells described were suppressed by (-)-epicatechin, a dietary polyphenol, which inhibited NADPH oxidase activity in these cells.
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PMID:Protein modification elicited by oxidized low-density lipoprotein (LDL) in endothelial cells: protection by (-)-epicatechin. 1734 24

We evaluated the contribution of superoxide anion (O2*-) generated by NADPH oxidase or mitochondria in the rostral ventrolateral medulla (RVLM), where sympathetic premotor neurons for arterial pressure maintenance are located, on cardiovascular depression induced by inducible nitric oxide synthase-derived NO after Escherichia coli lipopolysaccharide (LPS) treatment. In Sprague-Dawley rats maintained under propofol anesthesia, microinjection of LPS bilaterally into the RVLM induced progressive hypotension, bradycardia, and reduction in sympathetic vasomotor outflow over our 240-min observation period. This was accompanied by an increase in O2*- production (60-240 min) in the RVLM, alongside phosphorylation of p47(phox) or p67(phox), upregulation of gp91(phox) or p47(phox) protein, and increase in Rac-1 or NADPH oxidase activity (60-120 min), and a depression of mitochondrial respiratory enzyme activity (120-240 min). Whereas inhibition of NADPH oxidase or knockdown of the gp91(phox) or p47(phox) gene blunted the early phase (60-150 min), coenzyme Q10 or mitochondrial K(ATP) channel inhibitor antagonized the delayed phase (120-240 min) of LPS-induced increase in O2*- production in RVLM and cardiovascular depression. We conclude that, whereas NADPH oxidase-derived O2*- in RVLM participates predominantly in the early phase, O2*- generated by depression in mitochondrial respiratory enzyme activity or opening of mitoK(ATP) channels mediates the delayed phase of LPS-induced cardiovascular depression.
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PMID:NADPH oxidase- and mitochondrion-derived superoxide at rostral ventrolateral medulla in endotoxin-induced cardiovascular depression. 1744 8

Vascular diseases are important clinical complications of diabetes. Advanced glycation end-products (AGE) are mediators of vascular dysfunction, but their effects on vascular smooth muscle cell (VSMC) ROS production are unclear. We studied the source and downstream targets of AGE-mediated ROS and reactive nitrogen species production in these cells. Significant increases in superoxide production in AGE-treated VSMC were measured using lucigenin (7650+/-433 vs 4485+/-424 LU/10(6) cells, p<0.001) or coelenterazine (277,907+/-71,295 vs 120,456+/-4140 LU/10(6) cells, p<0.05) and confirmed by ESR spectroscopy. These signals were blocked by the flavin-containing oxidase inhibitor diphenylene iodonium (DPI). AGE-stimulated NF-kappaB activity was abolished by DPI and the superoxide scavenger MnTBAP. AGE differentially regulated VSMC NADPH oxidase catalytic subunits, stimulating the transcription of Nox1 (201+/-12.7%, p<0.0001), while having no effect on Nox4. AGE also increased 3-nitrotyrosine formation, which was inhibited by MnTBAP, DPI, or the NOS inhibitor L-NAME. Regarding the source of NO, AGE stimulated inducible nitric oxide synthase mRNA (1 vs 9.7+/-3.0, p=0.046), which was abolished by a NF-kappaB inhibitor, SOD, catalase, or siRNA against Nox1. This study establishes that AGE activate iNOS in VSMC through a ROS-sensitive, NF-kappaB-dependent mechanism involving ROS generation by a Nox1-based oxidase.
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PMID:Nox1-based NADPH oxidase-derived superoxide is required for VSMC activation by advanced glycation end-products. 1746 35

Cutaneous leishmaniasis is caused by protozoan parasites of the genus Leishmania. The mechanisms of pathogen control have been established primarily in the mouse model of Leishmania major infection, but they might not hold true for other Leishmania species associated with cutaneous disease. Here, we analyzed the role of cytokines, signaling components, and effector molecules in the control of New World cutaneous leishmaniasis due to L. braziliensis. Unlike L. major, L. braziliensis caused small, nonulcerative, and self-healing skin swelling in C57BL/6 mice, as well as BALB/c mice. In contrast to the results obtained for L. mexicana, mice deficient for interleukin-12 or its key signaling molecule, signal transducer and activator of transcription 4, rapidly succumbed to severe visceral leishmaniasis. Infection of tumor necrosis factor knockout mice with L. braziliensis led to progressive, nonhealing skin lesions with erosions and hemorrhagic ulcerations, but in contrast to the results with L. major, only 20 to 30% of the mice developed fatal visceral disease. As seen with L. major, mice with a deleted inducible nitric oxide synthase gene (iNOS(-/-)) were unable to contain L. braziliensis in the skin, whereas the control of the parasite in the spleen remained unimpaired. Unlike what happens in L. major infections, NADPH oxidase had no impact on the course of disease in L. braziliensis-infected mice. These results not only define essential components of a protective immune response to L. braziliensis but also illustrate that the requirements for the control of cutaneous leishmaniasis vary between different parasite species.
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PMID:Cytokines, signaling pathways, and effector molecules required for the control of Leishmania (Viannia) braziliensis in mice. 1751 68

