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:1.11.1.6 (catalase)
55,569 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The role of neutrophils (PMN) in acute renal failure (ARF) is controversial. Although the development of acute renal failure (ARF) frequently occurs in situations where there is partial activation of PMN (primed PMN) and mild renal ischemia, the interaction between primed PMN and ischemic organs has not been studied in any biological system. To define the interaction between primed PMN and mild renal ischemia, kidneys were made ischemic for 10 minutes in situ and reperfused by the isolated kidney technique with untreated PMN or PMN primed with low concentrations of lipopolysaccharide (LPS) or phorbol myristate acetate (PMA). We found that primed PMN had no effect on control (non-ischemic) kidneys and that untreated PMN did not cause injury to kidneys previously subjected to mild ischemia. However, addition of primed PMN to mildly ischemic kidneys caused severe injury. To determine the nature of renal injury, ischemic kidneys were reperfused with primed PMN and catalase (CAT) or the elastase inhibitor, Eglin C. In ischemic kidneys reperfused with LPS-primed PMN, Eglin C (but not CAT) was partially protective while in ischemic kidneys reperfused with PMA-primed PMN, CAT (but not Eglin C) was partially protective. Reperfusion with both CAT and Eglin C completely prevented the damaging effects of either LPS- or PMA-primed PMN. In conclusion, addition of primed but not untreated PMN causes ARF in mildly ischemic kidneys by PMN oxidant- and/or protease-mediated mechanisms. This synergism could account for the high frequency of ARF in conditions associated with prerenal azotemia and primed PMN.
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PMID:Mild renal ischemia activates primed neutrophils to cause acute renal failure. 140 39

Although reactive oxygen species are believed to participate in postischemic renal injury, the actual chemical species involved and the role of endogenous scavenging systems in protecting against injury requires additional study. Hydrogen peroxide, which derives from superoxide radical, is toxic and also yields toxic hydroxyl radical. 3-amino-1,2,4-triazole reacts with catalase to form irreversibly inactivated catalase only in the presence of hydrogen peroxide. We made use of this chemical reaction both to determine whether inhibition of the hydrogen peroxide-scavenging enzyme catalase would influence ischemic renal injury and to measure hydrogen peroxide production rates after ischemia. Sprague-Dawley rats were given aminotriazole (100 mg/kg) one hour before 40 min of renal ischemia. Twenty-four h after ischemia GFR had decreased to 300 microL/min in control animals and to 50 microL/min in aminotriazole-treated animals. Histologic evidence of injury was also worse in catalase-inhibited animals. To measure hydrogen peroxide production rates aminotriazole was given 60 min before measurement of renal catalase activity. In control animals, aminotriazole caused a 53.4% decrease in catalase activity. In animals subjected to 40 min of ischemia plus either 10 or 60 min of reflow catalase activity decreased by 33.9 and 49.5% (not significantly different from control). Thus, when measured by this method total renal hydrogen peroxide production was considerable but was not increased by ischemia. However, in isolated proximal tubule segments 60 min of anoxia and 30 min of reoxygenation caused a 42% increase in H2O2 released into the incubation medium. In summary, inhibition of catalase before ischemia led to exacerbation of ischemic injury.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hydrogen peroxide and ischemic renal injury: effect of catalase inhibition. 164 49

