Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P47989 (xanthine oxidase)
 8,633 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Adenosine is thought to prevent or reduce the increase in permeability, which is a hallmark of oxidant injury to endothelium. However, the effect of adenosine on endothelial cells directly exposed to oxidant species has not been demonstrated in vitro. By measuring the passage of Evan's blue dye-labeled albumin across confluent monolayers, we demonstrated the ability of adenosine (0.1-100 microM) to lower basal permeability of human umbilical vein endothelial cells in a concentration-dependent fashion and prevent the permeability increase induced by exposure of the cells to xanthine plus xanthine oxidase (X/XO). Whereas pretreatment of monolayers for 10 min with adenosine (10 and 100 microM) prevented the X/XO-induced permeability increase, these same concentrations of adenosine failed to increase intracellular adenosine 3',5'-cyclic monophosphate in X/XO-exposed cells. The protective effect of adenosine on endothelial monolayers was mimicked by adenosine amine congener and 5'-(N-ethylcarboxamido)adenosine but not by other agonists examined. Hence, the protective effect of adenosine against oxidant injury may include an adenosine 3',5'-cyclic monophosphate-independent mechanism by direct action of adenosine at A1 receptors on endothelial cells.
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PMID:Adenosine prevents permeability increase in oxidant-injured endothelial monolayers. 945 49

Glutamate-mediated excitotoxicity is associated with adenosine triphosphate (ATP) degradation and generation of oxygen radicals. Hypoxanthine and lactate depict energetic impairment, while xanthine and uric acid reflect activity of radical producing xanthine oxidase. Cerebrospinal fluid (CSF) glutamate, hypoxanthine, lactate, xanthine, and uric acid were investigated in neurological patients. In multiple sclerosis, myelopathy, stroke, epilepsy and viral meningitis glutamate, hypoxanthine, xanthine, and uric acid are increased 2-3-fold compared to controls. Lactate is only elevated in meningitis. Normal lactate dehydrogenase (LDH) levels and absent correlation between the albumin ratio and neurochemical parameters exclude an artificial increase due to cell lysis and barrier damage. Absent correlation between neurochemical parameters within each patient group is most likely related to preserved glial and neuronal uptake mechanisms. CSF hypoxanthine, xanthine, and uric acid levels appear superior to lactate in reflecting glutamate-mediated excitotoxicity in neurological patients.
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PMID:Cerebrospinal fluid hypoxanthine, xanthine and uric acid levels may reflect glutamate-mediated excitotoxicity in different neurological diseases. 946 46

Recently published evidence indicates that polynitroxylated albumin (PNA) protects tissues against ischemia/reperfusion (I/R) injury, possibly by enhancing tissue redox activity. The objective of this study was to determine if PNA treatment alters the leukocyte-endothelial cell adhesion that is normally elicited by I/R. PNA, human serum albumin (HSA) or saline were administered (i.v.) 5 min before reperfusion. Venular diameter, red blood cell velocity, wall shear rate, systemic hematocrit, systemic arterial pressure, as well as the number of adherent and emigrated leukocytes were monitored in rat mesenteric venules before and after 20 min of ischemia and 30 min of reperfusion. In saline-treated rats, I/R elicited a 5.3-fold increase in leukocyte adhesion and a 1.8-fold increase in leukocyte emigration. HSA-treated animals exhibited 4.0 and 2.3-fold increases in leukocyte adherence and emigration, respectively. In PNA-treated rats, the number of adherent leukocytes increased only 2.1-fold increase in adherent leukocytes, while leukocyte emigration was completely inhibited. The PNA-induced attenuation of leukocyte adherence/emigration could not be attributed to alterations in systemic or local hemodynamics (red blood cell velocity or wall shear rate). PNA was also shown to be a potent inhibitor of xanthine-xanthine oxidase mediated adhesion of human neutrophils to cultured human endothelial cells. These findings indicate that PNA may protect tissues against I/R injury by attenuating leukocyte-endothelial cell adhesion.
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PMID:Pretreatment with polynitroxyl albumin (PNA) inhibits ischemia-reperfusion induced leukocyte-endothelial cell adhesion. 966 90

