UMLS:C0011570 - FACTA Search

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Query: UMLS:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The preventive effects of intravenously administered superoxide dismutase (SOD) and of SOD combined with sucrose on acute renal failure were investigated in rat kidneys exposed to 45 min of warm ischaemia. Superoxide dismutase (20 mg) given just before primary ischaemia and in the early recirculation phase was found to ameliorate the red cell aggregation in the renal medulla, in particular, in the inner stripe of the outer zone the volume of trapped red cells decreased from 11.2 +/- 1.6% in untreated animals to 0.02 +/- 0.001%, thus allowing improved restoration of medullary blood flow. This was also accompanied by an expected restoration of the urine osmolality reaching almost 400 mOsm kg-1 after administration of SOD + sucrose. Superoxide dismutase also restored the capillary macromolecular permeability as evidenced by normalization of plasma to lymph transport of proteins. Micropuncture studies showed that in ischaemically damaged but untreated kidneys the tubules were obstructed and that the proximal tubular pressure rose to such a level that the net driving force for filtration approached zero. This explains the marked decrease in glomerular filtration rate (GFR) from a normal value of about 1 ml min-1 to 0.01 +/- 0.02 ml min-1. After treatment with SOD the tubules were still largely obstructed, resulting in a depression of the net driving force and a decrease in single nephron glomerular filtration rate (SNGFR) to about 11 nl min-1, that is, to only 25% of the normal SNGFR. The total filtration was 0.09 +/- 0.04 ml min-1.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Prevention of ischaemic acute renal failure with superoxide dismutase and sucrose. 363 Jul 18

Previous work has demonstrated that myocardial ischemia results in a breakdown of the excitation-contraction coupling system of cardiac muscle associated with lysosomal activation. It has been hypothesized that lysosomal activation during the course of myocardial ischemia is mediated by the production of oxygen free radicals. We have tested the hypothesis that myocardial ischemia results in the activation of lysosomal phospholipase C and disruption of calcium transport in sarcoplasmic reticulum (SR) mediated by oxygen free radicals. Three groups of dogs were studied: sham-operated controls (n = 6); normothermic global ischemia of 30-min duration (n = 6); and 30 min of normothermic global ischemia pretreated with intracoronary superoxide dismutase (SOD, 10 micrograms/ml) plus catalase (25 micrograms/ml). In vitro, isolated SR demonstrated a significant depression of calcium uptake rates and Ca2+-stimulated, Mg2+-dependent ATPase activity at both pH 7.0 and 6.4 with the depression at pH 6.4 greater than 7.0. This depression of SR function was significantly inhibited in hearts pretreated with SOD plus catalase. In sham-operated controls, acid-induced dysfunction was associated with substantial loss of phospholipid phosphorus and major changes in phospholipid composition. SR contained an extremely active, ion-independent sphingomyelinase-phospholipase C (SM-PLC) that had maximal activity at pH 4.5-5.0. This SM-PLC was activated when control SR was incubated at acid pH and the specific activity of SM-PLC was decreased 50% in SR isolated from normothermic global ischemia. Activity remained at control levels in hearts pretreated with SOD plus catalase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Sarcoplasmic reticulum dysfunction: phospholipid alterations induced by lysosomal phospholipase C. 377 91

The oxygen consumption of cerebral arterioles from anesthetized cats was measured using the Cartesian diver microrespirometer following in vitro incubation with 200 micrograms/ml of arachidonate or 50 micrograms/ml of 15-hydroperoxy-eicosatetraenoic acid (15-HPETE). Both agents depressed oxygen consumption severely. This effect was inhibited completely by a combination of superoxide dismutase (SOD) and catalase, indicating that it is mediated by oxygen radicals. Similar depression of oxygen consumption was observed during incubation of the vessels with xanthine oxidase and acetaldehyde as substrate. This enzymic system is known to generate superoxide and hydrogen peroxide. The effect of xanthine oxidase was also partially inhibited by SOD and catalase. The effect of arachidonate was partially inhibited by cyclooxygenase inhibitors. The effect of lipoxygenase inhibitors could not be adequately tested because they depressed oxygen consumption by themselves. Prostaglandins H2 and E2 had no effect on arteriolar oxygen consumption. The results show that arachidonate and 15-HPETE in high concentration depress cerebral arteriolar oxygen consumption via an oxygen radical-mediated mechanism. Furthermore, the radical is generated in the vessel wall and does not require either the brain parenchyma or the formed elements of the blood or the meninges for its production.
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PMID:Reduction in cerebral arteriolar oxygen consumption by arachidonate. 392 Sep 21