To investigate the functional role of renal intrinsic antioxidant enzymes (AOEs), the levels of AOE activities in isolated glomeruli and the changes in renal function to oxidant insults were assessed in normal control rats (NC, N = 23) and rats subjected to 30-minutes of complete renal ischemia for three days (day-3, N = 20) or six days (day-6, N = 23) prior to study. When compared to NC, the activities of total and manganese (cyanide-insensitive) superoxide dismutase, glutathione peroxidase, and catalase were increased more than twofold in day-6 animals, on average, from 36 +/- 4 U/mg protein, 9 +/- 1 U/mg protein, 129 +/- 21 U/mg protein and 1.32 +/- 0.20 k/mg protein, respectively, to 80 +/- 5, 27 +/- 3, 283 +/- 41 and 3.20 +/- 0.20, respectively (P less than 0.05 for all). There were no changes in AOE activities in day-3 animals. In day-6 animals, however, the activities of non-AOEs, LDH and fumarase were found to be unaffected. Separate groups of NC (N = 12), day-3 (N = 5) and day-6 (N = 12) rats were subjected to either 30 minutes of ischemia plus 60 minutes of reperfusion (I/R) or unilateral i.a. infusion of hydrogen peroxide (H2O2, 35 mu moles in 1 hr). The degree of reduction in inulin and para-amino hippurate clearance rates following I/R were significantly less in day-6 (-21 +/- 3% and -12 +/- 2, respectively) compared to NC (-69 +/- 9% and -59 +/- 11, respectively) or day-3 rats (-73 +/- 7% and -62 +/- 10, respectively).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of intrinsic antioxidant enzymes in renal oxidant injury. 240 19

The effects of antioxidant therapy with probucol were evaluated in rats subjected to 1 h renal ischemia and to 24 h reperfusion. Probucol exerted significant antioxidant effects in renal cortical tubules in vitro when exposed to a catalase-resistant oxidant. At 24 h probucol treatment (IP) improved single nephron glomerular filtration rate (SNGFR) (28.1 +/- 3.3 nl/min) in comparison to untreated ischemic (I) rats (15.2 +/- 3.0), primarily as a result of improving SNGFR in a population of low SNGFR, low flow and/or obstructed nephrons. However, absolute proximal reabsorption remained abnormally low in IP rats at 24 h (5.9 +/- 0.8 nl/min), and cell necrosis was greater than in I rats. Kidney GFR remained low in IP rats due to extensive tubular backleak of inulin measured by microinjection studies. Evaluations after 2 h of reperfusion revealed a higher SNGFR in IP (36 +/- 3.1 nl/min) than I rats (20.8 +/- 2.7 nl/min). Absolute proximal reabsorption was essentially normal (11.6 +/- 1.3 nl/min) in IP rats, which was higher than IP rats at 24 h and the concurrent I rats. Administration of the lipophilic antioxidant, probucol, increased SNGFR and proximal tubular reabsorption within 2 h after ischemic renal failure. Although SNGFR remained higher than I rats at 24 h, absolute reabsorption fell below normal levels and tubular necrosis was more extensive in IP rats. Early improvement in nephron filtration with antioxidants may increase load dependent metabolic demand upon tubules and increase the extent of damage and transport dysfunction.
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PMID:Ischemic acute renal failure and antioxidant therapy in the rat. The relation between glomerular and tubular dysfunction. 283 99

In control rabbits, a renal ischemia of 60 min followed by 10 min of reperfusion resulted in an enhanced free radical production in cortical tissue, as assessed by a significant decrease of free glutathione (42%), protein-bound GSH (17%), and vitamin E (49%). In contrast, catalase or glutathione peroxidase activities were not affected by these experimental conditions. Free radical production in this model was also measured directly using electron spin resonance (ESR) spectroscopy associated with a PBN (alpha-phenyl N-tert-butyl-nitrone) spin trap agent in the venous blood arising from the ischemic kidney. The signal consisted of a triplet of doublets. In contrast, no signal could be detected in control blood samples taken prior to inducing ischemia. The burst of free radical production occurred in the early phase after restoration of flow in the kidneys rendered ischemic, as evidenced by a signal of weak intensity which generally appeared within the third minute after reperfusion and progressively increased to form a well-defined asymmetric signal following 10 min of reperfusion. The precise nature of free radicals trapped by the PBN agent remains, however, to be elucidated, but analysis of the coupling constants (aN = 14.5-15 G; a beta H = 2.5-3 G) and asymmetry of the central doublets suggests that the ESR signal may arise from a nitorxy-radical adduct resulting from the spin trapping by PBN of both oxygen- or carbon-centered radicals of lipid origin. As evidenced by both direct and indirect measurements, exchange of rabbit blood immediately after inducing renal ischemia with 30 ml/kg of Diaspirin Crosslinked Hemoglobin (7.5 g/dl in lactated electrolyte) or human serum albumin (7.5 g/dl in lactated electrolyte) did not exacerbate free radical production mediated by an ischemia reperfusion phenomenon, a typical situation found in a resuscitation setting.
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PMID:Diaspirin crosslinked hemoglobin (DCLHb): absence of increased free radical generation following administration in a rabbit model of renal ischemia and reperfusion. 763 50

