UMLS:C0011570 - FACTA Search

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Query: UMLS:C0011570 (depression)
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The effects of ethanol alone and in combination with sulphanilyl fluoride on some of the antioxidant defences in the stomach of rats have been examined. These effects were correlated with lesion formation in the gastric mucosa. Oral administration of ethanol induced gastric lesions which were prevented by sulphanilyl fluoride pre-treatment. N-Ethylmaleimide antagonized the anti-lesion action of sulphanilyl fluoride. Ethanol administration lowered the glucose-6-phosphate dehydrogenase activity in the gastric mucosa, an effect potentiated by N-ethylmaleimide pre-treatment. The total superoxide dismutase activity was unaffected by the drugs used in the present study. Ethanol, however, markedly increased mucosal catalase activity which was reduced by sulphanilyl fluoride pretreatment and reversed by N-ethylmaleimide. It is concluded that the ulcerogenic mechanism of ethanol is mediated at least in part by the depression of the hexose monophosphate shunt and the production of active oxygen species, whereas the anti-lesion action of sulphanilyl fluoride is probably not mediated through these mechanisms.
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PMID:Ulcerogenic mechanism of ethanol and the action of sulphanilyl fluoride on the rat stomach in-vivo. 168 63

Studies indicate that simple hemorrhage produces a profound depression of cell-mediated immunity, thereby contributing to an enhanced susceptibility to septic challenge in the host. However, it remains unknown whether or not the macrophages' cytotoxic capacity is altered after hemorrhage. To study this, C3H/HeN mice were bled to and maintained at a blood pressure of 35 mm Hg for 60 min, and adequately resuscitated. Mice were then killed at 2 or 24 h after hemorrhage to obtain peritoneal macrophage, splenic macrophage, and Kupffer cells. Cytotoxicity was assessed by determining the capacity of these macrophages to lyse [3H]TdR labeled WEHI-164 clone 13 or P815 tumor target cells (WEHI-164, sensitive to both soluble and cell-associated TNF vs P815 cells, insensitive to soluble TNF). Peritoneal and splenic macrophages from hemorrhaged animals exhibited a significantly reduced cytotoxic capacity, whereas Kupffer cells' ability to kill the target cells was enhanced. Similarly, the Kupffer cells' capacity to release TNF and IL-1, as well as express cell-associated forms of this cytokine are significantly enhanced on macrophages isolated 2 h after hemorrhage, whereas peritoneal macrophages are not. Furthermore, antibodies directed at mouse TNF but not against murine IL-1 alpha or murine IL-6 were able to oblate the enhanced target cell lysis of unfixed, as well as paraformaldehyde fixed (metabolically inactive) Kupffer cells. Studies using inhibitors (GN-monomethyl-arginine, superoxide dismutase, catalase, and ibuprofen) of other TNF-inducible mechanisms of target cell killing indicated that only the inhibition of the release of reactive nitrogen consistently depressed the cytotoxic capacity of Kupffer cells from hemorrhaged mice. Thus, the increased Kupffer cell cytotoxicity from hemorrhaged mice is most likely mediated through the expression of cell-associated TNF and the release of reactive nitrogen.
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PMID:Hemorrhage induces enhanced Kupffer cell cytotoxicity while decreasing peritoneal or splenic macrophage capacity. Involvement of cell-associated tumor necrosis factor and reactive nitrogen. 175 90

Our previous studies have shown that a phagocytic challenge with IgG-coated erythrocytes (EIgG) depressed macrophage triggered H2O2 production in vitro, and in vivo there was a decrease in the survival rate following bacteremia. The phagocytosis of an equal number of IgG-coated erythrocyte ghosts had none of these effects, indicating that the contents of the erythrocytes are important for these effects. The present study evaluated the role of the scavengers of reactive oxygen intermediates within erythrocytes in the depression of H2O2 production triggered with phorbol myristate acetate following a phagocytic challenge with EIgG. Elicited rat peritoneal macrophages (PM) were challenged with EIgG prepared from normal E or E with inactivated catalase, depleted glutathione, hemoglobin converted to methemoglobin, or fixed with formaldehyde. The depression of triggered H2O2 production was similar when equal numbers of normal EIgG and EIgG with inactivated scavengers were phagocytized. When the phagocytic challenge with normal EIgG was carried out in the presence of cytochalasin B, no depression of triggered H2O2 production was observed. Cytochalasin B partially blocked the phagocytosis of EIgG, so that with larger doses of EIgG there was sufficient ingestion of EIgG to depress H2O2 production in untreated PM. These results indicate that the scavengers of reactive oxygen intermediates present in erythrocytes are neither required nor sufficient to depress H2O2 production by macrophages.
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PMID:Scavengers of reactive oxygen intermediates do not mediate the depression of macrophage hydrogen peroxide production caused by erythrocyte phagocytosis. 175 28