To further delineate the mechanisms underlying murine pulmonary defenses against bacterial infection, we studied the effects of antioxidant enzymes and hydroxyl radical scavengers on pulmonary clearance processes. Intratracheal injection of catalase and superoxide dismutase resulted in prolonged intraalveolar residence of the enzymes, but caused no decrease in rates of clearance of either Staphylococcus aureus 502A or Pseudomonas aeruginosa PAO1. In contrast, dimethylsulfoxide and dimethylthiourea caused significant depression of clearance of P. aeruginosa without altering clearance of S. aureus. These results provide further differentiation between clearance processes affecting gram-negative and gram-positive bacteria and suggest that murine clearance of gram-negative organisms may be in part mediated by reactions which generate hydroxyl anion. In vivo administration of agents which inhibit hydrogen peroxide-, superoxide-, or hydroxyl anion-mediated reactions do not alter normal clearance of S. aureus.
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PMID:Modulation of pulmonary clearance of bacteria by antioxidants. 398 94

Effects of exogenous antioxidant administration (0.5% and 2% ascorbate, beta-carotene and alpha-tocopherol in sucrose) on life-span, metabolic rate, activities of superoxide dismutase and catalase, levels of glutathione, inorganic peroxides and chloroform-soluble fluorescent material (lipofuscin) were examined in adult male houseflies. Administration of antioxidants at a level of 0.5% did not affect life-span, whereas, 2% ascorbate and alpha-tocopherol decreased average life-span. Metabolic rate of flies was unaffected, except by 2% ascorbate, which caused a decrease. Superoxide dismutase activity was depressed by 2% ascorbate at all ages, and by beta-carotene and alpha-tocopherol in older flies. Catalase activity was unaffected except by alpha-tocopherol at younger ages. Glutathione concentration was decreased by ascorbate and beta-carotene at both concentrations administered. Inorganic peroxides (H2O2) were increased by 2% beta-carotene and alpha-tocopherol. Only high concentrations of ascorbate and beta-carotene decreased the level of soluble fluorescent material. Results suggest that administration of exogenous antioxidants causes a compensatory depression of endogenous defenses.
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PMID:Effects of exogenous antioxidants on the levels of endogenous antioxidants, lipid-soluble fluorescent material and life span in the housefly, Musca domestica. 406 68

Changes in the contractility of rabbit myocardium following administration of diethyl dithiocarbamate were studied to determine the role of superoxide dismutase (SOD) in cardiac support function. It was observed that in healthy rabbits, a 50% decrease in the left ventricle SOD level induced by the inhibitor was not followed by any considerable disturbances in myocardial contractility as determined without additional stimulation and load. HBO sessions caused appreciable disorders in heart contractility which could be partly prevented by SOD administration. In rabbits with adrenaline-induced heart lesions, depression of myocardial contractility induced by the inhibitor alone or in combination with intensive oxygenation was also observed.
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PMID:[Superoxide dismutase inhibition as a prerequisite for disordered myocardial function under oxygen loading]. 609 9

Human peripheral blood leukocytes, activated by phorbol myristate acetate, disrupt canine sarcoplasmic reticulum calcium transport, in vitro, by an oxygen-derived free radical mechanism. Activated leukocytes significantly depress Ca++ uptake activity and Ca++ -stimulated, Mg++ -dependent ATPase activity. The depression is completely inhibited by sodium-azide (0.1 mM) or the combination of superoxide dismutase (10 micrograms/ml) and catalase (10 micrograms/ml). Exogenous hydrogen peroxide (0.441-4.41 mM) uncoupled Ca++ uptake activity from ATP hydrolysis, and this effect was inhibited by catalase. Mannitol alone did not inhibit the effects of activated leukocytes, but superoxide plus mannitol (20-100 mM) resulted in normal ATPase activity, while Ca++ uptake remained depressed. In the presence of indomethacin and ibuprofen, activated leukocytes depressed Ca++ uptake and had no effect on ATPase activity. 2-Amino-methyl-4-t-butyl-6-iodophenol (MK-447) further depressed Ca++ uptake and partially inhibited the effect on ATPase activity. Indomethacin plus catalase completely inhibited the effects of activated leukocytes on cardiac sarcoplasmic reticulum. We conclude, first, that activated leukocytes depress canine cardiac sarcoplasmic reticulum Ca++ transport by an oxygen-free radical mechanism with the generation of hydrogen peroxide and hydroxyl radical. In addition to the classical membrane NADPH oxidase system, significant oxygen radical generation can occur through the cyclooxygenase pathway of arachidonic acid metabolism, and seems to be responsible for the generation of the hydroxyl radical.
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PMID:Hydrogen peroxide and hydroxyl radical mediation of activated leukocyte depression of cardiac sarcoplasmic reticulum. Participation of the cyclooxygenase pathway. 613 70