During experimental renal ischemia and reperfusion in rabbits, morphine as well as naloxone significantly inhibited the increased superoxide anion (O2-) generation by resting and opsonized zymosan-stimulated phagocytes in renal venous blood. Morphine with naloxone in combination inhibited O2- generation to a lesser extent than that observed when these drugs were used separately. Morphine and/or naloxone did not significantly affect erythrocyte superoxide dismutase (SOD-1), glutathione peroxidase (GPx) and catalase activities or malonyldialdehyde (MDA) concentrations in venous blood during renal ischemia. During reperfusion there was a tendency to a slight reduction of erythrocyte catalase activity in morphine-treated animals, and to slight diminutions of erythrocyte SOD-1 and GPx activities and erythrocyte MDA concentrations in rabbits treated with naloxone and morphine in combination. These results indicate that opioid receptor agonists and antagonists modify the response of the kidney to acute injury. These effects may have relevance to the pattern of oxidative stress seen in patients with acute ischemic renal failure.
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PMID:Effect of morphine and naloxone on oxidative metabolism during experimental renal ischemia and reperfusion. 785 38

Reactive oxygen species (ROS) have been implicated in the pathophysiology of renal ischemia/reperfusion injury. Endothelin-1 (ET-1) is generated in abundance in renal ischemia/reperfusion with resultant decreases in renal blood flow and glomerular filtration rate. To determine if ROS regulate ET-1 production, the effect of ROS donors or scavengers on ET-1 protein and mRNA levels in cultured human mesangial cells was examined. Incubation with xanthine/xanthine oxidase, glucose oxidase, or H2O2 caused a dose-dependent rise in ET-1 release. Similarly, xanthine/xanthine oxidase or H2O2 augmented ET-1 mRNA levels. In contrast, the ROS scavengers dimethylthiourea (DMTU), dimethylpyrroline N-oxide, or pyrrolidine dithiocarbamate reduced basal ET-1 release, while DMTU lowered ET-1 mRNA levels. Deferoxamine, an iron chelator, also decreased basal ET-1 release. Superoxide dismutase potentiated the ET-1 stimulatory effect of xanthine/xanthine oxidase, while catalase abrogated the effect of xanthine/xanthine oxidase and H2O2. The effects of ROS were unrelated to changes in nitric oxide production or cytotoxicity. These data indicate that exogenously or endogenously-derived ROS can increase ET-1 production by human mesangial cells. While superoxide anion reduces ET-1 levels, H2O2 leads to enhanced production of the peptide. ROS stimulation of mesangial cell ET-1 production may contribute to impaired glomerular hemodynamics in the setting of renal ischemia/reperfusion injury.
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PMID:Effect of reactive oxygen species on endothelin-1 production by human mesangial cells. 877 Sep 66

The effect of a new synthetic superoxide dismutase and catalase mimetic was investigated on renal ischemia-reperfusion syndrome in rats. Synthetic salen-manganese complexes have characteristics that might facilitate their potential usefulness as therapeutic agents: (1) unlike proteinaceous antioxidant enzymes, synthetic complexes, due to their low molecular weight, have a better stability and bioavailability; (2) they have a catalytic activity enhancing their efficiency over noncatalytic reactive oxygen metabolite scavengers; and finally, (3) exhibiting combined superoxide dismutase and catalase activity, they destroy both superoxide anions and hydrogen peroxides, thereby enhancing their protective effect on ischemically injured tissues. One such compound, EUK-134, was tested in uninephrectomized rats that underwent a left renal artery clamping. After a 75-min left renal artery clamping, a single intravenous injection of EUK-134 at 0.2 mg/kg, just before unclamping, provided significantly better renal function recovery during the week after the ischemic insult compared with recovery of untreated animals. Two hours after several periods of renal ischemia (30, 45, 60, and 75 min of left renal artery clamping), EUK-134 given at a similar dose significantly improved the glomerular filtration rate after an acute ischemia of 30 and 45 min, as assessed by EDTA 51Cr. Overall, these results show that synthetic superoxide dismutase-catalase mimetics such as EUK-134 can protect ischemically injured rat kidneys from ischemia-reperfusion syndrome when administered just before reperfusion.
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PMID:EUK-134, a synthetic superoxide dismutase and catalase mimetic, protects rat kidneys from ischemia-reperfusion-induced damage. 897 Jun 24

