Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.17.3.2 (xanthine oxidase)
 8,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Reactive oxygen species have been implicated in the tissue injury and loss of epithelial barrier function associated with a number of clinical disorders in which disregulated inflammation seems to be a dominant event, such as endotoxemia and viral syndromes. In these disorders, xanthine oxidase (XO) contained within the epithelial cell has been proposed as a major source of injurious reactive oxygen species. This study was undertaken in an effort to understand the regulation of xanthine dehydrogenase (XDH)/XO expression at both the activity and gene expression levels in the epithelial cell under conditions associated with the inflammatory response. The results indicate that TNF, IFN-gamma, IL-6, IL-1, and dexamethasone induce XDH/XO activity in bovine renal epithelial cells (MDBK). This pattern of XDH/XO regulation by cytokines and steroids is analogous to the profile of response seen by acute phase reactants. Metabolic labeling and immunoprecipitation revealed the increase in XDH/XO activity requires new protein synthesis. By Northern analysis, all cytokines and dexamethasone increased the level of the 5-kb XDH/XO mRNA. This increase was not detectable in the presence of actinomycin D but was further induced in the presence of cycloheximide, consistent with the major site of XDH/XO up-regulation occurring at the transcriptional level. XDH/XO mRNA was very stable, with no indication that the rates of transcript degradation contributed to differences in mRNA accumulation or ultimate activity levels. In addition to providing information on the regulation of XDH/XO, the data presented furthers the understanding of the epithelial cell's potential to actively respond to immunomodulators associated with injury/inflammation.
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PMID:Xanthine dehydrogenase and xanthine oxidase activity and gene expression in renal epithelial cells. Cytokine and steroid regulation. 804 45

Proinflammatory cytokines and chemotactic peptides are strongly implicated as mediators of the pathophysiologic responses of asbestosis and other chronic inflammatory lung diseases. Recent studies in our laboratory have demonstrated that asbestos fibers stimulate lung epithelial cells to produce interleukin-8 (IL-8), the major neutrophil chemoattractant in the lung. The mechanisms by which asbestos regulates IL-8 expression were studied using the pulmonary type II-like epithelial cell line A549. Membrane permeable hydroxyl scavengers inhibited asbestos induced IL-8 expression. Using A549 cells transfected with the -546 IL-8 construct linked to a chloramphenicol acetyl transferase reporter gene, we have shown that these antioxidants directly inhibited asbestos-stimulated IL-8 promoter-dependent transcription. Asbestos fibers as well as reactive oxygen species generating systems hypoxanthine-xanthine oxidase and hydrogen peroxide stimulated DNA binding activity to the regulatory elements in the IL-8 promoter, binding sites of nuclear factor (NF)-kappaB- and NF-IL-6-like transcription factors. Asbestos-inducible DNA binding activity was partially inhibited by tetramethylthiourea, a hydroxyl radical scavenger. IL-8 secretion was also suppressed by staurosporine, an inhibitor of protein kinase C, and by inhibitors of tyrosine kinase such as herbimycin A and genistein. The suppression paralleled the effect of these inhibitors on asbestos-induced DNA binding to the NF-kappaB- and NF-IL-6-like binding sites of the IL-8 promoter. Taken together, the results suggest that asbestos-induced redox changes and phosphorylation events, mediated by staurosporine-sensitive and tyrosine kinase(s), activate nuclear proteins which recognize the NF-kappaB/NF-IL-6 binding sites of the IL-8 promoter and contribute to the regulation of IL-8 gene expression.
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PMID:Asbestos induction of nuclear transcription factors and interleukin 8 gene regulation. 896 74

The signalling mechanisms in oxidative stress mediated by cytokines in the perinatal alveolar epithelium are not well known. In an in vitro model of fetal alveolar type II epithelial cells, we investigated the profile of cytokines in response to ascending Deltap O(2)regimen (oxyexcitation). The peak of TNF-alpha (4 h) preceded IL-1beta and IL-6 (6-9 h), indicating a positive feedback autocrine loop confirmed by exogenous rmTNF-alpha. Reactive oxygen species (ROS) induced a dose-dependent release of cytokines, an effect specifically obliterated by selective antioxidants of the hydroxyl radical (*OH) and superoxide anion (O(2)-). Actinomycin and cycloheximide blocked the induced production of cytokines, implicating transcriptional and translational control. Whilst the dismutating enzymes superoxide dismutase (SOD) and catalase were ineffective in reducing ROS-induced cytokines, MnP, a cell-permeating SOD mimetic, abrogated xanthine/xanthine oxidase-dependent cytokine release. Desferrioxamine mesylate, which inhibits the iron-catalysed generation of *OH via the Fenton reaction, exhibited a mild effect on the release of cytokines. Dynamic variation in alveolar p O(2)constitutes a potential signalling mechanism within the perinatal lung allowing upregulation of cytokines in an ROS-dependent manner.
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PMID:Chemioxyexcitation (delta pO2/ROS)-dependent release of IL-1 beta, IL-6 and TNF-alpha: evidence of cytokines as oxygen-sensitive mediators in the alveolar epithelium. 1116 56

