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)

Understanding of the mechanisms of cell injury and cell death is fundamental to the understanding of both protection against and initiation of cell injury and cell death. We subjected primary cultures of proximal tubular epithelium (PTE) from adult rats to an exogenous oxidative stress, generated by xanthine/xanthine oxidase (X/XOD), and studied its effect on the concentration of cytosolic ionized calcium ([Ca2+]i) by means of digital imaging fluorescence microscopy (DIFM) using a cytosolic calcium probe, fura-2. Exposure to 25 mU/ml X/XOD caused notable increases in [Ca2+]i detectable within 15 sec and increasing to micromolar levels with time. Experiments with Ca(2+)-free medium containing ethylene glycol-bis(beta-aminoethyl ether)N,N,N',N'-tetraacetic acid (EGTA) showed that the increase of [Ca2+]i was due to influx from the extracellular space. Smaller and slower increases in [Ca2+]i were seen after exposure to lower concentrations of X/XOD (5 and 10 mU/ml). PTE injury and killing were assessed by measuring the release of cytosolic lactate dehydrogenase (LDH), exclusion of trypan blue, and observation of morphologic changes. Exposures to the 25 mU/ml concentration of X/XOD caused significant LDH release after 2 hr and correlated with trypan blue staining of exposed cells. Again, lesser concentrations of X/XOD resulted in a slower release of smaller amounts of LDH, and thus delayed trypan blue staining. Cytoplasmic bleb formation was seen by phase microscopy within minutes of exposure to 25 mU/ml, followed by cell rounding, retraction, and disintegration. Transmission electron microscopy revealed a progression of changes characteristic of lethal cell injury, beginning with dilatation of the endoplasmic reticulum, detachment of ribosomes, condensation of mitochondria, and chromatin clumping and terminating with mitochondrial swelling and formation of intramitochondrial flocculent densities. These studies clearly show that notable increases of [Ca2+]i precede both sub-lethal and lethal changes in rat PTE. These results indicate that interventions designed to minimize or to accelerate calcium entry could be of importance in cell preservation or cell killing, respectively, and therefore to therapeutic strategies for myocardial infarction, stroke, or shock in the former instance and for cancers in the latter.
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PMID:Oxidative injury induces influx-dependent changes in intracellular calcium homeostasis. 177 66

It has been shown that allopurinol, an inhibitor of xanthine oxidase, may limit the extent of myocardial infarction in dogs. In the present work, we studied the effect of a chronic administration of allopurinol on myocardial infarct size measured histochemically 48 h after in situ left coronary artery ligation in the rat. Our results indicate that allopurinol pretreatment does not produce any limitation of the extent of necrosis, but induces a significant increase in the volume of the non-ischemic portion of the myocardium, accompanied by an increase in protein content. This phenomenon, which could be due to the development of an edema in the non-ischemic portion of the myocardium, may well explain some discrepancies reported in previous experimental studies in which the infarct size was conventionally expressed as a percentage of the total volume of ventricular tissue. We have also shown that allopurinol pretreatment failed to improve the residual cardiac function in rats after left coronary artery ligation. We conclude that the enzyme xanthine oxidase is probably not involved in the pathophysiology of myocardial infarction in the rat because of the absence of collateral vasculature in this species which prevents any oxygen supply to the ischemic zone. In most other mammals such as the dog, the existence of a collateral system maintains a residual blood flow and oxygen supply to the ischemic portion of ligated hearts, allowing the xanthine oxidase-induced production of superoxide anions to be activated, thereby initiating peroxidative lesions in membrane lipids.
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PMID:Chronic administration of allopurinol fails to exert any cardioprotective effect in rats submitted to permanent coronary artery ligation. 177 86

This study was undertaken to evaluate the usefulness of a canine ischemic heart model achieved by coronary retrograde flow (RF) diversion, and to examine the effect of allopurinol on the myocardial infarction. The left anterior descending coronary artery (LAD) was occluded for 90 min followed by 4h reperfusion. Group 1 (n = 9) was a simple LAD occlusion group. In group 2 (n = 8), retrograde flowing blood from the distal of the occluded LAD was simultaneously diverted during LAD occlusion. In group 3 (n = 8), allopurinol was administered 60 min before ischemia with RF diversion followed by its continuous infusion. Infarcted myocardium was determined by triphenyl tetrazolium chloride staining and myocardium at risk by the dye double perfusion technique. RF diversion significantly reduced not only regional myocardial blood flow (RBF) (0.21 +/- 0.05 ml/min/g in group 1 vs 0.05 +/- 0.01 ml/min/g in group 2; p less than 0.05) but also its variance (p less than 0.01). Furthermore, the infarct size (infarct/risk ratio) in the allopurinol treated group was significantly reduced without any significant difference in rate pressure product, risk size or RBF (89.4 +/- 4.0% in group 2 vs 48.9 +/- 4.5% in group 3; p less than 0.01). We conclude that the canine RF diversion model is useful for myocardial infarct study because of the minimizing of the difference of collateral flow, and that canine myocardial xanthine oxidase may produce free radicals which take part in myocardial injury after reperfusion.
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PMID:A useful canine model of ischemic myocardium with coronary retrograde flow diversion, and its application for the study of allopurinol on myocardial infarct size. 206

