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)

In the present study we investigated the effect of metabolic activation on the susceptibility of isolated rat pancreatic islet cells to the alkylating beta-cell toxin streptozocin (SZ), reactive oxygen intermediates (ROI), and nitric oxide (NO). The latter two represent physiologically occurring mediators involved in the autoimmune destruction of islet cells. ROI were generated by the enzyme xanthine oxidase, and NO was released from sodium nitroprusside. During 18 h of culture at a physiological glucose concentration (5 mmol/L), 75% of the islet cells were lysed by SZ, 81% by ROI, and 74% by NO, as determined by the trypan blue exclusion assay. Increasing concentrations of glucose or the nonnutrient stimulators theophylline and glibenclamide dose-dependently reduced SZ- and ROI-mediated islet cell lysis. In the presence of 29 mmol/L glucose, 5.5 mmol/L theophylline, or 10 micrograms/mL glibenclamide, SZ-induced lysis was reduced to 15%, 22%, or 15%, and ROI-induced lysis was reduced to 20%, 34%, or 15%, respectively. In contrast, stimulation by glucose, theophylline, or glibenclamide did not improve resistance against NO. The protection against SZ and ROI was associated with preserved mitochondrial activity, as determined by the ability of the islet cells to convert the tetrazolium salt 3-(4,5-dimethylthiazolyl-2)-2,5-diphenyltetrazolium bromide into its formazan. Elevation of the glucose concentration from 5.5 to 29 mmol/L increased the residual mitochondrial activity from 45% to 80% in SZ-exposed islet cells and from 21% to 78% in ROI-exposed cells. Conversely, the lack of protection against NO correlated with no preservation of mitochondrial activity in the presence of high concentrations of glucose, theophylline, or glibenclamide. In conclusion, our results show that metabolic stress does not render islet cells more susceptible to inflammatory insults in vitro. Rather, an increased mitochondrial energy supply improves the resistance against SZ and ROI, whereas the toxicity of NO was independent of islet cell activity.
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PMID:Metabolic activation of islet cells improves resistance against oxygen radicals or streptozocin, but not nitric oxide. 892 45

The antioxidant effect of Fructus Momordicae extract, FME (mogrosides 75 approximately 80%), was studied. FME reduced the stable free radical 1,1-diphenyl-2-picrylhydrazyl (DPPH) and scavenged superoxide radicals (O2-) generated by a hypoxanthine and xanthine oxidase system. It also scavenged hydroxyl radicals (.OH) generated by Fenton reaction. In addition, FME inhibited Fe(II) induced lipid peroxidation in rat cortex homogenates in a dose-dependent manner, as indicated by decreased thiobarbituric acid-reactive substances (TBARS) formation. Oral administration of FME inhibited TBARS and malonaldehyde (MDA) formation in the ipsilateral cortex 30 min after iron-salt injection into the left cortex of rat. FME showed inhibitory effect on 4-hydroxy-2(E)-nonenal (4-HNE) formation induced by Fe(III) injection into the rat cortex. These data suggest that Fructus Momordicae extract has an antioxidant activity against free radicals and lipid peroxidation.
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PMID:Antioxidant property of Fructus Momordicae extract. 898 23

We describe an enzymatic histochemical localization of two allopurinol-oxidizing enzymes, xanthine oxidase and aldehyde oxidase in rat hepatic tissues. This method is based on the tetrazolium salt procedures by use of a tissue protectant, polyvinyl alcohol, with tetra-nitro BT as the final electron acceptor. The present study demonstrated that both oxidases are present in the cytoplasm of hepatic cells. However, the distribution of the enzymes was uneven, being seen mainly in the pericentral rather than the periportal area. When allopurinol was used as a substrate, the specific staining by xanthine oxidase was more prominent than that of aldehyde oxidase. The results suggested that xanthine oxidase is more effective in oxidizing allopurinol than aldehyde oxidase.
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PMID:Zonal distribution of allopurinol-oxidizing enzymes in rat liver. 959 29

