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)

The amounts of different factors, which are involved in oxygen free radical production or in protection against oxygen radicals, were determined in different parts of the gastrointestinal tract (GI-tract). Glutathione and superoxide dismutase were present in lower amounts within the small intestine compared with the stomach and the large intestine. In the small intestine glutathione peroxidase and catalase both prevailed in the intestinal muscle compared to the mucosa, whereas in the large intestine both enzymes are equally distributed among the mucosa and muscle. Xanthine oxidase was mainly present in the small intestinal mucosa. Taken together, these results suggest that the large intestine is better provided with protective enzymic and non-enzymic factors against oxidative stress than the small intestine. The protective capacity of different intestinal preparations against lipid peroxidation in liver microsomes was assessed, and particularly the mucosal fractions from the small intestine showed a marked protection against lipid peroxidation, which is not easily explained with the presence of the enzymes measured in this study. Pretreatment of intestinal segments with hydrogen peroxide or cumene hydroperoxide resulted in a damaged contractile response of the longitudinal smooth muscle to methacholine in all parts of the GI-tract, expressed in a lower pD2 value and a decreased maximal response. Pretreatment with these peroxides also decreased contractions after depolarization with K+. The large intestine is more sensitive to hydrogen peroxide and cumene hydroperoxide than the small intestine, which parallels with the sensitivity to lipid peroxidation. The results obtained with hydrogen peroxide also correlate well with the catalase activity in the various segments of the intestine. In conclusion, oxidative stress in the GI-tract alters intestinal motility, especially in the large intestine. Probably this does not occur at the level of muscarinic receptors.
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PMID:Modulation of oxidative stress in the gastrointestinal tract and effect on rat intestinal motility. 267 48

The pathogenesis of neonatal necrotizing enterocolitis is unknown, but a possible role for reactive oxygen metabolites has been postulated. We evaluated whether developmental differences exist in the levels of 1) the free radical-generating enzyme xanthine oxidase, 2) granulocyte peroxidase, an index of the resident granulocyte population, 3) free radical-scavenging enzymes (superoxide dismutase, catalase, and glutathione peroxidase), and 4) reduced glutathione, an endogenous antioxidant, in the ileal and colonic mucosa of 1-d-old, 3-d-old, 2-wk-old, and 1-mo-old piglets. We found no xanthine dehydrogenase/oxidase activity in 1-d to 1-mo-old piglets. Mucosal granulocyte peroxidase activity was higher in older animals, indicating that there was an age-dependent infiltration of granulocytes (eosinophils, neutrophils) in the distal bowel. The peroxidase activity per circulating granulocyte, however, did not vary with age. Superoxide dismutase activity was significantly higher in 1-d-old piglets than in all older age groups; glutathione peroxidase activity was significantly lower in 1-d-old animals than that of older age groups. There was no detectable catalase activity in the mucosa when tissue was corrected for catalase activity of blood. Finally, ileal GSH levels were significantly lower in 1-d-old than in 2-wk-old and 1-mo-old animals, whereas colonic reduced glutathione activity did not differ among age groups. In conclusion, the distal bowel of the neonatal piglet appears to have a limited capacity to generate oxidants via xanthine oxidase and resident granulocytes. However, the neonatal piglet intestine has a lower capacity to detoxify hydrogen peroxide than that of older animals.
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PMID:Developmental biology of oxidant-producing enzymes and antioxidants in the piglet intestine. 274 Jan 52

Eimeria bovis and Toxoplasma gondii differ in their susceptibility to macrophages activated by lymphokines. Interferon-gamma can activate macrophages to totally inhibit E. bovis sporozoite development, whereas growth of T. gondii tachyzoites in macrophages is not totally affected. The susceptibility of these parasites to oxygen intermediates and their ability to evade the oxidative burst by macrophages were investigated in cell-free systems. Using a logistic model to assess growth inhibition, T. gondii growth was impaired by 50% at 10(-4.25) M (56 microM) H2O2, with 30 min as the optimum time for measuring inhibition. Preliminary results indicate that T. gondii follows mode-one and mode-two killing with relation to time after exposure to H2O2, implying a role for OH. and the induction of a DNA repair mechanism. The same model was used to assess inhibition of E. bovis growth that was more susceptible, being inhibited to 50% by 10(-5) M (10 microM) H2O2. Both parasites were susceptible to the effects of xanthine-xanthine oxidase that releases a full complement of oxygen intermediates (H2O2, OH., (1)O2, and O2-). Adding quenchers or scavengers to the system confirmed that T. gondii was susceptible to products of the interaction of O2- and H2O2 (OH. and (1)O2), and that E. bovis sporozoites were at least partially susceptible to H2O2 and O2-, but extremely susceptible to OH.. These data were supported by studies on scavenging enzymes present in the parasites. Toxoplasma gondii was rich in superoxide dismutase (SOD), catalase, and glutathione peroxidase (GPO), and E. bovis had less catalase and SOD.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Susceptibility of Eimeria bovis and Toxoplasma gondii to oxygen intermediates and a new mathematical model for parasite killing. 276 Jul 59

