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:1.17.3.2 (xanthine oxidase)
8,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Unregulated increases in intracellular calcium levels with subsequent cytoskeletal disruption have been implicated in tissue injury caused by oxygen free radicals (OFRs). The purpose of these experiments was to study the kinetics of free intracellular calcium in endothelial cells on exposure to exogenous OFRs and investigate the mechanisms of this altered homeostasis. Monolayers of endothelial cells were labeled with a calcium-sensitive probe and exposed to exogenous OFRs generated with hypoxanthine and xanthine oxidase. Intracellular calcium changes were monitored dynamically by continuous measurement of fluorescence with a spectrofluorometer. A sustained rise in intracellular Ca++ levels reaching a peak at 5 minutes was observed. This effect was blocked by superoxide dismutase and catalase. Removal of calcium from the medium or chelating the extracellular calcium with ethyleneglycoldiamine tetraacetate significantly blunted the response to OFRs (p less than 0.05). Preincubation of the cells with verapamil did not alter the observed increase in Ca++i. Addition of another divalent cation (Mn++) to the medium partially blocked the rise in calcium levels (p less than 0.05). Membrane potential measurements assessed fluorometrically, with the fluorescent probe bisoxonol, demonstrate a transient hyperpolarization of the plasma membrane on exposure to OFRs, temporally associated with the rise in [Ca++]i. In summary, OFRs cause an increase of intracellular calcium in endothelial cells. This response is dependent on extracellular calcium and independent of voltage-sensitive calcium channels. The increase can be partially inhibited by other divalent cations. These results suggest that the transformation of the plasma membrane components (lipid peroxidation and cross-linking of proteins) caused by OFRs may produce cation ionophores.
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PMID:Mechanisms of oxygen free radical-induced calcium overload in endothelial cells. 216 57

Bepridil, a calcium antagonist with anti-anginal, anti-ischemic, and anti-arrhythmic properties was assessed for its ability to scavenge free radicals. Bepridil reduced the stable free radical 1,1-diphenyl-2-picrylhydrazil (DPPH) in the molar ratio 2:1 and, in this respect, was as active as the reference anti-oxidants hydroquinone and alpha-tocopherol. Allopurinol and SOD inhibited cytochrome c reduction in a hypoxanthine-xanthine oxidase superoxide generating system, whereas bepridil was ineffective. Deoxyribose degradation induced by the .OH radical was prevented by bepridil (IC50 = 0.050 mM). This ability to scavenge .OH was similar to that of dimethyl sulfoxide (DMSO) (IC50 = 0.056 mM) and more potent than that observed with mannitol and allopurinol (IC50 values of 0.74 mM and 0.92 mM, respectively). The powerful .OH scavenging activity of bepridil was confirmed in vivo on alloxan induced diabetes in mice. Bepridil exerted a marked protective effect at 0.150 mmol/kg whilst, ethanol and DMSO were active at the doses of 90 and 94 mmol/kg, respectively. These results demonstrate that bepridil is a potent .OH radical scavenger. This property may contribute to the therapeutic activity of this drug in myocardial ischaemia.
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PMID:Studies on the activity of bepridil as a scavenger of free radicals. 217 34

We investigated the effects of superoxide anion on the intracellular free calcium concentration ([Ca2+]i) in human cultured myometrial cells using a calcium-sensitive fluorescent dye, indo-1, and a digital imaging fluorescence microscopic system. Hypoxanthine (HX) plus xanthine oxidase induced a rise in [Ca2+]i in a manner dose-dependent on xanthine oxidase. The increase in [Ca2+]i in the absence of extracellular calcium ([Ca2+]ex) was 10% of that in the presence of [Ca2+]ex. Nifedipine, which blocks voltage-sensitive calcium channels, also reduced the increase in [Ca2+]i induced by HX-xanthine oxidase. Superoxide dismutase or superoxide dismutase plus catalase, which metabolizes superoxide anion, inhibited the effect of HX-xanthine oxidase on [Ca2+]i. The desensitization of the effect of superoxide anion on [Ca2+]i was investigated by pulsatile administration of HX and xanthine oxidase. Desensitization was observed on pulsatile administration of HX-xanthine oxidase at 2-min intervals. These data suggest that superoxide production may participate in uterine contraction via [Ca2+]i increase.
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PMID:Superoxide anion increases intracellular free calcium in human myometrial cells. 217 20

In a retrospective study two patient groups suffering from recurrent calcium oxalate lithiasis are compared before and after antirheumatic therapy using Diclofenac-Natrium alone or in combination with xanthine oxidase inhibitors and/or hydrochlorothiazides. The examination of concentration and excretion of lithogenic important parameters show a partly significant reduction of the concentration mean values of calcium, oxalic acid and uric acid. The influence of non-steroidal antiphlogistics (NSAP) on calculus recurrence rate in calcium oxalate lithiasis is recognized.
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PMID:[Urinary calculus protective side effects of anti-rheumatic therapy]. 237 78