The tetrapeptide-Cu(II) complex H-(l-His-Gly)2-OH/Cu(II), indicated as L-Cu(II), has been investigated, as compared to the Cu(II) inorganic salt CuSO4, for its antioxidative and anti-inflammatory properties under a panel of experimental conditions. Both inorganic and organic Cu(II) compounds showed comparable activities in vitro and ex vivo by: (i) protecting, in a dose-dependent manner, rat brain homogenates from Fe(III)/ascorbate- or haemoglobin-induced lipid peroxidation; (ii) inhibiting the superoxide-mediated ferricytochrome c reduction by activated macrophages. CuSO4 and L-Cu(II) also exhibited similar anti-inflammatory effects in vivo by reducing significantly the extent of carrageenan-induced edema in the rat paw. The activities of the two compounds diverged strikingly only in the xanthine/xanthine oxidase system at low phosphate buffer concentration. L-Cu(II) decreased the rate of NBT reduction by superoxide in a true SOD-like fashion without affecting urate production. Instead, Cu(II) ions caused the rapid xanthine oxidase inactivation thus inhibiting both urate and superoxide production; this effect might be ascribed to the superoxide-mediated generation of the strong oxidant Cu(III) and its interaction with the enzyme. The administration of Cu(II), whether complexed with linear oligopeptides or as an inorganic salt, to animals or tissue extracts, conferred protection against oxidation and ought, conceivably, to interact with endogenous biological molecules and form highly bioavailable complexes which serve, subsequently, as the real scavengers. Moreover, the claimed prominent scavenger activities of Cu(II)-oligopeptide complexes over inorganic copper ions could be realised only in very simple in vitro systems through mechanisms which, although of biochemical interest, are unlikely to be of physiopathological significance.
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PMID:An in vivo, ex vivo and in vitro comparative study of activity of copper oligopeptide complexes vs Cu(II) ions. 977 91

5-[4-(2-Carboxyethylcarbamoyl)phenylazo]salicylic acid disodium salt dihydrate (CAS 80573-04-2, BX661A) is developed as a therapeutic agent for ulcerative colitis. To clarify its mechanism of action, the effects of BX661A and its metabolites 5-aminosalicylic acid (5-ASA) and 4-aminobenzoyl-beta-alanine (4-ABA) on reactive oxygen species: superoxide radicals (O2-) generated by hypoxanthine and xanthine oxidase, hydrogen peroxide (H2O2), hypochlorite radicals (OCl-) and hydroxyl radicals (OH.), were investigated and compared with the effects of 2-hydroxy-5-[[4-[(2-pyridinylamino)sulfonyl]phenyl]azo]-benzoic acid (CAS 599-79-1, salazosulfapyridine, SASP) and its metabolite 4-amino-N-2-pyridinyl-benzenesulfonamide (CAS 144-83-2, sulfapyridine, SP). 1. BX661A, SASP and 5-ASA inhibited O2- radical production in a concentration-dependent manner (IC50 = 0.14, 0.13 and 0.19 mmol/l, respectively). The effects of 4-ABA and SP on O2- radical production were weak (IC50 = > 10 and > 3 mmol/l, respectively). In contrast, superoxide dismutase inhibited O2- radical production in a concentration-dependent manner (IC50 = 1.7 U/ml). 2. BX661A, SASP, 4-ABA and SP had no H2O2 scavenging effects. 5-ASA scavenged H2O2, but its maximal scavenging action was 51.3%. In contrast, catalase scavenged H2O2 in a concentration-dependent manner (IC50 = 0.47 U/ml). 3. BX661A, SASP and 5-ASA scavenged OCl- radicals in a concentration-dependent manner (IC50 = 69.5, 73.8 and 21.7 mumol/l, respectively). 4-ABA and SP had no OCl- radical scavenging effects. In contrast, nordihydroguaiaretic acid (NDGA) scavenged OCl- radicals in a concentration-dependent manner (IC50 = 8.7 mumol/l). 4. BX661A and SASP scavenged OH. radicals in a concentration-dependent manner; the maximal scavenging values were 39.5 (10 mmol/l) and 48.6% (3 mmol/l), respectively. 4-ABA and SP had no OH. radical scavenging effects. In contrast, 5-ASA scavenged OH. radical in a concentration-dependent manner (IC50 = 1.46 mmol/l). These results suggest that BX661A has O2- and OCl- radical scavenging effects and that 5-ASA has O2-, OCl- and OH. radical scavenging effects. Therefore, these effects may be partially involved in the therapeutic effects of BX661A on ulcerative colitis.
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PMID:Effects of BX661A, a new therapeutic agent for ulcerative colitis, on reactive oxygen species in comparison with salazosulfapyridine and its metabolite sulfapyridine. 982 18