Circulating antibodies to whole dried cows' milk, previously reported to be elevated in patients with myocardial infarction, have been shown to be directed mainly to the bovine milk fat globule membrane. Human antibodies against the bovine milk fat globule membrane themselves interact primarily with the enzyme, xanthine oxidase. Comparison of anti-(xanthine oxidase) antibody levels in 107 patients, who had suffered a myocardial infarction, with those in 86 control subjects showed significantly higher IgM levels in the patients with myocardial infarction. No corresponding differences were found for IgG or IgA anti-(xanthine oxidase) antibodies. Total levels of IgM class immunoglobulins did not differ between patients and controls. Serial assays following myocardial infarction showed no evidence that raised levels of IgM anti-(xanthine oxidase) antibodies result from the infarction itself.
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PMID:Antibodies to xanthine oxidase: elevated levels in patients with acute myocardial infarction. 210 7

Transitional metals, particularly iron, markedly potentiate oxidant damage to isolated cell organelles. However, determining the probable importance of iron in damage to intact cells is difficult because of our inability experimentally to increase the cell content of this transition metal. We now report that heme is a uniquely effective iron delivery vehicle, capable of loading large amounts of potentially reactive iron into intact cells. We find that endothelial cells in vitro rapidly incorporate free heme and this heme-loading sensitizes endothelium to oxidant-mediated cytotoxicity caused by hydrogen peroxide, the hypoxanthine/xanthine oxidase system, or phorbol-stimulated PMN. Although the precise mechanism of the heme-aggravated cytotoxicity is not yet known, it closely parallels amplified lipid peroxidation in endothelial cell membranes suggesting the importance of lipid injury. Hemopexin, by complexing heme, protects endothelial cells from activated PMN, but only if added simultaneously. The hydrophobic iron chelator and antioxidant, U74500A, abrogates heme-augmented hydrogen peroxide and PMN-mediated endothelial damage. Such compounds, therefore, may have therapeutic potential in one or more of the listed clinical syndromes. We speculate that exposure of endothelium to free heme may potentiate vascular damage in various clinical syndromes, including acute renal failure after massive intravascular hemolysis, crush injuries, reperfusion after myocardial infarction (perhaps secondary to cardiac myoglobin release), retrolental fibroplasia associated with neonatal hemopexin deficiency, and, perhaps, atherosclerosis involving sites of turbulence that may trigger minor red blood cell lysis.
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PMID:Heme uptake by endothelium synergizes polymorphonuclear granulocyte-mediated damage. 213 29

Isolated Langendorff-perfused rat hearts after 10 minutes preperfusion, were subjected to a substrate-free anoxic perfusion (20 minutes) followed by 20 minutes reperfusion with a glucose-containing oxygen-balanced medium. Under the same perfusion conditions, the effect of exogenous 5mM fructose-1,6-bisphosphate has been investigated. The xanthine dehydrogenase to xanthine oxidase ratio, concentrations of high-energy phosphates and of TBA-reactive material (TBARS) were determined at the end of each perfusion period in both control and fructose-1,6-bisphosphate-treated hearts. Results indicate that anoxia induces the irreversible transformation of xanthine dehydrogenase into oxidase as a consequence of the sharp decrease of the myocardial energy metabolism. This finding is supported by the protective effect exerted by exogenous fructose-1,6-bisphosphate which is able to maintain the correct xanthine dehydrogenase/oxidase ratio by preventing the depletion of phosphorylated compounds during anoxia. Moreover, in control hearts, the release of lactate dehydrogenase during reperfusion, is paralleled by a 50% increase in the concentration of tissue TBARS. On the contrary, in fructose-1,6-bisphosphate-treated hearts this concentration does not significantly change after reoxygenation, while a slight but significant increase of lactate dehydrogenase activity in the perfusates is observed. On the whole these data indicate a direct contribution of oxygen-derived free radicals to the worsening of post-anoxic hearts. A hypothesis on the mechanism of action of fructose-1,6-bisphosphate in anoxic and reperfused rat heart and its possible application in the clinical therapy of myocardial infarction are presented.
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PMID:Oxygen radical injury and loss of high-energy compounds in anoxic and reperfused rat heart: prevention by exogenous fructose-1,6-bisphosphate. 239 20