In the rabbit myocardium, ischemia (produced by ligation of the left circumflex coronary artery) is associated with a reduction in antioxidant capacity. This is reflected by an increased glutathione depletion and production of thiobarbituric acid reactive substances following in vitro oxidative challenge with t-butylhydroperoxide. This effect is greatly intensified by reperfusion following periods of ischemia longer than 20 mins, thereby paralleling the onset of irreversible injury. Chronic allopurinol pretreatment (1 mg/mL in drinking water or approximately 75 mg/kg/day for seven days prior to ligation) provides significant protection of the ischemic/reperfused myocardium to t-butylhydroperoxide induced glutathione depletion and production of thiobarbituric acid reactive substances. This protection was not associated with any significant alterations in levels of tissue ATP or in the activities of the myocardial antioxidant enzymes catalase, copper,zinc-superoxide dismutase or glutathione peroxidase, suggesting that allopurinol may exert its effects by direct radical scavenging or by some other mechanism unrelated to xanthine oxidase inhibition.
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PMID:Altered antioxidant status in the ischemic/reperfused rabbit myocardium: effects of allopurinol. 281 60

Cells hyper-resistant to hydrogen peroxide (H2O2) were obtained from a Chinese hamster cell line (CHL) by repeated treatments with H2O2 at stepwise increasing concentrations. A clonal line (R-8) was approximately 10 times more resistant to H2O2 than the parental cells, and retained its resistance for about 2 months in normal medium. However, with further passages after the completion of the present study, the elevated resistance gradually decreased. Although the concentration of H2O2 required to induce chromosomal aberrations in 50% of treated cells was about 10 times higher in R-8 than in the parental cells, there were no distinct differences between the cells in the induction of chromosomal aberrations by 3 alkylating agents (N-methyl-N'-nitro-N-nitrosoguanidine, N-ethyl-N-nitrosourea and mitomycin C). The catalase activity of R-8 was 10-fold in comparison with the parental cells, but no obvious differences were seen in the activities of superoxide dismutase (SOD), glutathione peroxidase and glutathione reductase. Therefore, the elevated H2O2-resistance seemed to be associated with the enhanced catalase activity. The induction of chromosomal aberrations in two O2- generating systems--xanthine oxidase plus hypoxanthine (XO + HX), and paraquat--was compared between R-8 cells and the ordinary CHL cells. XO + HX produced chromosomal aberrations in the parental cells but not in the R-8, while paraquat induced almost the same level of aberrations in both cell lines. This finding suggests that different active oxygens are responsible for the induction of aberrations in these two O2- generating systems, i.e., H2O2 in XO + HX and O2- in paraquat.
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PMID:Induction of chromosomal aberrations in active oxygen-generating systems. II. A study with hydrogen peroxide-resistant cells in culture. 282 17

Evidence has been obtained that implicates the generation of reactive oxygen species as an early and critical event in the promotion of neoplastic transformation in mouse JB6 cells. The time courses for specific inhibition by CuZn-superoxide dismutase (CuZn-SOD) of the 12-O-tetradecanoylphorbol-13-acetate (TPA)-induced promotion of neoplastic transformation in JB6 cells and for changes in antioxidant enzyme activities associated with TPA-exposure were examined. The antipromoting effect of CuZn-SOD was found to be critically dependent on the time of addition of CuZn-SOD relative to the start of a 14-day exposure of cells to TPA. Treatment of JB6 P+ Clone 22 and Clone 41 cells with CuZn-SOD for 18 h before, simultaneously with or up to 1 h after exposure to TPA, all inhibited promotion of transformation maximally. Delay of addition of CuZn-SOD by 2 h or more after the start of TPA treatment resulted in a marked decrease in the promotion inhibitory effect. CuZn-SOD added 24 or 48 h after TPA had no effect on promotion of transformation. Exposure of JB6 cells to 0.2- (superoxide anion radical) generated exogenously by the aerobic xanthine oxidase reaction resulted in promotion of neoplastic transformation that was prevented by concurrent addition of CuZn-SOD. Taken together these studies provide evidence that increased superoxide anion generation within the first 2 h following TPA exposure is an essential event in promotion of transformation in JB6 cells. Upon TPA exposure, JB6 Clone 41 cells exhibited time-specific activity changes in the cellular SOD, glutathione peroxidase (GSH-Px), and catalase. SOD and GSH-Px activities were reduced to 54% and 26% respectively of basal levels within 2 h of TPA treatment. GSH-Px activity recovered to basal levels within 4 h and CuZn-SOD within 48 h. Catalase activity was maximally reduced to 50% of basal within 1 h after TPA treatment and rebounded to greater than basal levels within 4 h. It is postulated that a c-kinase-dependent event induces rapid elevation of superoxide anion following TPA exposure and that this leads to reduced activity of antioxidant enzymes. Since antipromotion by exogenous CuZn-SOD is effective only during the first 2 h following TPA exposure, this suggests that the promotion-relevant 0.2- elevation is transient.
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PMID:Early superoxide dismutase-sensitive event promotes neoplastic transformation in mouse epidermal JB6 cells. 282 3