Endothelium-derived relaxing factor (EDRF) is rapidly inactivated by radicals. Endothelial cells possess several antioxidant defense mechanisms. It is not clear which intrinsic antioxidant defense systems are important to preserve the release of biologically active EDRF. We impaired antioxidant defense in normal vascular tissue by inhibiting catalase activity with 3-amino-1,2,4-triazole (AT), superoxide dismutase with diethyldithiocarbamate (DETC), and by reducing glutathione content via inhibiting glutathione synthesis with L-buthionine-(S,R)-sulfoximine (BSO). Pretreatment of rabbit aorta in vitro with DETC markedly reduced endothelium-dependent relaxation in response to acetylcholine and calcium ionophore A23187 and, to a lesser extent, reduced endothelium-independent relaxation in response to nitroprusside. Pretreatment of cultured bovine aortic endothelial cells (BAEC) with DETC did not alter release of nitrogen oxides (measured by chemiluminescence), but, the effluent of pretreated cells showed marked depression in vasodilator activity (measured by bioassay). Pretreatment of rabbit aorta in vitro with AT did not alter endothelium-dependent and -independent relaxations. Pretreatment of BAEC with BSO did not alter the release of nitrogen oxides or the vasodilator activity. These results suggest that endothelial superoxide dismutase activity, but not catalase or glutathione, is necessary for the release of biologically active EDRF. An imbalance of the intrinsic superoxide dismutase and the production of superoxide anions may therefore predispose to impaired endothelium-dependent relaxations and alter vascular reactivity.
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PMID:Release of intact endothelium-derived relaxing factor depends on endothelial superoxide dismutase activity. 184 83

Changes in myocardial antioxidants due to different durations of hypoxia at normal or lower temperatures were correlated with the recovery of structure and function on reoxygenation. Hearts perfused with substrate-free hypoxic buffer at 37 degrees C for 5 or 10 min and at 22 degrees C for 10 min showed a significant depression in the contractile function and rise in resting tension. Reoxygenation of these hearts at 37 degrees C for 20 min resulted in a recovery of these functions. On reoxygenation, hearts made hypoxic for 10 min at 37 degrees C showed poor recovery of the contractile function, increase in malondialdehyde content and a dramatic increase in the creatine phosphokinase activity in the coronary effluent. Addition of catalase to the perfusion medium markedly improved function recovery of these hearts. Hypoxia at 37 degrees C for 5 min or at 22 degrees C for 10 min with or without reoxygenation had no effect on superoxide dismutase (SOD) or glutathione peroxidase (GSHPx) activities. These antioxidants were depressed in hearts made hypoxic for 10 min at 37 degrees C with no further change on reoxygenation. Neither SOD nor GSHPx was detected in the coronary effluent during hypoxia or reoxygenation. Hypoxia at 37 or 22 degrees C for 10 min caused significant ultrastructural changes, and on reoxygenation 37 degrees C hypoxic hearts showed exacerbation, whereas the 22 degrees C hypoxic hearts showed recovery. These data support the hypothesis that reduced antioxidant reserve during hypoxia may contribute to the oxidative injury on reoxygenation, suggesting that maintenance of endogenous antioxidant levels during hypoxia may be important for recovery.
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PMID:Correlation between antioxidant changes during hypoxia and recovery on reoxygenation. 188 13

