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)

We have previously demonstrated that oxypurinol (40 mg/kg i.p.), a xanthine oxidase inhibitor, can reduce focal ischemic brain injury in the rat when applied pre-ischemically. By using a model of occlusion of the middle cerebral artery (MCA) in tandem with occlusion of the ipsilateral carotid artery, the present study further demonstrates that delayed (60 min) administration of oxypurinol also exhibits a protective action on ischemic damage in the stroked rat brain. Oxypurinol significantly reduced the ischemic cerebral infarct zone by preventing the development of brain damage primarily in areas distant to the central lesion core. A corresponding amelioration of brain swelling and attenuation of neurological deficits were evident. Similar protection against focal ischemic brain damage was evident when the adenosine deaminase inhibitor, deoxycoformycin (500 micrograms/kg), was administered prior to the onset of ischemia. However, with delayed (60 min) administration deoxycoformycin had no protective effect. These findings support the hypothesis that manipulation of adenosine catabolism can be an effective therapeutic approach to the prevention or treatment of brain injuries, such as those occurring during ischemic stroke or cardiac arrest.
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PMID:Deoxycoformycin and oxypurinol: protection against focal ischemic brain injury in the rat. 161 98

We have previously shown that gut ischemia/reperfusion (I/R) causes simultaneous liver and lung dysfunction and that neutrophils play a critical role in this process. The purpose of this study was to ascertain whether xanthine oxidase (XO) was likewise operational. Normal and XO-inactivated rats (given a tungsten-enriched, molybdenum-depleted diet for 3 weeks) underwent 45 minutes of occlusion of the superior mesenteric artery, and control rats were subjected to a sham laparotomy. After zero and six hours of reperfusion, blood was sampled and livers and lungs harvested. Iodine-125-labeled albumin leak was used as a marker for pulmonary and liver capillary permeability barrier function, and serum acetoacetate/3-hydroxybutyrate (AcAc/3-OHB) levels as an index of hepatic mitochondrial redox state. Gut ischemia/six hours of reperfusion (I/R) increased the 125I albumin lung/blood ratio and the 125I albumin liver/blood ratio; AcAc/3-OHB levels decreased significantly. Xanthine oxidase activation eliminated the observed lung and liver capillary leak as well as the hepatic metabolic derangement induced by gut I/R. In conclusion, the simultaneous lung and liver dysfunction produced by gut I/R is mediated by XO.
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PMID:Simultaneous liver and lung injury following gut ischemia is mediated by xanthine oxidase. 161 31

The following species; superoxide (O2-.), hydrogen peroxide (H2O2), hydroxyl radical (.OH) and singlet oxygen (1O2), are generally called as reactive oxygen species (ROS). These species have been suggested to play important roles in various diseases caused by oxygen toxicity such as ischemia, carcinogenesis, inflammation, diabetes and aging. During the past two decades, considerable interests have been focused on chemical and biological research of ROS. We have also reported about the research results on ROS, which can be classified as following below; 1) chemical reactivities of O2-., 2) formation and toxicity of 1O2, 3) chemical reactivities of .OH, 4) enzyme mechanism of xanthine oxidase, 5) development of the compounds which induce the formation of O2-. and H2O2 in living cells and 6) development of superoxide dismutase mimics. These studies are reviewed from the standpoint of both chemical and biological interests.
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PMID:[Chemical and biochemical studies on reactivities, formations and toxicities of reactive oxygen species]. 164 54

The excessive generation of free radicals is thought to be one of the major mechanisms leading to tissue injury in various pathological conditions, including ischemia, inflammation, and trauma. Conversion of xanthine dehydrogenase (XDH) to xanthine oxidase (XO) contributes to the formation of superoxide, an oxygen radical. We measured XDH and XO activity using a newly developed fluorometric assay in an experimental spinal cord injury model in rats. XO activity increased by more than 100% 4 h after spinal cord trauma. Total (XDH + XO) activity also increased by 96% during the same period. Allopurinol, an inhibitor of XO (100 mg/kg/day x 2 days, i.p.), completely inhibited plasma and spinal cord XO activity but did not affect posttraumatic edema determined by water content or polymorphonuclear (PMN) cell infiltration reflected by myeloperoxidase (MPO) activity in traumatized spinal cord. These results indicate that XDH conversion to XO may not be the major mechanism of oxygen radical formation in the pathogenesis of vasogenic edema or inflammatory response in this experimental spinal cord injury model in rats.
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PMID:Xanthine oxidase in experimental spinal cord injury. 164 10