Concentrations of up to 1.5 milliunits/ml xanthine oxidase (XO) (1.1 micrograms/ml) are found circulating in plasma during diverse inflammatory events. The saturable, high affinity binding of extracellular XO to vascular endothelium and the effects of cell binding on both XO catalytic activity and differentiated vascular cell function are reported herein. Xanthine oxidase purified from bovine cream bound specifically and with high affinity (Kd = 6 nM) at 4 degreesC to bovine aortic endothelial cells, increasing cell XO specific activity up to 10-fold. Xanthine oxidase-cell binding was not inhibited by serum or albumin and was partially inhibited by the addition of heparin. Pretreatment of endothelial cells with chondroitinase, but not heparinase or heparitinase, diminished endothelial binding by approximately 50%, suggesting association with chondroitin sulfate proteoglycans. Analysis of rates of superoxide production by soluble and cell-bound XO revealed that endothelial binding did not alter the percentage of univalent reduction of oxygen to superoxide. Comparison of the extent of CuZn-SOD inhibition of native and succinoylated cytochrome c reduction by cell-bound XO indicated that XO-dependent superoxide production was occurring in a cell compartment inaccessible to CuZn-SOD. This was further supported by the observation of a shift of exogenously added XO from extracellular binding sites to intracellular compartments, as indicated by both protease-reversible cell binding and immunocytochemical localization studies. Endothelium-bound XO also inhibited nitric oxide-dependent cGMP production by smooth muscle cell co-cultures in an SOD-resistant manner. This data supports the concept that circulating XO can bind to vascular cells, impairing cell function via oxidative mechanisms, and explains how vascular XO activity diminishes vasodilatory responses to acetylcholine in hypercholesterolemic rabbits and atherosclerotic humans. The ubiquity of cell-XO binding and endocytosis as a fundamental mechanism of oxidative tissue injury is also affirmed by the significant extent of XO binding to human vascular endothelial cells, rat lung type 2 alveolar epthelial cells, and fibroblasts.
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PMID:Binding of xanthine oxidase to vascular endothelium. Kinetic characterization and oxidative impairment of nitric oxide-dependent signaling. 998 43

Endogenous release of catecholamines is an important mechanism that can prevent alveolar flooding after brief but severe hemorrhagic shock. The objective of this study was to determine whether this catecholamine-dependent mechanism upregulates alveolar liquid clearance after prolonged hemorrhagic shock. Rats were hemorrhaged to a mean arterial pressure of 30-35 mmHg for 60 min and then resuscitated with a 4% albumin solution. Alveolar liquid clearance was measured 5 h later as the concentration of protein in the distal air spaces over 1 h after instillation of a 5% albumin solution into one lung. There was no upregulation of alveolar liquid clearance after prolonged hemorrhagic shock and fluid resuscitation despite a significant increase in plasma epinephrine levels. The intravenous or intra-alveolar administration of exogenous catecholamines did not upregulate alveolar liquid clearance. In contrast, catecholamine-mediated upregulation of alveolar liquid clearance was restored either by depletion of neutrophils with vinblastine, by the normalization of the concentration of reduced glutathione in the alveolar epithelial lining fluid by N-acetylcysteine, or by the inhibition of the conversion from xanthine dehydrogenase to xanthine oxidase. These experiments provide the first in vivo evidence that a neutrophil-dependent oxidant injury to the alveolar epithelium prevents the upregulation of alveolar fluid clearance by catecholamines in the absence of a major alteration in paracellular permeability to protein after prolonged hemorrhagic shock.
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PMID:Inhibition of beta-adrenergic-dependent alveolar epithelial clearance by oxidant mechanisms after hemorrhagic shock. 1033 41