Oxygen-derived free radicals and their metabolites may contribute to the extension of irreversible cellular injury, which occurs on reperfusion of the previously ischemic myocardium. Therefore, therapy directed against the toxic effects of reactive oxygen species may provide protection to the ischemic myocardium, which undergoes subsequent reperfusion. We evaluated the effectiveness of N-2-mercaptopropionyl glycine (MPG), a free radical scavenger, to limit the extent of irreversible injury resulting from 90 min of ischemia followed by 6 h of reperfusion in a canine model of myocardial infarction. In three groups of dogs, MPG (20 mg/kg) was administered as a constant infusion into the left atrium. Group I received MPG for 2 h, starting 15 min before occlusion of the left circumflex coronary artery and ending 15 min after reperfusion. Group II received MPG for 1 h, starting 15 min before reperfusion. Group III received MPG for 1 h beginning 45 min after reperfusion. Each group was compared with its respective saline control group. Infarct size was reduced by 35% in Group I (32.2 +/- 5.1% vs. 47.7 +/- 3.4% of the area at risk, p less than 0.05) and Group II (31.4 +/- 3.6% vs. 47.5 +/- 5.1% of the area at risk, p less than 0.025) in comparison with the saline treated control animals. In contrast, in Group III infarct size did not differ significantly from the saline-treated control group (45.9 +/- 3.3% vs. 47.7 +/- 3.5% of the area at risk). The percent of left ventricle at risk did not differ among the groups. The beneficial effects of MPG could not be explained on the basis of hemodynamic differences. In addition, MPG did not influence regional myocardial blood flow. In vitro studies indicated that MPG effectively scavanges O2- generated by the hypoxanthine-xanthine oxidase reaction, as well as by PMA-activated polymorphonuclear leukocytes. Based on these observations, we propose that MPG exerts its beneficial effects by protecting against free radical-mediated damage during the early phase of reperfusion.
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PMID:Canine myocardial reperfusion injury: protection by a free radical scavenger, N-2-mercaptopropionyl glycine. 242

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 success of thrombolytic/reperfusion therapy in limiting the extent of myocardial infarction may be limited by reperfusion injury. Damage from acute ischemia is not due solely to the interruption of blood flow; rather, ischemia initiates a cascade of reactions involving partially reduced oxygen, inflammatory mediators, mechanical capillary obstruction by granulocytes and other events that lead to irreversible injury. A surprising consequence is that reperfusion by delivering oxygen and granulocytes may counteract some of the benefits of restoring flow. Mechanisms of neutrophil and free radical injury include superoxide radical formation and lipid peroxidation, progressive leukocyte capillary plugging and capillary no-reflow, and edema. The interaction of various specific mechanisms of injury in the heart (i.e., xanthine oxidase, mitochondrial superoxide leak, neutrophil superoxide, degranulation and capillary plugging, and neutrophil-derived vasoconstrictors) deserves further study.
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PMID:Free radical and granulocyte-mediated injury during myocardial ischemia and reperfusion. 253 48

Oxygenase-catalyzed and non-enzymatic polyunsaturated fatty acid peroxidations have potential pathogenic roles in ischemic-reperfusion damage to the myocardium. Certain oxygenase inhibitors protect heart muscle from irreversible ischemic injury, and some antiperoxidants can inhibit oxygenase enzymes. We investigated the antiperoxidative abilities of eight anti-ischemic, cardioprotective oxygenase inhibitors to prevent myocardial-membrane phospholipid peroxidation through superoxide-driven, iron-promoted reactions with xanthine oxidase as the source of superoxide. Flurbiprofen, ibuprofen, and REV-5901-5 did not affect peroxidation at concentrations up to 1000 microM. BW755C, AA-861, nafazatrom, dipyridamole, and propyl gallate did protect and cardiac lipids against oxidative injury in a concentration-dependent manner with respective and antiperoxidant IC50 values (concentrations at which peroxidation was inhibited by 50%) of 0.22, 1.25, 3.0, 3.6 and 50 microM. Catechin and phenidone, known oxygenase inhibitors not yet evaluated as anti-ischemic agents, were also found to be antiperoxidants at low micromolar concentrations. Four cyclooxygenase inhibitors ineffective against myocardial infarction (aspirin, indomethacin, naproxen, and sulfinpyrazone) evidenced no antiperoxidant properties at concentrations up to 500 microM. The oxygenase inhibitor-antiperoxidants identified could neither quench superoxide radical nor inhibit xanthine oxidase. However, they were able to interrupt the propagation of an on-going peroxidation reaction. Their antiperoxidant profiles resembled those of known antioxidants, such as alpha-tocopherol, which inhibit peroxidation by intercepting lipid free-radical intermediates. These data raise the possibility that at least some oxygenase inhibitors could exert cardioprotective effects by directly influencing the sensitivity of myocardial-membrane phospholipid to peroxidative injury. Consequently, recognition of the antiperoxidant properties of these agents may aid dissection of their physiological and pharmacological actions.
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PMID:Influence of cardioprotective cyclooxygenase and lipoxygenase inhibitors on peroxidative injury to myocardial-membrane phospholipid. 255 48


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