Tissue oxidases, especially xanthine oxidase, have been proposed as primary sources of toxic oxygen radicals in many experimental models of disease states. Among these, ischemia-reperfusion injury may be of the greatest clinical interest. In this paper we propose the use of methylene blue as a means of suppressing the production of superoxide radicals O2- by acting as an alternative electron acceptor for xanthine oxidase. Previous work has indicated that methylene blue accepts electrons from xanthine oxidase at the iron-sulfur center. Initial experiments in our laboratory demonstrated that (1) pairs of electrons from each enzymatic oxidation are transferred to methylene blue, (2) the reduction of methylene blue can be achieved by model iron-sulfur centers, similar to the iron-sulfur center of xanthine oxidase, (3) reduced methylene blue auto-oxidizes to produce H2O2 directly, rather than O2-, and (4) methylene blue is effective at non-toxic levels (2-5 mg/kg) in preventing free radical damage to liver and kidney tissues in an in vitro model of ischemia and reoxygenation. Accordingly, we propose that methylene blue may represent a new class of antioxidant drugs that competitively inhibit reduction of molecular oxygen to superoxide by acting as alternative electron acceptors for tissue oxidases. We have termed these agents "parasitic" electron acceptors.
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PMID:Methylene blue as an inhibitor of superoxide generation by xanthine oxidase. A potential new drug for the attenuation of ischemia/reperfusion injury. 165 Feb 13

The role of tissue-type plasminogen activator (t-PA) was investigated in the gastric ulcer formation induced by microvascular derangement. The rat stomach was exposed and repeated electrical stimuli (irritation) were applied on the small arterial wall close to the lesser curvature to induce mucosal ischemia followed by hyperemia. The t-PA activity in the regional blood of the stomach was significantly elevated as early as 5 min after the irritation. Immunohistochemical study using anti-t-PA monoclonal antibody revealed that t-PA was detectable in the endothelial cells of capillaries and collecting venules, suggesting the involvement of endothelium-mediated fibrinolytic activity in the irritation-induced ulcer formation. Pretreatment of SOD or allopurinol significantly attenuated the irritation-induced t-PA activation, suggesting that the t-PA activity was modulated by xanthine oxidase-associated superoxide anions. CV-6209, a selective antagonist of platelet-activating factor (PAF), also prevented the activation of t-PA as well as ulcer formation, providing a concept that PAF may be associated with the local fibrinolytic activation which may cause hemorrhagic changes in the gastric mucosal microvasculature. The present study supports the hypothesis that increased t-PA activity may reflect the microvascular endothelial damages caused by vasomotor derangement and suggests that oxygen-derived free radicals may participate in the regulation of endothelium-derived fibrinolytic activities in the mucosal microvasculature.
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PMID:Involvement of superoxide anion and platelet-activating factor in increased tissue-type plasminogen activator during rat gastric microvascular damages. 165 Sep 66

Ischemia induced oxygen free radical damage was formerly attributed only to xanthine oxidase in intestine, liver, kidney and heart. A reevaluation indicated neutrophils as one of the major sources of postischemic oxidative tissue damage, chiefly in the intestine. Our data, obtained from the same occlusion time period for intestine, liver and kidney, showed a certain oxidative damage in intestine and kidney already during ischemia, expressed by an increase of thiobarbituric acid reactive substances (TBARS), whereas the liver sustained damage of this kind only during reperfusion. Oxidative stress was expressed by a comparison of the increase of TBARS, though this test is not a measure of a specific product of lipid peroxidation, but rather comprises several breakdown products of free radical damage. Myeloperoxidase as measure of neutrophil stimulation increased in the intestine and liver. The kidney sustained damage without an increase of myeloperoxidase activity, but showed a similar pattern of increase of TBARS as in the intestine. Our data suggest a major role of neutrophils in intestinal ischemia induced damage, where neutrophils can effect initiation and propagation. In the liver neutrophils may play a minor role concerning propagation, but they may act as an important initiating mechanism. Hepatic tissue shows a high ischemic tolerance, which is demonstrated by a missing increase of TBARS in spite of a certain increase of myeloperoxidase activity during ischemia. This can be interpreted by the high capacity of antioxidative mechanisms of liver tissue and the ability of a higher oxygen extraction ratio under nearly ischemic conditions. In the kidney there appears a smaller contribution of neutrophils. The similar pattern of increase of TBARS in kidney and intestine demonstrates a comparable low ischemic tolerance of these two tissues, whereas different initiating and propagating systems may occur.
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PMID:Intestinal, hepatic and renal production of thiobarbituric acid reactive substances and myeloperoxidase activity after temporary aortic occlusion and reperfusion. 165 85