We have previously shown that lysophosphatidic acid (LPA), an abundant serum lipid that binds with high affinity to albumin, is a potent survival factor for mouse proximal tubular cells and peritoneal macrophages. We show here that BSA also has potent survival activity independent of bound lipids. Delipidated BSA (dBSA) protected cells from apoptosis induced by FCS withdrawal at concentrations as low as 1% of that in FCS. dBSA did not activate phosphatidylinositol 3-kinase, implying that its survival activity occurs via a mechanism distinct from that for most cytokines. On the basis of the following evidence, we propose that dBSA inhibits apoptosis by scavenging reactive oxygen species (ROS): 1) FCS withdrawal leads to ROS accumulation that is inhibitable by dBSA; 2) during protection from apoptosis, sulfhydryl and hydroxyl groups of dBSA are oxidized; and 3) chemical blockage of free sulfhydryl groups or preoxidation of dBSA with H(2)O(2) removes its survival activity. Moreover, dBSA confers almost complete protection from cell death in a well-established model of oxidative injury (xanthine/xanthine oxidase). These results implicate albumin as a major serum survival factor. Inhibition of apoptosis by albumin occurs through at least two distinct mechanisms: carriage of LPA and scavenging of ROS.
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PMID:Albumin is a major serum survival factor for renal tubular cells and macrophages through scavenging of ROS. 1056 34

In the vasculature, nitrosothiols derived from the nitric oxide (NO)-mediated S-nitrosation of thiols play an important role in the transport, storage, and metabolism of NO. The present study was designed to examine the reactions that promote the decomposition, formation, and distribution of extracellular nitrosothiols in the circulation. The disappearance of these species in plasma and whole blood was examined using a high-performance liquid chromatography method to separate low- and high-molecular weight nitrosothiols. We found that incubation of S-nitrosocysteine (CySNO) or S-nitrosoglutathione (GSNO) with human plasma resulted in a rapid decomposition of these nitrosothiols such that <10% of the initial concentration was recovered after 10-15 min. Neither metal chelators (DTPA, neocuproine), nor zinc chloride (glutathione peroxidase inhibitor), acivicin (gamma-glutamyl transpeptidase inhibitor), or allopurinol (xanthine oxidase inhibitor) inhibited the decomposition of GSNO. With both CySNO and GSNO virtually all NO was recovered as S-nitrosoalbumin (AlbSNO), suggesting the involvement of a direct transnitrosation reaction. Electrophilic attack of the albumin-associated thiols by reactive nitrogen oxides formed from the interaction of NO with O(2) was ruled out because one would have expected 50% yield of AlbSNO. Similar results were obtained in whole blood. The amount of S-nitrosohemoglobin recovered in the presence of 10 microM GSNO or CySNO was less than 100 nM taking into consideration the detection limit of the assay used. Our results suggest that serum albumin may act as a sink for low-molecular-weight nitrosothiols and as a modulator of NO(+) transfer between the vascular wall and intraerythrocytic hemoglobin.
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PMID:Dynamic state of S-nitrosothiols in human plasma and whole blood. 1069 53