Phagocytes of the innate immune system, such as monocytes/macrophages, represent a first line of defense against invading microorganisms. Psychological stress is often thought to suppress the functioning of these cells, in part due to the immunosuppressive activity of stress-induced glucocorticoid hormones. However, exposure to the stressor social disruption (SDR) has been shown to increase cytokine production by monocytes/macrophages and to reduce their sensitivity to corticosterone. Thus, it was hypothesized that splenic monocytes/macrophages from socially stressed mice would be primed to be more physiologically active than cells from nonstressed controls. Flow cytometry was used to demonstrate that exposure to SDR significantly increased the expression of Toll-like receptors (TLR) 2 and 4 on the surface of splenic macrophages. In a follow-up experiment, exposure to SDR also increased the ability of these macrophages to kill Escherichia coli ex vivo and in vivo. However, SDR failed to increase the bactericidal activity of splenic macrophages from C3H/HeJ mice, which lack functional TLR4. In mice with functional TLR4, the stress-induced increase in bactericidal activity was associated with a significant increase in macrophage gene expression for inducible nitric oxide synthase and subunits of the NADPH oxidase complex, which are responsible for generating reactive nitrogen and oxygen intermediates, respectively. This stress-induced increase in gene expression was not evident in the TLR4-deficient mice. These data indicate that SDR increases TLR expression, which in turn enhances the bactericidal activity of splenic macrophages, in part by increasing pathways responsible for reactive oxygen and nitrogen intermediate production.
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PMID:Repeated social defeat increases the bactericidal activity of splenic macrophages through a Toll-like receptor-dependent pathway. 1759 26

Cerebral ischemic preconditioning or tolerance is a powerful neuroprotective phenomenon by which a sublethal injurious stimulus renders the brain resistant to a subsequent damaging ischemic insult. We used lipopolysaccharide (LPS) as a preconditioning stimulus in a mouse model of middle cerebral artery occlusion (MCAO) to examine whether improvements in cerebrovascular function contribute to the protective effect. Administration of LPS 24 h before MCAO reduced the infarct by 68% and improved ischemic cerebral blood flow (CBF) by 114% in brain areas spared from infarction. In addition, LPS prevented the dysfunction in cerebrovascular regulation induced by MCAO, as demonstrated by normalization of the increase in CBF produced by neural activity, hypercapnia, or by the endothelium-dependent vasodilator acetylcholine. These beneficial effects of LPS were not observed in mice lacking inducible nitric oxide synthase (iNOS) or the nox2 subunit of the superoxide-producing enzyme NADPH oxidase. LPS increased reactive oxygen species and the peroxynitrite marker 3-nitrotyrosine in wild-type mice but not in nox2 nulls. The peroxynitrite decomposition catalyst 5,10,15,20-tetrakis(4-sulfonatophenyl)porphyrinato iron (III) attenuated LPS-induced nitration and counteracted the beneficial effects of LPS on infarct volume, ischemic CBF, and vascular reactivity. Thus, LPS preserves neurovascular function and ameliorates CBF in regions of the ischemic territory at risk for infarction. This effect is mediated by peroxynitrite formed from iNOS-derived NO and nox2-derived superoxide. The data indicate that preservation of cerebrovascular function is an essential component of ischemic tolerance and suggest that combining neuroprotection and vasoprotection may be a valuable strategy for treating ischemic brain injury.
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PMID:Neurovascular protection by ischemic tolerance: role of nitric oxide and reactive oxygen species. 1761 Dec 61