1. Nilvadipine (FK 235, FR 34235) suppressed ischemia (20 min)-reflow (20 min)-induced paw edema of mice (ED30:0.4 mg/kg i.v. and 2 mg/kg p.o.). Other calcium entry blockers of dihydropyridine-type also suppressed the edema, but 30-fold higher doses were required. 2. Oral dosing of nilvadipine suppressed carrageenan-induced paw edema (ED30:15 mg/kg in rats and 20 mg/kg in mice) at a potency corresponding to that of an anti-inflammatory drug, ibuprofen. Nifedipine, nicardipine and nimodipine resulted in a suppression of 30% only with 100 mg/kg oral dosing in rats. Nitrendipine, diltiazem and verapamil were without effect. 3. Nilvadipine inhibited superoxide radical (O-2production from xanthine oxidase (XOD) both with lactate dehydrogenase + NADH method and cytochrome c method (IC50:90 and 100 micrograms/ml, respectively). Nifedipine and nicardipine showed some inhibition, but the other calcium entry blockers failed to inhibit significantly even at 320 micrograms/ml. As uric acid formation was not reduced by the tested drugs, the inhibitory action might be due to their O-2scavenging effects. 4. Superoxide production of neutrophils from casein-induced peritoneal fluid in rats was most strongly inhibited by nilvadipine when the cells were stimulated by a calcium ionophore, A23187 (IC50:4 micrograms/ml). Inhibition by this drug when stimulated by f-methonyl-leucyl-phenylalanine and phorbol myristate acetate was less effective (IC50:20 and 30 micrograms/ml, respectively). Nifedipine and nicardipine inhibited neutrophil O-2production at higher concentrations (30-200 micrograms/ml) with all stimulants. Inhibitory actions by other drugs were weak. 5. Triggering of atherosclerosis depends largely on the oxidative stress on blood vessels after recently established concept.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibition by nilvadipine of ischemic and carrageenan paw edema as well as of superoxide radical production from neutrophils and xanthine oxidase. 165 7

Simulated ischemic conditions or a source of oxygen-derived free radicals, such as xanthine plus xanthine oxidase, released a significant amount of the excitotoxic amino acids Asp and Glu from adult rat hippocampal slices incubated in vitro. The concentrations of Asp and Glu in the incubation medium increased by 20 and 30 times respectively when such slices were exposed to simulated ischemia for a 10-min period. However, preparations obtained from 4- to 9-day-old rats did not release Asp or Glu either when exposed to ischemia or after K+ depolarization. This release appeared 10-15 days after birth and progressively increased up to 13 months of age. No further increase was observed in 25-month-old animals. The exposure of the slices to a source of oxygen-derived free radicals induced a release of excitotoxic amino acids independently from the age of the rats. The massive excitotoxic amino acid release from adult hippocampal slices and the formation of free radicals induced by ischemic insults has been previously associated with degeneration of hippocampal neurons. The lack of ischemia-induced excitotoxic amino acid release from the newborn hippocampus may help to explain why the newborn hippocampus is more resistant than the adult to hypoxic/ischemic insults.
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PMID:Ischemia does not induce the release of excitotoxic amino acids from the hippocampus of newborn rats. 168 34

The search for the causative factors in Dupuytren's disease has historically progressed form gross anatomical dissection, through microscopical tissue studies, to the biochemistry of the collagen produced. But these elements are merely the end products of cellular activity - not revealing the factors responsible for the changes in cellular activity. Recent biochemical investigations suggest that a number of conditions including localized microvascular ischemia and high alcohol concentrations transform the "benign" xanthine dehydrogenase of endothelial cells to the oxygen-free radical-releasing xanthine oxidase. Oxygen-free radicals are highly reactive species with half-lives in the order of milliseconds capable of both damaging the surrounding peri-microvasculature and stimulating fibroblast proliferation. It is this stimulation of fibroblast proliferation in the palmar fascia that is the key event in the pathogenesis of Dupuytren's contracture.
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PMID:Cell-controlling factors in Dupuytren's contracture. 169 16


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