Placental hypoxia, ischaemia, reperfusion and resultant oxidative stress, with the release of various factors into the maternal vasculature acting as mediators of endothelial cell dysfunction, play an important role in the development of pre-eclampsia. Human term placental tissue explants were exposed to different stressors, e.g. hypoxia, oxidative stress and lipopolysaccarides, and the effect on the release of prostanoids and cytokines was determined. The hypoxic environment consisted of 2 per cent O2, 5 per cent CO2and 93 per cent N2. Oxidative stress was induced by addition of xanthine together with xanthine oxidase to the incubation medium. As a third experimental variable, lipopolysaccharide was added to the medium. Prostaglandins (8-iso-PGF(2alpha), or 6-keto-PGF(1alpha)and TXB(2)as stable metabolites of prostacyclin and thromboxane, respectively) and cytokines (TNF-alpha, IL-1alpha, IL-1beta, IL-6) were measured using commercial ELISA assays. Under control conditions, the production of prostaglandins in ng/24 h (mean +/- s.d.) was 6 +/- 3 for 8-iso-PGF(2alpha), 19 +/- 9 for 6-keto-PGF(1alpha)and 5 +/- 2 for TXB2. The production of cytokines was 13 +/- 6 pg for TNF-alpha, 7 +/- 2 pg for IL-1alpha, 5 +/- 3 pg for IL-1beta and 18 +/- 9 ng for IL-6. Under hypoxia the production of prostaglandins remained unchanged and of the cytokines only IL-1beta showed a 15-fold increase. Oxidative stress resulted in an increase in the release of prostaglandins and of cytokines of 4- to 15- and 3- to 130-fold, respectively. Lipopolysaccharides and oxidative stress had a similar effect on the production of prostaglandins, whereas the stimulatory effect of lipopolysaccharides on cytokines was significantly higher than that of oxidative stress.
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PMID:Effect of hypoxia, oxidative stress and lipopolysaccharides on the release of prostaglandins and cytokines from human term placental explants. 1131 28

Reactive oxygen species are considered important regulators in the pathogenesis and in the development of pancreatitis. The transcription factor nuclear factor kappaB (NF-kappaB) is activated by reactive oxygen species and regulates the gene expressions of inflammatory cytokines. The present study investigates (1) the susceptibility of isolated rat pancreatic acinar cells to oxidant attacks produced by adenosine diphosphate/ferrous iron, hypoxanthine/xanthine oxidase, and neutrophils primed with 4beta-phorbol 12beta-myristate 13alpha-acetate (PMA) and (2) the potential of small-molecule antioxidants (N-acetylcysteine, beta-carotene, rebamipide, allopurinol) and superoxide dismutase (SOD) to prevent such injury and oxidant-mediated NF-kappaB activation and inflammatory cytokine production in the cells. As a result, oxidative stress resulted in a time-dependent increase in lipid peroxide production in pancreatic acinar cells which was inhibited by small-molecule antioxidants and SOD. PMA-primed neutrophils induced NF-kappaB activation and increased the production of cytokines (IL-6, TNF-alpha) in the cells. This was in parallel with lipid peroxide production. Small-molecule antioxidants and SOD inhibited NF-kappaB activation and cytokine production in acinar cells caused by PMA-primed neutrophils. In conclusion, oxidative stress activates NF-kappaB, resulting in upregulation of inflammatory cytokines in pancreatic acinar cells. Small-molecule antioxidants might be clinically useful anti-inflammatory agents by inhibiting oxidant-induced cytokine production.
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PMID:Oxidative stress induced cytokine production in isolated rat pancreatic acinar cells: effects of small-molecule antioxidants. 1180 45