Septicaemia is a major threat to survival during the early stages of life. There are several reports that suggest that reactive oxygen species (ROs) play a role in a wide variety of diseases. We estimated the activity of xanthine oxidase (XO), malondialdehyde (MDA) content, creatine phosphokinase (CPK) activity, activities of key enzymatic antioxidants, such as superoxide dismutase (SOD), glutathione peroxidase (GPx) and peroxidase (PO), and non-enzymatic antioxidants, viz. uric acid (UA) and albumin (ALB), in 30 neonates with sepsis and 20 age-matched controls. The babies were categorized as preterm/term, early onset/late onset, and shock/without shock, as per clinical and laboratory investigations. The study was carried out to evaluate the status of antioxidant enzymes and non-enzymatic antioxidants with a view to suggesting the introduction of antioxidant therapy in neonatal sepsis. The activities of serum XO, CPK, SOD and GPx, and the content of MDA were found to be significantly elevated in the neonates with sepsis when compared with controls. Conversely, the activity of PO and the levels of UA and ALB were decreased. The septic, full-term neonates registered significantly higher CPK activity (70%) than the preterm septic neonates. However, infants with late-onset and shock sepsis had a significant decrease in CPK activity (p < 0.05) compared with their corresponding sub-groups. Likewise, UA levels were found to be 28% depressed (p < 0.05) in the babies with late-onset sepsis and 51% increased (p < 0.001) in babies with shock compared with their respective sub-groups. Neonates with septic shock also registered a significant elevation in GPx activity (28%) compared with those without shock. This study suggests increased production of ROs in neonates with sepsis, as evidenced by the positive regulation of XO, SOD and GPx activity. The elevation of antioxidant enzymes, however, was not so effective as to protect from cellular damage and thereby result in higher MDA production. It is evident that antioxidant therapy might be useful in the management of neonates with sepsis but further detailed clinico-biochemical investigations are required to define effective antioxidant therapy.
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PMID:Alterations in antioxidant status during neonatal sepsis. 1082 10

This study was designed to test the idea that the redox state of sulfhydryl (SH)-groups in cell-membrane Ca2+ channels plays a pivotal role in Ca2+ influx, which in turn causes an increase in albumin permeability across the cultured monolayer of porcine pulmonary artery endothelial (PPAE) cells exposed to xanthine/xanthine oxidase (X/XO). Albumin permeability as well as the concentration of intracellular Ca2+ ([Ca2+]i) was increased by X/XO. A H2O2 scavenger (catalase), an iron chelator (o-phenanthroline), and a hydroxyl radical scavenger (dimethyl sulfoxide) inhibited these changes provoked by X/XO, in which intracellular iron-catalyzed hydroxyl radical generation was suggested to be involved. The increase in albumin permeability and [Ca2+]i continued once the PPAE cells were exposed to X/XO. The [Ca2+]i was decreased by a Ca2+ channel blocker, Ni2+, while the removal of Ni2+ increased [Ca2+]i again, suggesting the sustained Ca2+ influx through cell-membrane Ca2+ channels was responsible for the [Ca2+]i elevation. Ni2+ failed to inhibit albumin permeability sustained after the removal of X/XO. In contrast, SH-reducing agents (dithiothreitol and glutathione) inhibited the sustained permeability as well as Ca2+ influx. We concluded that the redox alteration of SH-groups in cell-membrane Ca2+ channels was involved in the increase in albumin permeability after exposure of the endothelial cells to oxidative stress.
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PMID:Albumin permeability across endothelial cell monolayer exposed to reactive oxygen intermediates: involvement of reversible functional alteration of the cell membrane Ca2+ channels. 1082 58

Fibrinogen has been included among the risk factors for vascular disease. Fibrinogen belongs with albumin, ceruloplasmin and transferrin to an acute phase protein group in the plasma. Albumin, ceruloplasmin and transferrin are already recognized as natural antioxidants. In the present study we used three different oxygen generating systems in order to test whether fibrinogen is able to act as an antioxidant in an in vitro system. We used 1) pyrogallol auto-oxidation, 2) the reaction catalysed by xanthine oxidase coupled with the reduction of ferricytochrome c and 3) chemiluminescence. We found that in a dose-dependent manner fibrinogen inhibited superoxide generation (pyrogallol and xanthine-xanthine oxidase reactions), ferrous ion oxidation and hydroxyl radical dependent degradation (of deoxyribose). Fibrinogen also inhibited LDL oxidation (copper and azo compound-induced), hydrogen peroxide oxidation and chemiluminescence produced by polymorphonuclear leukocytes. Fibrinogen, albumin, ceruloplasmin and transferrin act as a supplementary antioxidant defense mechanism against oxidative stress arising from inflammatory conditions.
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PMID:Fibrinogen is an efficient antioxidant. 1125 65


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