Recent evidence suggests that free oxygen radicals are produced by ischaemic tissues, accounting for at least part of the damage that results. These free oxygen radicals are produced by xanthine oxidase, amongst others, and removed by scavenger enzymes (catalase, superoxide dismutase and glutathione peroxidase) and anti-oxidants. As mitochondria are oxygen-utilising organelles, they are capable of producing free oxygen radicals. Our results indicate that the removal of free oxygen radicals are not diminished during ischaemia, but the activity of the free oxygen radical generator, xanthine oxidase, is increased. This could lead to an increased superoxide anion concentration.
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PMID:Effect of normothermic ischemic cardiac arrest and of reperfusion on the free oxygen radical scavenger enzymes and xanthine oxidase (a generator of superoxide anions). 283 Oct 43

The tolerance against two different levels of enzymatically generated oxygen radicals was studied in isolated Langendorff-perfused hearts from selenium (Se)-deficient and control rats. The glutathione peroxidase activity of the Se-deficient hearts was less than 5% of that of the controls. Examination of the ultrastructure was made after random sampling using morphometric methods. Selenium-deficient hearts demonstrated some areas with myocytes with intracellular oedema. Oxygen radicals (hydrogen peroxide and superoxide) were generated by adding xanthine oxidase for 12 min (high dose: 25 U/l; low dose: 12.5 U/l) and hypoxanthine to the buffer of isolated Langendorff-perfused rat hearts. Left ventricle-developed pressure (LVDP) and high-energy phosphates (ATP and CP) were measured. After the low dose of oxygen radicals, LVDP was reduced to 32.7 +/- 6.5% (mean +/- SEM) of initial values in the Se-deficient group, but only to 58.3 +/- 8.4% in the control group (p less than 0.05). After the high dose, LVDP decreased abruptly to zero in both groups. However, ATP content was significantly (p less than 0.05) lower in Se-deficient than in control hearts. Perfusion with oxygen radicals (low dose) resulted in the appearance of mitochondrial damage in both groups, but intracellular oedema was still present only in the Se-deficient hearts. It is concluded that protection against oxygen radicals was reduced in Se-deficient hearts. This was probably due to loss of myocardial glutathione peroxidase activity.
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PMID:The selenium-deficient rat heart with special reference to tolerance against enzymatically generated oxygen radicals. 283 46

We hypothesize that oxygen free radicals are involved in the genesis and maintenance of volume and pressure overload heart failure. Pressure and volume overload would produce myocardial ischemia. During ischemia there will be an increase in xanthine and xanthine oxidase; and a decrease in the superoxide dismutase and glutathione peroxidase activity leading to an increase in the oxygen free radicals. A decrease in the cellular pH during ischemia would release phospholipase which would, in turn, release arachidonic acid from phospholipids. Leukotrienes and prostaglandins will be synthesized through arachidonic acid metabolism. During this synthesis not only oxygen free radicals will be produced but also there will be formation of leukotriene, LTB4, which is known to activate neutrophil and hence increased secretion of oxygen free radicals. Increased circulatory catecholamines due to compensatory mechanism would also lead to an increase in the oxygen free radicals. Oxygen free radicals are known to depress Ca++ binding and uptake of sarcoplasmic reticulum which would lead to a decrease in the myocardial contractility. We have shown that oxygen free radicals depress cardiac function and cardiac contractility. It is, therefore, suggested that oxygen free radicals might be involved in the development of heart failure. The use of agents that reduce the amount of oxygen free radicals would be of value in the prevention and treatment of heart failure.
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PMID:Oxygen free radicals and heart failure. 283 9

Mixed-function oxidation systems comprised of Fe3+, O2, and electron donors such as thiol compounds, ascorbate, NAD(P)H/NAD(P)H oxidase, and xanthine oxidase/hypoxanthine, catalyze the inactivation of many enzymes. This report describes the isolation and purification of a soluble protein from Saccharomyces cerevisiae, which specifically inhibits the inactivation of various enzymes by a nonenzymatic Fe3+/O2/thiol mixed-function oxidase system. When thiol is replaced with another electron donor (e.g. ascorbate), this specific protein no longer protects against iron (or copper)/O2-dependent radical-induced enzyme inactivation. Purification steps included a polyethylene glycol precipitation followed sequentially by a chromatography on DE52 and high pressure liquid chromatography on phenyl, DEAE, and gel-filtrated columns. The final gel filtration step yielded two protein peaks exhibiting protector activity and possessing a Mr of 500,000 and 90,000. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of these two fractions gave a single band at 27 kDa suggesting that these protein species simply represent different oligomeric structures. The protector protein did not possess catalase, glutathione peroxidase, superoxide dismutase, or iron chelation activities. Since the protection activity reported herein is specific for mixed-function oxidation systems containing thiols, we propose that the protector protein functions as a sulfur radical scavenger.
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PMID:The isolation and purification of a specific "protector" protein which inhibits enzyme inactivation by a thiol/Fe(III)/O2 mixed-function oxidation system. 289 5


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