The interactions between lipid peroxidation and calcium in mediating damage to central nervous system membranes have been examined in several in vitro systems. Using isolated rat brain synaptosomes, brain mitochondria, or cultured fetal mouse spinal cord neurons, Ca2+ was found to markedly enhance lipid peroxidation-induced disruption of membrane function. Gamma-aminobutyric acid (GABA) uptake by synaptosomes was inhibited 25% by either lipid peroxidation (induced with xanthine and xanthine oxidase) or Ca2+ alone, whereas inhibition was 46% with their combination. Ca2+ enhancement of lipid peroxidation-induced damage to synaptosomes was intensified by the Ca2+ ionophore, A23187, and was partially blocked by the Ca2+ channel blocker, verapamil. Similarly, inhibition of state 3 respiration in isolated rat brain mitochondria was observed with Ca2+ and a free radical generating system (xanthine and xanthine oxidase) under conditions where either insult alone failed to cause detectable damage. Na+,K+-ATPase activity of cultured fetal mouse spinal cord neurons was inhibited 32% when cells were incubated for 30 minutes in the presence of both A23187 and a free radical generating system. However, Na+,K+-ATPase was not affected during a 30 minute incubation with either A23187 or radical generating system alone. In further studies, peroxidation of rat brain synaptosomes by ferrous iron (Fe2+) and H2O2 was coupled with a rapid and large (2-7-fold) uptake of Ca2+ by synaptosomes. Fe2+ also enhanced Ca2+ uptake by spinal cord neurons in culture, an effect that was coincident with peroxidation of neuronal membranes and the release of arachidonic acid from cells. Iron-induced Ca2+ uptake was blocked by high concentrations of either desferrioxamine or methylprednisolone, whereas Ca2+ channel blockers did not affect Ca2+ uptake induced by Fe2+. Finally, peroxidation of membrane lipids by Fe2+ was stimulated by Ca2+. Concentrations of Ca2+ as low as 10(-9) M increased peroxidation reactions within brain synaptosomal membranes. The results of these studies indicate that lipid peroxidation and Ca2+ can synergistically act to damage biologic membranes. The findings suggest that Ca2+ and lipid peroxidation cannot be considered as separate entities in the pathophysiology of CNS trauma. A hypothesis proposing an inseparable interplay between lipid peroxidation and Ca2+ in the pathogenesis of traumatic and ischemic cell injury is presented.
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PMID:Interaction of lipid peroxidation and calcium in the pathogenesis of neuronal injury. 242 24

It has been shown that plasma histamine significantly increases during myocardial infarction in the dog. Histamine is also released when the isolated guinea-pig heart is reperfused after 30 minutes of low flow perfusion. The release of histamine and lactate dehydrogenase (LDH) after left anterior descending coronary artery ligation and release were investigated in the present study and related to the changes in electrocardiographic parameters and to a computer-aided analysis of left ventricular mast cell metachromasia. Spontaneous release of histamine was unchanged during ischemia and increased after the release of the ligature, while we observed a steady increase of LDH overflow. In parallel, a significant diminution of mast cell granule metachromasia was observed in left ventricular samples. The perfusion of the heart with FeCl3/ADP (10 microM/100 microM), a free radical-generating system, significantly enhanced both the basal and ischemic-reperfusion release of histamine, while perfusion with N-t-butyl-phenyl-nitrone (BPN/100 microM) a "spin-trapper" molecule, significantly decreased histamine and LDH release and the loss in metachromasia of left ventricular mast cells induced by reperfusion. Inhibitors of xanthine oxidase (allopurinol, 10 microM) and of calcium-activated proteases (leupeptin, 10 microM) modified the kinetics of histamine and LDH release.
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PMID:Histamine release in acute coronary occlusion-reperfusion in isolated guinea-pig heart. 245 99

The relationship between changes in Ca2+-adenosine triphosphatase (ATPase) activity and plasma membrane damage was histochemically studied by enzymatic electron microscopy in rat brains with and without superoxide treatment. The brains were obtained from male Wistar rats after decapitation, and the control brains were examined immediately. Brains not treated with superoxide were incubated at 20 degrees C for 3, 6, or 12 hours. The superoxide-treated brains were immersed in a hypoxanthine-xanthine oxidase system for 20, 60, or 120 minutes. Ca2+-ATPase activity in the cerebral cortex and hippocampal CA1 was studied by the lead citrate method. Control brains showed Ca2+-ATPase activity in the membrane of the nerve cell body and dendrites, the basement membrane of endothelial cells, and the erythrocyte membrane. In untreated brains, enzymatic activity gradually decreased but was still detected after 12 hours. In those treated with superoxide, enzymatic activity gradually decreased but was still observed after 120 minutes in fragments of the plasma membrane. These findings show that the plasma membrane is more affected by treatment with superoxide than by decapitation itself, and that plasma membrane damage precedes the disappearance of Ca2+-ATPase activity. Residual Ca2+-ATPase activity does not necessarily imply reversibility of cerebral ischemia.
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PMID:Ultracytochemical study of Ca2+-ATPase activity in isolated, superoxide-treated rat brains. 247 35

