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)

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

Ceruloplasmin (Cp) is the major copper transport protein in plasma and catalyzes the conversion of toxic ferrous iron to the safer ferric iron. As an acute-phase protein, Cp is induced during inflammation. It is synthesized primarily in the liver and is expressed in several other tissues, including the brain. Elevated Cp levels have been observed in the brain of patients with neurodegenerative conditions, including Alzheimer's, Parkinson's, and Huntington's diseases. However, the exact role(s) of Cp in inflammatory and neuropathological conditions remains unclear. Microglia are the prime effector cells involved in immune and inflammatory responses in the central nervous system (CNS). They are activated during pathological conditions to restore CNS homeostasis, but chronic microglial activation endangers neuronal survival. Consequently, it is important to identify the regulators of microglial activation and the underlying mechanisms. We sought to examine whether Cp might modulate microglial activation. We observed that Cp induced nitric oxide (NO) release and inducible NO synthase mRNA expression in BV2 microglial cells and rat brain microglia. Cp also increased levels of mRNAs encoding tumor necrosis factor-alpha, interleukin-1beta, cyclooxygenase-2, and NADPH oxidase. Treatment of BV2 cells and primary microglia with Cp induced phosphorylation of p38 MAP kinase. Moreover, Cp induced nuclear factor (NF)-kappaB activation, showing a more sustained pattern than seen with bacterial lipopolysaccharide. Cp-stimulated NO induction was significantly attenuated by a p38 inhibitor, SB203580, and the NF-kappaB inhibitor SN50. Cp induced secretion of TNF-alpha and prostaglandin E(2) in primary microglial cultures. These results suggest that Cp may play an important role in neuropathological conditions by stimulating various proinflammatory and neurotoxic molecules in microglia.
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PMID:Activation of microglial cells by ceruloplasmin. 1772 27

The catabolism of heme, generating biliverdin, carbon monoxide, and free iron, is mediated by heme oxygenase (HO). One form of this of this enzyme, heme oxygenase-1, is inducible by numerous agents which promote oxidative stress, and is now known to provide important antioxidant protection, as demonstrated in many rodent models of free radical-mediated pathogenesis, and suggested by epidemiology observing favorable health outcomes in individuals carrying high-expression alleles of the HO-1 gene. The antioxidant impact of HO-1 appears to be mediated by bilirubin, generated rapidly from biliverdin by ubiquitously expressed biliverdin reductase. Bilirubin efficiently scavenges a wide range of physiological oxidants by electron donation. In the process, it is often reconverted to biliverdin, but biliverdin reductase quickly regenerates bilirubin, thereby greatly boosting its antioxidant potential. There is also suggestive evidence that bilirubin inhibits the activity or activation of NADPH oxidase. Increased serum bilirubin is associated with reduced risk for atherogenic disease in epidemiological studies, and more limited data show an inverse correlation between serum bilirubin and cancer risk. Gilbert syndrome, a genetic variant characterized by moderate hyperbilirubinemia attributable to reduced hepatic expression of the UDP-glucuronosyltransferase which conjugates bilirubin, has been associated with a greatly reduced risk for ischemic heart disease and hypertension in a recent study. Feasible strategies for boosting serum bilirubin levels may include administration of HO-1 inducers, supplementation with bilirubin or biliverdin, and administration of drugs which decrease the efficiency of hepatic bilirubin conjugation. The well-tolerated uricosuric drug probenecid achieves non-competitive inhibition of hepatic glucuronidation reactions by inhibiting the transport of UDP-glucuronic acid into endoplasmic reticulum; probenecid therapy is included in the differential diagnosis of hyperbilirubinemia, and presumably could be used to induce an ''iatrogenic Gilbert syndrome''. Other drugs, such as rifampin, can raise serum bilirubin through competitive inhibition of hepatocyte bilirubin uptake--although unfortunately rifampin is not as safe as probenecid. Measures which can safely achieve moderate serum elevations of bilirubin may prove to have value in the prevention and/or treatment of a wide range of disorders in which oxidants play a prominent pathogenic role, including many vascular diseases, cancer, and inflammatory syndromes. Phycobilins, algal biliverdin metabolites that are good substrates for biliverdin reductase, may prove to have clinical antioxidant potential comparable to that of bilirubin.
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PMID:''Iatrogenic Gilbert syndrome''--a strategy for reducing vascular and cancer risk by increasing plasma unconjugated bilirubin. 1782 97