Oxidative stress is believed to be involved in cataract development. The protective effect of the xanthomatine derivative, pirenoxine, and the 21-aminosteroid U74389F on oxidative insult in mammalian lenses was evaluated in vitro, ex vivo and in vivo. In vitro pirenoxine and U74389F inhibited lipid peroxidation induced by iron or haemoglobin in guinea-pig homogenate lens or whole lenses. Both compounds produced the same effect when lens oxidation was induced by superoxide producing system such as xanthine/xanthine oxidase or fMLP stimulated macrophages. In all the in vitro experiments, the values of biochemical lipid peroxidation markers, such as lipid hydroperoxides or thiobarbituric reactant substances, fell to the basal values with the addition of either pirenoxine (10(-5) M) or U74389F (10(-5) M). When two drops (60 microl) of the above molecular solutions (0.005 and 0.012% in saline respectively) were instilled in rabbit eyes (every hour for 8 hours over 2 days), the extracted lenses appeared to have better defences against an in vitro iron-induced lipid peroxidation, as shown by the values of conjugated dienes and lipid soluble fluorescent substances. These values also proved to be significantly lower when the same parameters were assayed in lenses from eyes where a lipid peroxidation was induced in vivo by haemoglobin or Diquat intravitreal injection followed by instillations of pirenoxine sodium salt or U74389F solutions (2 drops of about 60 microl every hour for 8 hours over 4 days) administered topically. Polarographic and chronocoulometric measurements were also performed in order to investigate the action mechanisms of both compounds. Experimental data indicate that the pirenoxine sodium salt and U74389F may be considered effective tools for rejecting an oxidative attack on the lenses, which can finally lead to cataract formation.
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PMID:Protective effect of pirenoxine and U74389F on induced lipid peroxidation in mammalian lenses. An in vitro, ex vivo and in vivo study. 1007 43

Delphinidine-3-(p-coumaroylrutinoside)-5-glucoside (nasunin), an anthocyanin was isolated as purple colored crystals from eggplant peels, Solanum melongena L. 'Chouja'. Using an electron spin resonance spectrometer and 5,5-dimethyl-1-pyrroline-N-oxide (DMPO), spin trapping, hydroxyl (.OH) or superoxide anion radicals (02*-) generated by the Fenton reaction or the hypoxanthine-xanthine oxidase system were measured as DMPO-OH or DMPO-OOH spin adducts. L-Ascorbic acid 2-[3,4-dihydro-2,5,7,8-tetra-methyl-2-(4,8,12-trimethyltridecyl)-2 H-1-benzopyran-6yl-hydrogen phosphate] potassium salt (EPC-K1) and bovine erythrocyte superoxide dismutase (SOD) were used as standards for .OH and O2*-, respectively. Nasunin directly scavenged O2*- with a potency of 143+/-8 SOD-equivalent units/mg), and inhibited formation of DMPO-OH (0.65+/-0.07 EPC-K1 micromol/mg). A spectrophotometric study showed that nasunin formed an iron complex with a molar ratio of nasunin : Fe3+ of 2 : 1. Therefore, hydroxyl radical scavenging by nasunin is not due to direct radical scavenging but inhibition of .OH generation by chelating iron. Nasunin (1 microM) significantly protected against lipid peroxidation of brain homogenates (p<0.001) as measured by malonaldehyde and 4-hydroxyalkenals. These findings demonstrate that nasunin is a potent O2*- scavenger and iron chelator which can protect against lipid peroxidation.
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PMID:Antioxidant activity of nasunin, an anthocyanin in eggplant. 1010 May 9