When cold storage techniques used in cardiac transplantation are extended beyond 3 hours, there is significant depression in ventricular function. This study was undertaken to determine whether the addition of the amino acid L-glutamate or the oxygen free-radical scavengers superoxide dismutase (SOD) and catalase (CAT) during extended periods of cold storage would improve ventricular function. Fifteen rabbit hearts were placed on a Langendorff apparatus, arrested with crystalloid potassium cardioplegia, stored in iced saline solution (3 degrees C) for 5 hours, and then reperfused at 37 degrees C for 1 hour. In five hearts L-glutamate (4 mmol/L) was added to the cardioplegic and reperfusate solutions, and five hearts received SOD (1500 units/kg/L) and CAT (3500 units/kg/L), whereas in five others the cardioplegic and reperfusate solutions were unmodified. Hearts treated with L-glutamate had the best recovery of positive dP/dt (79%* glutamate vs 49%* SOD and CAT vs 36% unmodified), negative dP/dt (76%* glutamate vs 53% SOD and CAT vs 45% unmodified), developed pressure (67%* glutamate vs 51% SOD and CAT vs 45% unmodified), and coronary flow (81%* glutamate vs 79%* SOD and CAT vs 62% unmodified). We conclude that substrate enhancement with L-glutamate provides superior myocardial protection than is possible with the oxygen free-radical scavengers SOD and CAT during extended periods of cold storage for cardiac transplantation.
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PMID:Superiority of substrate enhancement over oxygen free-radical scavengers during extended periods of cold storage for cardiac transplantation. 197 66

The purpose of this study was to determine whether intrinsic contraction-relaxation properties of coronary arteries are altered during acute gram-negative endotoxemia. Coronary vascular smooth muscle (VSM) was evaluated in vitro using large and small left circumflex coronary ring preparations isolated from dogs 4 h after administration of either saline (control; C) or 1.5 mg/kg Escherichia coli endotoxin (ET). ET dogs exhibited marked systemic hypotension and cardiovascular depression throughout the 4-h in vivo phase of the study accompanied by reduction in total left ventricular myocardial blood flow. Isolated coronary vessels were stretched to the apex of the length-contractile tension curve; no differences were observed in length-active or length-passive tension (vessel compliance) relationships between C and ET vessels. Isometric contractions produced by K+ and prostaglandin F2 alpha (PGF2 alpha) were similar in C and ET coronary arteries. VSM relaxant responses to nitroprusside (NP; 10(-10) to 10(-4) M) were also similar in C and ET vessels. In contrast to the apparent lack of effect of ET on directly acting VSM agents, relaxation responses to the endothelial-dependent vasodilator acetylcholine (ACh) were significantly less in ET vessels. Impaired vasodilator response to ACh was not improved by in vivo treatment with the combination antioxidant therapy of allopurinol, superoxide dismutase, and catalase. We conclude that both depolarization (K+) and receptor (PGF2 alpha)-mediated contractile mechanisms, as well as basal cGMP (NP)-mediated vasodilator mechanisms, remained functional in coronary vasculature during acute endotoxemia. Inhibition of ACh-mediated relaxation in ET vessels suggests altered endothelial-dependent vasodilation in coronary arteries during endotoxemia, but this change did not seem to be associated causally with oxygen free radicals.
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PMID:Coronary vascular smooth muscle function in E. coli endotoxemia in dogs. 200 Sep 78

Polymorphonuclear (PMN) leukocyte activation is known to result in the production and release of oxygen free radicals and hypochlorous acid. Various clinical conditions are associated with PMN leukocyte stimulation. The present investigation deals with the effects of stimulated PMN leukocytes in the absence and in the presence of scavengers of oxygen free radicals (superoxide dismutase, catalase), hypochlorous acid quencher (methionine), and myeloperoxidase inhibitor (azide) on cardiac function and contractility; blood lactate, gases, and pH levels, blood and cardiac tissue malondialdehyde; and PMN leukocyte chemiluminescence activity in anesthetized dogs. Opsonised zymosan was used for stimulation of PMN leukocytes, and the effects were observed for 2 hours. The dogs were divided into four groups: group I, zymosan; group II, superoxide dismutase + catalase + zymosan; group III, methionine + zymosan; group IV, azide + methionine + zymosan. Zymosan produced a decrease in cardiac function and in indices of myocardial contractility and an increase in systemic and pulmonary vascular resistance. There was a decrease in blood pH and in PMN leukocyte chemiluminescense and an increase in the blood lactate and malondialdehyde. Superoxide dismutase plus catalase and methionine reduced the effect of zymosan on cardiac function and contractility and on blood malondialdehyde, lactate, and pH. The combination of azide and methionine did not prevent the deleterious effects of zymosan on cardiac function and contractility. Cardiac tissue malondialdehyde levels were lower in groups III and IV than in groups I and II which had values similar to each other. Methionine was superior to superoxide dismutase plus catalase in the prevention of the deleterious effects of PMN leukocyte stimulation on the various measured parameters. These results suggest that oxygen free radicals and hypochlorous acid are cardiac depressants and increase systemic and pulmonary vascular resistance in addition to causing tissue damage. Clinical situations with PMN stimulation may result in cardiac depression. The oxygen free radical scavenger and hypochlorous acid quencher may be beneficial in the counteraction of the deleterious effects of PMN leukocyte stimulation on the hemodynamic parameters and cellular integrity.
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PMID:Effect of polymorphonuclear leukocyte-derived oxygen free radicals and hypochlorous acid on cardiac function and some biochemical parameters. 215 22