Burn trauma produces significant fluid shifts that, in turn, reduce cardiac output and tissue perfusion. Treatment approaches to major burn injury include administration of crystalloid solutions to correct hypovolemia and to restore peripheral perfusion. While this aggressive postburn volume replacement increases oxygen delivery to previously ischemic tissue, this restoration of oxygen delivery is thought to initiate a series of deleterious events that exacerbate ischemia-related tissue injury. While persistent hypoperfusion after burn trauma would produce cell death, volume resuscitation may exacerbate the tissue injury that occurred during low flow state. It is clear that after burn trauma, tissue adenosine triphosphate (ATP) levels gradually fall, and increased adenosine monophosphate (AMP) is converted to hypoxanthine, providing substrate for xanthine oxidase. These complicated reactions produce hydrogen peroxide and superoxide, clearly recognized deleterious free radicals. In addition to xanthine oxidase related free radical generation in burn trauma, adherent-activated neutrophils produce additional free radicals. Enhanced free radical production is paralleled by impaired antioxidant mechanisms; as indicated by burn-related decreases in superoxide dismutase, catalase, glutathione, alpha tocopherol, and ascorbic acid levels. Burn related upregulation of inducible nitric oxide synthase (iNOS) may produce peripheral vasodilatation, upregulate the transcription factor nuclear factor kappa B (NF-kappaB), and promote transcription and translation of numerous inflammatory cytokines. NO may also interact with the superoxide radical to yield peroxynitrite, a highly reactive mediator of tissue injury. Free radical mediated cell injury has been supported by postburn increases in systemic and tissue levels of lipid peroxidation products such as conjugated dienes, thiobarbituric acid reaction products, or malondialdehyde (MDA) levels. Antioxidant therapy in burn therapy (ascorbic acid, glutathione, N-acetyl-L-cysteine, or vitamins A, E, and C alone or in combination) have been shown to reduce burn and burn/sepsis mediated mortality, to attenuate changes in cellular energetics, to protect microvascular circulation, reduce tissue lipid peroxidation, improve cardiac output, and to reduce the volume of required fluid resuscitation. Antioxidant vitamin therapy with fluid resuscitation has also been shown to prevent burn related cardiac NF-kappaB nuclear migration, to inhibit cardiomyocyte secretion of TNF-alpha, IL-1beta, and IL-6, and to improve cardiac contractile function. These data collectively support the hypothesis that cellular oxidative stress is a critical step in burn-mediated injury, and suggest that antioxidant strategies designed to either inhibit free radical formation or to scavage free radicals may provide organ protection in patients with burn injury.
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PMID:Free radicals and lipid peroxidation mediated injury in burn trauma: the role of antioxidant therapy. 1282 Dec 84

Severe acute pancreatitis causes a high incidence of mortality due to the systemic inflammatory response syndrome leading to multiple organ failure. At present, there is no treatment against severe acute pancreatitis, other than supportive critical care. The relationship between pancreatic injury and the uncontrolled systemic response is not completely understood. Nevertheless, experimental and clinical evidences have shown that pro-inflammatory cytokines and oxidative stress are critically involved in the development of local and systemic complications associated with severe acute pancreatitis. Serum levels of pro-inflammatory cytokines, such as TNF-alpha and IL-1beta, increase during the course of acute pancreatitis and they appear to be the driving force for the initiation and propagation of the systemic response. Accordingly, pretreatment with an antibody against TNF-alpha or blockade of TNF-alpha production with pentoxifylline ameliorates experimental acute pancreatitis. In addition, serum IL-6 and IL-8 levels appear to be correlated with severity of pancreatic inflammation. The role of oxidative stress in acute pancreatitis has been evidenced indirectly by beneficial effects of antioxidants as well as directly by pancreatic glutathione depletion and increased lipid peroxidation. Furthermore, circulating xanthine oxidase released by the damaged pancreas acts as a source of systemic oxidative stress contributing to lung inflammation. In conclusion, pancreatic injury seems to trigger at least two different pathways, i.e. pro-inflammatory cytokines and oxidative stress, both involved in the systemic effects of acute pancreatitis. Elucidation of these mechanisms and their interactions is critical to develop a treatment based on the pathophysiology of acute pancreatitis.
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PMID:Role of cytokines and oxidative stress in the pathophysiology of acute pancreatitis: therapeutical implications. 1456 Nov 85