A change in endothelial function is a common phenomenon in patients with essential hypertension and in animals with hypertension, whether primary or induced by a salt-rich diet. In hypertensive subjects, there may be a change in the synthesis, or the effect, of nitric oxide. Nevertheless, hypertensive vasoconstriction is at present associated, above all, with the degradation of this mediator by free radicals, such as the superoxide anion, released in the dysfunctional vascular endothelium. These radicals are also formed when hypoxanthine is turned into xanthine, and when the latter becomes uric acid, both having been catalysed by the enzyme xanthine oxidase. In physiological conditions, the concentration of superoxide radicals remains low within the organism as a result of its reaction with the superoxide dismutase enzyme. However, in pathological situations, such as arterial hypertension, there may be an increase in the production of these radicals or a deficiency of the superoxide dismutase enzyme. In hypertensive patients, the release of vasoconstrictor peroxides derived from the activity of cyclo-oxygenase in the endothelium and the vascular smooth muscle is also important. The excess free radicals released by the dysfunctional endothelium also stimulate the synthesis of these contracting agents. Moreover, it should not be forgotten that endothelin-1, which is similarly synthesized and released in the vascular endothelium, is the most powerful known endogenous vasoconstrictor. This peptide would therefore play a prominent part in some forms of hypertension. Although no changes in endothelin plasma levels have been found in essential hypertension, there may be an increase in its local concentration. It should be borne in mind that endothelin could strengthen the effect of other vasoconstrictors. Moreover, it may also provoke the release of free radicals and of cyclo-oxygenase-derived vasoconstrictor factors. The latest theories therefore indicate that the increase in vasoconstriction, which characterizes arterial hypertension, is associated with a greater production of free radicals. At the present time, antioxidant agents and xanthine oxydase-inhibiting compounds are being used to treat hypertension and other pathologies linked to endothelial dysfunction. In addition, it is thought that the therapeutic benefit of some anti-hypertensive drugs, such as calcium antagonists and angiotensin-converting enzyme inhibitors, could be in part due to the inhibition of the production of free radicals that they provoke.
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PMID:Endothelial dysfunction and hypertensive vasoconstriction. 1043 69

The kidney function plays a crucial role in the salt-induced hypertension of genetically salt-sensitive, hypertension-prone rats. We have previously reported that renal xanthine oxidoreductase (XOR) activity is increased in hypertension-prone rats, and even more markedly in salt-induced experimental hypertension. XOR is an enzyme involved in purine metabolism, converting ATP metabolites hypoxanthine and xanthine to uric acid. Because the possible involvement of XOR in nitric oxide metabolism has gained recent interest, we determined renal XOR activity after treating spontaneously hypertensive rats (SHRs), kept on different salt intake levels (0.2, 1.1 and 6.0% of NaCl in the chow), for three weeks with a nitric oxide synthase (NOS) inhibitor, N-omega-nitro-L-arginine methyl ester (L-NAME, 20mg/kg/d). L-NAME treatment induced renal XOR activity by 14 to 37 % (P<0.001), depending on the intake level of salt. Increased salt intake was no more able to aggravate L-NAME induced hypertension, but it did further increase the renal XOR activity (p<0.05). Treatment of SHRs with a nitric oxide donor, isosorbide-5-mononitrate (60-70 mg/kg/d for 8 weeks), markedly attenuated the salt-enhanced hypertension without a clear effect on renal XOR activity. Thus, the results indicate that the NO concentration needed to inhibit XOR is supra-physiological, and suggest that renal NO production is not impaired in the SHR model of hypertension.
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PMID:Inhibition of nitric oxide synthase induces renal xanthine oxidoreductase activity in spontaneously hypertensive rats. 1062 77

A simple and reproducible microtiter plate assay for measuring superoxide dismutase (SOD) activity is described. Water-soluble tetrazolium, the sodium salt of 4-[3-(4iodophenyl)-2-(4-nitrophenyl)-2H-5-tetrazolio]-1,3-be nzene disulfonate, was used as a detector of superoxide radical generated by xanthine oxidase and hypoxanthine, in the presence of a range of concentrations of superoxide dismutase. A major advantage of the assay is that one reaction mixture is prepared and aliquotted into wells, avoiding pipetting errors and variable xanthine oxidase activity between samples. Inclusion of standardized SOD solution in each run enables inter-assay comparability without requiring a constant superoxide generation rate under all occasions. The assay is applicable for chloroform-ethanol red cell extracts as well as tissue homogenates without high-speed centrifugation. Fifty percent inhibition of formazan formation was achieved at 2.4+/-0.1 ng of Cu, ZnSOD per well with the coefficient of variation 4.2%.
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PMID:A microtiter plate assay for superoxide dismutase using a water-soluble tetrazolium salt (WST-1). 1069 30


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