Effects of oxygen free radicals on Ca2+/Mg2+ ATPase and ATP-independent Ca2(+)-binding activities were examined in rat heart sarcolemma. Membranes were incubated with different oxygen radical generating media such as xanthine + xanthine oxidase, hydrogen peroxide, and hydrogen peroxide + Fe2+. In the presence of xanthine + xanthine oxidase, Ca2+ ATPase activity was stimulated and this effect was prevented by the addition of superoxide dismutase. Hydrogen peroxide also showed a significant increase in Ca2(+)-ATPase activity in a dose-dependent manner and this effect was blocked by catalase. On the other hand, a combination of hydrogen peroxide + Fe2+ decreased Ca2(+)-ATPase activity; this depression was prevented by the addition of D-mannitol. The observed change in Ca2(+)-ATPase activity due to oxygen free radicals was associated with changes in Vmax, whereas Ka remained unaffected. Both xanthine + xanthine oxidase and hydrogen peroxide increased whereas, hydrogen peroxide + Fe2+ inhibited the ATP-independent Ca2(+)-binding activities. It is suggested that oxygen free radicals may influence Ca2+ movements in the cell by altering the Ca2+/Mg2+ ATPase and Ca2(+)-binding activities of the membrane and these effects may be oxygen-radical species specific.
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PMID:Alterations in heart sarcolemmal Ca2(+)-ATPase and Ca2(+)-binding activities due to oxygen free radicals. 215 97

Numerous studies have indirectly suggested that oxygen-derived free radicals play an important pathogenetic role in the prolonged depression of contractile function observed in myocardium reperfused after reversible ischemia (myocardial "stunning"). In order to provide direct evidence for the oxy-radical hypothesis of stunning, we administered the spin trap, alpha-phenyl N-tert-butyl nitrone (PBN), to open-chest dogs undergoing a 15-min coronary artery occlusion followed by reperfusion. Plasma of local coronary venous blood was analyzed by electron paramagnetic resonance (EPR) spectroscopy. EPR signals characteristic of radical adducts of PBN appeared during ischemia and increased dramatically in the first few minutes after reperfusion. After this initial burst, the production of adducts abated but did not cease, persisting up to 3 h after reflow. The production of PBN adducts after reperfusion was inversely related to collateral flow during ischemia. PBN itself enhanced recovery of contractile function, indicating that the radicals trapped may play a pathogenetic role in myocardial stunning. Superoxide dismutase plus catalase attenuated PBN adduct production and, at the same time, improved recovery of contractile function. Antioxidant therapy given 1 min before reperfusion suppressed PBN adduct production and improved contractile recovery; however, the same therapy given 1 min after reperfusion did not suppress early radical production and did not attenuate contractile dysfunction. After i.v. administration, the elimination half-life of PBN was estimated to be approximately 4-5 h. The results demonstrate that 1) free radicals are produced in the stunned myocardium in intact animals; 2) inhibition of free radical production results in improved contractile recovery; and 3) the free radicals important in causing dysfunction are produced in the first few minutes of reperfusion. Taken together, these studies provide cogent evidence supporting the oxy-radical hypothesis of stunning in open-chest dogs. It is now critical to determine whether these results can be reproduced in conscious animal preparations.
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PMID:Use of spin traps in intact animals undergoing myocardial ischemia/reperfusion: a new approach to assessing the role of oxygen radicals in myocardial "stunning". 216 54

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