Reaction conditions for determining the activity of purine nucleoside phosphorylase (PNP; E.C. 2.4.2.1) were investigated. We examined the kinetic parameters for the enzymatic reaction with respect to the substrates inosine and phosphate. We confirmed the pH optimum, established the optimal concentration of xanthine oxidase and that of calcium and magnesium. The Km values for inosine and phosphate were found to be 60 uM and 667 uM, respectively. Optimum assay conditions for PNP activity were established. This optimized method has been compared with other procedures and found to be more sensitive and to yield significantly higher activities. The experimental variation of a manual procedure using these optimum reaction conditions was less than 4.5%. The mean erythrocyte PNP activity of 28 healthy subjects was estimated to be 9.71 U/mL packed cells at 25 degrees C and 18.60 U/mL packed cells at 37 degrees C.
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PMID:Purine nucleoside phosphorylase in erythrocytes: determination of optimum reaction conditions. 249 71

The reported presence of covalently bound phosphate residues in flavoproteins has significant implications with regard to the catalytic mechanisms and structural stability of the specific enzymes themselves and in terms of general cellular metabolic regulation. These considerations have led to a reevaluation of the presence of covalently bound phosphorus in the flavoproteins xanthine oxidase (xanthine: oxygen oxidoreductase, EC 1.1.3.22) and glucose oxidase (beta-D-glucose: oxygen 1-oxidoreductase, EC 1.1.3.4). Milk xanthine oxidase purified by a procedure that includes anion-exchange chromatography is shown to contain three phosphate residues. All three are noncovalently associated with the protein, two with the FAD cofactor, and one with the molybdenum cofactor. Results of chemical analysis and 31P NMR spectroscopy indicate that enzyme purified by this method contains no phosphoserine residues. Xanthine oxidase preparations purified by chromatography on calcium phosphate gel in place of DEAE-Sephadex yielded higher phosphate-to-protein ratios, which could be reduced to the expected values by additional purification on a folate affinity column. Highly active, highly purified preparations of glucose oxidase are shown to contain only the two phosphate residues of the FAD cofactor. The covalently bound bridging phosphate reported by others may arise in aged or degraded preparations of the enzyme but appears not to be a constituent of functional glucose oxidase. These results suggest that the presence of covalent phosphate residues in other flavoproteins should be rigorously reevaluated as well.
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PMID:Covalently bound phosphate residues in bovine milk xanthine oxidase and in glucose oxidase from Aspergillus niger: a reevaluation. 250 51

We have studied changes in intracellular localization and phosphorylating activity of protein kinase C (PKC) in mouse epidermal JB6 cells treated with oxidants. Exposure to hydrogen peroxide, reagent grade or generated enzymatically by glucose/glucose oxidase, at concentrations known to result in elevated intracellular free Ca2+ resulted in an increase in binding of [3H]phorbol dibutyrate to intact cells. Ca2+ chelation, either intracellularly by quin 2 or extracellularly by ethylene glycol bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid, abolished the increase in radioligand binding. In contrast to H2O2, superoxide generated extracellularly by xanthine/xanthine oxidase or intracellularly by menadione was inactive. Scatchard plot analysis revealed that the enhancement in binding resulted from both increased receptor affinity and increased maximal binding capacity. Treatment of cells with superoxide, generated extracellularly by xanthine/xanthine oxidase or intracellularly by menadione, diminished the [3H]phorbol dibutyrate-binding capacity of the cytosol fractions prepared at low Ca2+ concentration. This decrease was not accompanied by a compensatory increase in the binding to membrane components. In contrast to superoxide, reagent H2O2, H2O2 produced by glucose/glucose oxidase, and the Ca2+ ionophore A23187 had no significant effect on the [3H]phorbol dibutyrate-binding capacities of either cellular fraction. Exposure of cells to low concentrations of extra- or intracellular superoxide resulted in an increase in the Ca2+- and phospholipid-dependent phosphorylating activity of cytosolic extracts towards adenosine diphosphoribose transferase which has been reported to be a specific substrate for PKC. The increase in phosphorylation could be diminished by the extracellular addition of copper-zinc-containing superoxide dismutase but not catalase suggesting that superoxide rather than H2O2 represents the active oxygen species in this reaction. The observation that reagent H2O2 or glucose/glucose oxidase failed to increase the phosphorylating activity of cytosolic preparations supports this conclusion. Treatment of cells or cytosolic extracts with the sulfhydryl reagent diamide stimulated the Ca2+/phospholipid-dependent phosphorylating activity toward adenosine diphosphoribose transferase. In a reconstituted system containing purified PKC, diamide induced a 25-30% increase in phospholipid-dependent phosphorylation of H1 whereas no change in activity was observed with the reducing agent dithiothreitol. It is concluded that H2O2 but not superoxide induces an increase in the phorbol ester binding, presumably to PKC, of intact JB6 cells. On the other hand
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PMID:Translocation and enhancement of phosphotransferase activity of protein kinase C following exposure in mouse epidermal cells to oxidants. 250 33


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