Cardiopulmonary bypass (CPB) causes acute lung injury. Reactive oxygen species (ROS) from NADPH oxidase may contribute to this injury. To determine the role of NADPH oxidase, we pretreated pigs with structurally dissimilar NADPH oxidase inhibitors. Low-dose apocynin (4-hydroxy-3-methoxy-acetophenone; 200 mg/kg, n = 6), high-dose apocynin (400 mg/kg, n = 6), or diphenyleneiodonium (DPI; 8 mg/kg) was compared with diluent (n = 8). An additional group was treated with indomethacin (10 mg/kg, n = 3). CPB was performed for 2 h with deflated lungs, complete pulmonary artery occlusion, and bronchial artery ligation to maximize lung injury. Parameters of pulmonary function were evaluated for 25 min following CPB. Blood chemiluminescence indicated neutrophil ROS production. Electron paramagnetic resonance determined the effect of apocynin and DPI on in vitro pulmonary endothelial ROS production following hypoxia-reoxygenation. Both apocynin and DPI attenuated blood chemiluminescence and post-CPB hypoxemia. At 25 min post-CPB with Fi(O(2)) = 1, arterial Po(2) (Pa(o(2))) averaged 52 +/- 5, 162 +/- 54, 335 +/- 88, and 329 +/- 119 mmHg in control, low-dose apocynin, high-dose apocynin, and DPI-treated groups, respectively (P < 0.01). Indomethacin had no effect. Pa(O(2)) correlated with blood chemiluminescence measured after drug administration before CPB (R = -0.60, P < 0.005). Neither apocynin nor DPI prevented the increased tracheal pressure, plasma cytokine concentrations (tumor necrosis factor-alpha and IL-6), extravascular lung water, and pulmonary vascular protein permeability observed in control pigs. NADPH oxidase inhibition, but not xanthine oxidase inhibition, significantly blocked endothelial ROS generation following hypoxia-reoxygenation (P < 0.05). NADPH oxidase-derived ROS contribute to the severe hypoxemia but not to the increased cytokine generation and pulmonary vascular protein permeability, which occur following CPB.
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PMID:Effect of NADPH oxidase inhibition on cardiopulmonary bypass-induced lung injury. 1527 7

We have studied the oxidative status of 155 semen samples, 95 originating from healthy individuals and 60 from infertile patients, which were subdivided into two groups: (a) normozoospermic with genitourinary tract infection (GTI); and (b) with pathological spermiogram and GTI. Several phases of infection were observed: with bacterial presence only, bacteria and leukocytes, and leukocytes only, following the routine inflammatory pattern. Leukocyte numbers, bacterial strains, pro- and anti-oxidants, and selected pro-inflammatory cytokines (IL-1 beta, IL-6, IL-8 and TNF-alpha) were studied. Additionally, two oxido-sensitive indices were created (SOD/XO and CAT/XO) in order to follow particular phases of semen infection in two subgroups of patients. Different patterns of activities of pro- and anti-oxidant substances, as well as cytokines, were observed in the studied populations. It was reflected mainly by elevated XO activity in a group of patients with a pathological spermiogram while, in a group of patients with GTI and normozoospermia, xanthine oxidase was normal. In the latter group, oxido-sensitive indices were elevated in favour of anti-oxidants; similarly, this occurred with IL-6 levels in comparison to healthy controls. It appears therefore that normozoospermic semen recovers better after infection than pathological semen. Perhaps, IL-6 secretion might be helpful in the observed recovery?
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PMID:Male genital tract infection: an influence of leukocytes and bacteria on semen. 1528 87

Blood uric acid levels and purine metabolism are affected in many ways after bone marrow transplantation (BMT). Although BMT is usually performed when patients have a low residual disease burden, a proportion of them are still at risk of tumor lysis syndrome, even with limited disease or after nonmyeloablative conditioning regimens; moreover, an alteration in uric acid turnover can also be observed in patients with persistently normal uric acid blood levels. Apart from this obvious complication, multiple physiopathological events occurring after transplantation may derange uric acid homeostasis. Although there is only indirect evidence (derived from obstetric eclampsia and experimental gout arthritis), a transplant-related increase in cytokine production (particularly TNF, IL-1 and IL-6) may activate xanthine oxidase which, in turn, may be responsible for a further cytokine bout: deranged cytokine homeostasis is involved in the pathogenesis of some of the main acute post-BMT complications, such as hepatic veno-occlusive disease (VOD) and acute graft-versus-host disease (aGVHD). Hyperuricemia is also a well-known side effect of cyclosporine A, the reference drug for the prevention of post-BMT GVHD, which may affect uric acid turnover by reducing glomerular filtration and/or affecting tubular handling; the available evidence favors the former explanation. Hyperuricemia is found in long-term transplanted patients as part of a metabolic pattern reminiscent of the so-called 'X' or 'metabolic'syndrome related to insulin resistance: there is still no precise interpretation of this post-transplant complication nor any definite data concerning its real incidence and outcome. Hyperuricemia is frequently regarded as a marginal finding in the context of X syndrome, but it is pathogenetically linked to the other component of the syndrome and has proved to be autonomously responsible for tissue and vessel damage. Finally, BMT is a possible therapeutic strategy for some inherited forms of hyperuricemia, particularly Lesch- Nyhan disease, although there is still some perplexity concerning the possibility of preventing the development of neurological impairment.
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PMID:Hyperuricemia and bone marrow transplantation. 1560 10


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