Mechanical traumatic injury causes cardiomyocyte apoptosis and cardiac dysfunction. However, the signaling mechanisms leading to posttraumatic cardiomyocyte apoptosis remains unclear. The present study attempted to identify the molecular mechanisms responsible for cardiomyocyte apoptosis induced by trauma. Normal cardiomyocytes (NC) or traumatic cardiomyocytes (TC; isolated immediately after trauma) were cultured with normal plasma (NP) or traumatic plasma (TP; isolated 1.5 h after trauma) for 12 h, and apoptosis was determined by caspase-3 activation. Exposure of TC to NP failed to induce significant cardiomyocyte apoptosis. In contrast, exposure of NC to TP resulted in a greater than twofold increase in caspase-3 activation (P < 0.01). Incubation of cardiomyocytes with cytomix (a mixture of TNF-alpha, IL-1beta, and IFN-gamma) or TNF-alpha alone, but not with IL-1beta or IFN-gamma alone, caused significant caspase-3 activation (P < 0.01). TP-induced caspase-3 activation was virtually abolished by an anti-TNF-alpha antibody, and TP isolated from TNF-alpha(-/-) mice failed to induce caspase-3 activation. Moreover, incubation of cardiomyocytes with TP upregulated inducible nitric oxide (NO) synthase (iNOS)/NADPH oxidase expression, increased NO/superoxide production, and increased cardiomyocyte protein nitration (measured by nitrotyrosine content). These oxidative/nitrative stresses and the resultant cardiomyocyte caspase-3 activation can be blocked by neutralization of TNF-alpha (anti-TNF-alpha antibody), inhibition of iNOS (1400W), or NADPH oxidase (apocynin) and scavenging of peroxynitrite (FP15) (P < 0.01). Taken together, our study demonstrated that there exists a TNF-alpha-initiated, cardiomyocyte iNOS/NADPH oxidase-dependent, peroxynitrite-mediated signaling pathway that contributes to posttraumatic myocardial apoptosis. Therapeutic interventions that block this signaling cascade may attenuate posttraumatic cardiac injury and reduce the incidence of secondary organ dysfunction after trauma.
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PMID:Tumor necrosis factor-alpha in mechanic trauma plasma mediates cardiomyocyte apoptosis. 1761 42

Addition of bacterial lipopolysaccharides (LPS) and interferon-gamma (IFN-gamma) to rat astrocytes in primary culture promotes an early release of arachidonic acid (ARA) associated with an immediate inhibition of neuronal nitric oxide synthase (nNOS). Preventing the release of constitutive nitric oxide (NO) is indeed critical for activation of the nuclear factor kappa B, and for the expression of inducible nitric oxide synthase responsible for the formation of large amounts of NO. LPS/IFN-gamma also promotes an early release of superoxide, via activation of NADPH oxidase, but the generation of peroxynitrite (ONOO-) is prevented by the different timing of superoxide (minutes) and NO (hours) formation. Upstream inhibition of the ARA-dependent nNOS inhibitory signaling, however, caused the parallel release of superoxide and constitutive NO, thereby leading to formation of ONOO- levels triggering loss of ATP and mitochondrial membrane potential followed by the mitochondrial release of cytochrome c, activation of caspase 3 and morphological evidence of apoptosis. Nanomolar levels of exogenous ARA prevented all these events via inhibition of early ONOO- formation. Thus, the ARA-dependent nNOS inhibition observed in astrocytes exposed to pro-inflammatory stimuli, as LPS/IFN-gamma, is critical for both the expression of nuclear factor kappa B-dependent genes and for survival.
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PMID:Early release of arachidonic acid prevents an otherwise immediate formation of toxic levels of peroxynitrite in astrocytes stimulated with lipopolysaccharide/interferon-gamma. 1766 49

Endothelial dysfunction is a key event in the development of renovascular complications in the metabolic syndrome. The aim of this study was to elucidate the pathogenetic mechanisms involved in renovascular injuries in the Zucker obese rat, a model of the metabolic syndrome, and to examine the therapeutic effects of pioglitazone, a thiazolidinedione. Obese rats fed high-protein diet (OHP) for 12 weeks exhibited nephropathy and endothelial dysfunction, which were improved by pioglitazone. Accumulation of nitrotyrosine, a tracer of nitrative stress, was increased in aorta of the OHP group. The mRNA expressions of NADPH oxidase components and inducible nitric oxide synthase in the aorta were enhanced in the OHP group. Pioglitazone reduced nitrotyrosine in the aorta of the OHP group, inhibiting the augmented expression levels of both. These results suggest that nitrative stress could cause endothelial dysfunction in the rat model of metabolic syndrome with nephropathy, and that pioglitazone ameliorates these injuries, presumably by reducing nitrative stress.
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PMID:Pioglitazone ameliorates endothelial dysfunction in obese rats with nephropathy. 1768 Dec 82


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