Oxidant injury is considered to be an important mechanism in the pathophysiology of acute renal failure. It has been thought that decrease in extracellular and intracellular fluid and endotoxemia seen in obstructive jaundice may cause an increase in production of oxygen free radicals and impairment in antioxidant defense mechanism. This study is designed to investigate the possible role of oxidant injury in renal failure seen in jaundiced patients. In this study, 28 rats were divided into four groups: Control (C)(N = 7); Renal ischemia (RI)(N = 7); Obstructive jaundice+renal ischemia (OJ+RI)(N = 7); Obstructive jaundice (OJ)(N = 7). All groups were compared with each other according to renal failure findings and enzyme activities, such as Xanthine oxidase (XOD), Superoxide Dismutase (SOD) and Catalase in renal cortex and Glutathione Peroxidase (GSH-Px), in blood at 3rd day after ischemia and reperfusion. Renal failure findings monitored by blood urea and creatinine levels, seemed more evident in OJ+RI than RI group (p < 0.05). When compared with RI, in OJ+RI group, increase in XOD activity at 3rd day was statistically significant [0.259 +/- 0.01 U/g (tissue) and 0.362 +/- 0.03 U/g (tissue) respectively] (p < 0.05). SOD and GSH-Px activities of each ischemic group at 3rd day were decreased compared to non-ischemic groups. This fall was significant (p < 0.05). But there was no statistical difference between jaundiced and non-jaundiced groups. Alterations in catalase activities also had no statistical significance. These findings may suggest that the injury induced by oxygen free radicals at re-oxygenation of tissue after ischemia may also play a role in the pathogenesis of acute renal failure developed in obstructive jaundice.
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PMID:The role of oxygen free radicals in acute renal failure complicating obstructive jaundice: an experimental study. 951 37

This study was undertaken to determine whether reactive oxygen species (ROS) are involved in the pathogenesis of ischemic acute renal failure (IARF) in rabbits. Renal ischemia was induced by clamping bilateral renal arteries for 60 min. Animals were pretreated with combination of xanthine oxidase inhibitor (allopurinol), hydrogen peroxide scavenger (catalase), and hydroxyl radical scavenger (sodium benzoate). Serum creatinine level significantly increased 24 h after ischemia and remained higher to 72 h. Ischemia caused a reduction of GFR and an increase of FENa. Such changes were significantly attenuated by scavenger pretreatment. The uptake of p-aminohippurate in cortical slices and microsomal Na(+)-K(+)-ATPase activity were depressed in kidneys subjected to 72 h of reflow following ischemia, indicating impairment of tubular transport function, which were significantly attenuated by scavenger treatment. Renal blood flow 72 h after reflow was markedly reduced and it was restored by scavenger pretreatment. When animals were pretreated with a potent antioxidant DPPD, lipid peroxidation in cortex and medulla was significantly inhibited. However, ischemia-induced impairment of renal function was not attenuated by pretreatment of the antioxidant. These results suggest that radical scavengers may exert a protective effect against ischemia acute renal failure by other actions rather than ROS scavenging. Thus, the data do not support involvement of ROS in IARF in rabbits.
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PMID:Effects of radical scavengers and antioxidant on ischemic acute renal failure in rabbits. 1004 13


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