Microglial cells are critical components of the injurious cascade in a large number of neurodegenerative diseases. However, the precise molecular mechanisms by which microglia mediate neuronal cell death have not been fully delineated. We report here that reactive species released from activated microglia induce the liberation of Zn(2+) from intracellular stores in cultured cortical neurons, with a subsequent enhancement in neuronal voltage-gated K(+) currents, two events that have been intimately linked to apoptosis. Both the intraneuronal Zn(2+) release and the K(+) current surge could be prevented by the NADPH oxidase inhibitor apocynin, the free radical scavenging mixture of superoxide dismutase and catalase, as well as by 5,10,15,20-tetrakis(4-sulfonatophenyl)porphyrinato iron(III) chloride. The enhancement of K(+) currents was prevented by neuronal overexpression of metallothionein III or by expression of a dominant negative (DN) vector for the upstream mitogen-activated protein kinase apoptosis signal regulating kinase-1 (ASK-1). Importantly, neurons overexpressing metallothionein-III or transfected with DN vectors for ASK-1 or Kv2.1-encoded K(+) channels were resistant to microglial-induced toxicity. These results establish a direct link between microglial-generated oxygen and nitrogen reactive products and neuronal cell death mediated by intracellular Zn(2+) release and a surge in K(+) currents.
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PMID:Microglia induce neurotoxicity via intraneuronal Zn(2+) release and a K(+) current surge. 1795 52

The effects of a single intramuscular iron dose, 10mg, to pregnant rats on Day of pregnancy, on the outcome of pregnancy, with respect to foetal weight and mother's immune function has been investigated. Despite significantly elevated hepatic iron stores after iron supplementation in pregnant rats this had no significant effect upon blood haemoglobin or transferrin saturation levels. However the mean weight of the foetuses at Day 20-21 was significantly lower than that of the non-supplemented pregnant rats. Iron supplements significantly increased the activity of NADPH oxidase in the maternal alveolar macrophages, the primary event in the formation of the phagolysosome to combat invading organisms. However inducible nitric oxide synthase activity was significantly reduced in these macrophages as shown by decreases in LPSinduced and LPS+IFNgamma-induced NOS activation. Iron supplementation to rats of normal iron status at the commencement of pregnancy did not show any beneficial effects to either the foetus or the mother.
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PMID:Iron supplementation during pregnancy--a necessary or toxic supplement? 1836 51

Chronic Granulomatous Disease (CGD) is a rare disorder caused by mutations in the NADPH oxidase. The CGD phenotype includes granuloma formation and susceptibility to infection with microorganisms including Aspergillus. The immune adjuvant interferon-gamma and the antifungal agent itraconazole have reduced the incidence of infections in CGD. Studies using CGD phagocytes have shown that reactive oxygen species (ROS), products of the NAPDH oxidase, are critical for killing Aspergillus hyphae. But despite lack of ROS production, CGD patients generally only get infected with Aspergillus after heavy exposure. To study why CGD patients are not infected with Aspergillus more frequently we studied host defense against this ubiquitous mold further. We found that neutrophil lactoferrin is fungistatic for Aspergillus fumigatus spores by chelation of iron, an essential growth factor. Thus, the neutrophil employs both nonoxidative (lactoferrin) and oxidative (hydrogen peroxide) defense mechanisms against A. fumigatus spores and hyphae, respectively.
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PMID:Lessons about the pathogenesis and management of aspergillosis from studies in chronic granulomatous disease. 1852 1

The effects of changes in macrophage iron status, induced by single or multiple iron injections, iron depletion or pregnancy, on both immune function and mRNA expression of genes involved in iron influx and egress have been evaluated. Macrophages isolated from iron deficient rats, or pregnant rats at day 21 of gestation, either supplemented with a single dose of iron dextran, 10 mg, at the commencement of pregnancy, or not, showed significant increases of macrophage ferroportin mRNA expression, which was paralleled by significant decreases in hepatic Hamp mRNA expression. IRP activity in macrophages was not significantly altered by iron status or the inducement of pregnancy +/- a single iron supplement. Macrophage immune function was significantly altered by iron supplementation and pregnancy. Iron supplementation, alone or combined with pregnancy, increased the activities of both NADPH oxidase and nuclear factor kappa B (NFkappaB). In contrast, the imposition of pregnancy reduced the ability of these parameters to respond to an inflammatory stimuli. Increasing iron status, if only marginally, will reduce the ability of macrophages to mount a sustained response to inflammation as well as altering iron homeostatic mechanisms.
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PMID:Effects of marginal iron overload on iron homeostasis and immune function in alveolar macrophages isolated from pregnant and normal rats. 1869 Apr 15

Nanoparticles are currently used in medicine as agents for targeted drug delivery and imaging. However it has been demonstrated that nanoparticles induce neurodegeneration in vivo and kill neurons in vitro. The cellular and molecular bases of this phenomenon are still unclear. We have used the protein ferritin as a nanoparticle model. Ferritin contains iron particles (Fe(3+)) with size 7 nm and a protein shell. We investigated how ferritin influences uptake and release of [(14)C]glutamate and free radical formation as monitored by fluorescent dye DCFDA in rat brain synaptosomes. We found that even a high concentration of ferritin (800 microg/ml) did not induce spontaneous [(14)C]glutamate release. In contrast the same concentration of this protein inhibited [(14)C]glutamate uptake two fold. Furthermore ferritin induced intrasynaptosomal ROS (reactive oxygen species) formation in a dose-dependent manner. This process was insensitive to 30 microM DPI, an inhibitor of NADPH oxidase and to 10 microM CCCP, a mitochondrial uncoupler. These results indicate that iron-based nanoparticles can cause ROS and decreased glutamate uptake, potentially leading to neurodegeneration.
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PMID:Ferritin, a protein containing iron nanoparticles, induces reactive oxygen species formation and inhibits glutamate uptake in rat brain synaptosomes. 1883 82

ABSTRACT Botrytis cinerea is a necrotrophic fungus that infects over 200 plant species. Previous studies showed that host cells collapse in advance of the hyphae, suggesting secretion of toxins or elicitors. We have partially characterized elicitor activity from intercellular fluid extracted from Arabidopsis thaliana leaves infected with B. cinerea. Treatment of intact leaves or cell cultures with either intercellular fluid from infected leaves or medium from inoculated A. thaliana cell culture induced generation of reactive oxygen species, resulting in reduced photosynthesis, electrolyte leakage, and necrotic lesions that resembled the hypersensitive response (HR). The necrosis was inhibited by diphenyleneiodonium, a specific inhibitor of NADPH oxidase, and by chelating free iron, suggesting the involvement of hydroxyl radicals. The necrosis was also suppressed in dnd1 mutants that are compromised in HR. In contrast, increased cell death was observed in acd2 mutants, indicating the involvement of the host defense signaling pathways. Treatment with the intercellular fluid from infected leaves also induced transcription of pathogenesis-related (PR) genes, such as PR-1, PR-5, HSR203J, and of senescence-associated gene SAG-13. Moreover, rapid transcription of the ethylene-dependent AtEBP gene was detected, indicating induction of ethylene production. The inter-cellular fluid from infected A. thaliana induced cell death in other plants, in line with the lack of B. cinerea specificity. In summary, the intercellular fluid mimicked a range of molecular and physiological host responses that are observed during infection with a live fungus. Moreover, it accelerated the B. cinerea infection, suggesting that the elicitor may act as a pathogenicity factor in the progression of gray mold disease.
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PMID:An Elicitor from Botrytis cinerea Induces the Hypersensitive Response in Arabidopsis thaliana and Other Plants and Promotes the Gray Mold Disease. 1894 45

Environmental paraquat and neonatal iron exposure have both separately been suggested as potential risk factors for sporadic forms of Parkinson's disease (PD). In this study, we demonstrate that combined environmental exposure to these two agents results in modulations in microglial activation state. Apocynin, an NADPH oxidase inhibitor, was found to attenuate the release of superoxide from microglia stimulated by combined paraquat and iron and blocked paraquat-induced dopaminergic neuronal death. Furthermore, pretreatment with the synthetic superoxide dismutase/catalase mimetic, EUK-189, significantly decreased microglial activation mediated by combined paraquat and iron treatment. These findings support the notion that environmental PD risk factors may act synergetically to produce neurodegeneration associated with the disorder and that iron and paraquat may act via common oxidative stress-mediated mechanism involving microglial activation.
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PMID:Iron-enhanced paraquat-mediated dopaminergic cell death due to increased oxidative stress as a consequence of microglial activation. 1902 46


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