Glucose, insulin, potassium (GIK: 300 g glucose + 50 U insulin + 80 mEq KC1/L) was administered to anesthetized dogs as a 30-ml bolus followed by 1.5 ml/kg/h for 2 h. Five populations were studied: control (C, n = 6); 60 min hypothermic arrest both without (I, n = 6) and with pretreatment (I + GIK, n = 6); 60 min hypothermic arrest followed by reperfusion without (R, n = 6) and with pretreatment (R + GIK, n = 6). Glycogen content declined during the ischemic and reperfusion periods whether or not GIK pretreatment was utilized. Glycogen values did not differ significantly among the four groups. GIK pretreatment significantly protected sarcoplasmic reticulum (SR) calcium uptake rates. SR Ca2+ + Mg2+ adenosine triphosphatase (ATPase) activity was unaffected in the I group, depressed in the R group, but protected by GIK pretreatment. Myofibrillar pCa-ATPase activity was significantly depressed in the I group and unaffected by GIK pretreatment. In the R + GIK group, myofibrillar pCa-ATPase activity was identical to controls at all calcium concentrations except for Vmax. In vitro, generation of the superoxide anion by a xanthine-xanthine oxidase system at pH 7.0 significantly depressed both SR calcium uptake and ATPase activity, and this depression was partially reversible by glucose. Generation of the hydroxyl free radical and pH 6.4 significantly depressed calcium uptake but not ATPase activity, and this depression was reversible with glucose + superoxide dismutase. GIK pretreatment exerts a protective effect on the excitation-contraction coupling system during hypothermic global ischemia and reperfusion. Glycogen augmentation after short-term GIK infusion was not significantly different. It is hypothesized that an additional mechanism by which GIK may protect subcellular function is by serving as a scavenger of free radicals generated during the ischemic/reperfusion process.
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PMID:Glucose, insulin, potassium protection during the course of hypothermic global ischemia and reperfusion: a new proposed mechanism by the scavenging of free radicals. 618 57

In vitro generation of free radicals by xanthine oxidase acting on hypoxanthine as a substrate induced a decreased calcium uptake velocity and reduced calcium-dependent ATPase activity of isolated sarcoplasmic reticulum (SR) vesicles from canine masseter muscle at pH 7.0. At pH 5.5 calcium uptake velocity was also reduced but ATPase activity was unaffected. Application of arachidonic acid or prostaglandin G2 induced the depression of both calcium uptake velocity and ATPase activity. The effect of arachidonic acid and prostaglandin G2 on ATPase activity depended on the pH. At pH 7.0, ATPase activity was decreased, but at pH 5.5 it was unchanged. These effects were reversed by superoxide dismutase (SOD) at pH 7.0, and by SOD plus mannitol at pH 5.5. Prostaglandin H2, prostaglandin E2 and 11,14,17-eicosatrienoic acid had no effect on calcium uptake velocity and ATPase activity at both pH 7.0 and pH 5.5. These results suggest that damage to the masseter muscle is caused by a free radical superoxide anion generated as a result of increased prostaglandins synthesis, and by the production of more lethal hydroxyl radical switched from the production of superoxide anion at low pH.
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PMID:Free radical damage to sarcoplasmic reticulum of masseter muscle by arachidonic acid and prostaglandin G2. 621 88

Acute myocardial ischemia results in a decrease in developed tension and an increase in resting tension. A breakdown of the excitation-contraction coupling system can explain the behavior of the ischemic muscle at a subcellular level. We have identified a specific defect in the sarcoplasmic reticulum (SR) from the ischemic myocardium; i.e., the uncoupling of calcium transport from ATP hydrolysis. The mediators of this excitation-contraction uncoupling process have not been identified. It is now established that the intracellular pH of the ischemic myocardium is in the range of 6.4 but the role of protons and potential role of free radicals have not been identified. We have hypothesized that protons and free radicals may interact to produce the excitation-contraction uncoupling of the ischemic myocardium. Cardiac SR was isolated from the wall of canine left ventricle and calcium uptake velocity and Ca2+ stimulated-Mg2+ dependent ATPase activity determined. Increasing proton concentration between pH 7.0 and 6.4 significantly reduced calcium uptake rates (pH 7.0 = 0.95 +/- 0.02; 6.4 = 0.50 +/- 0.02 mumoles Ca2+/mg-min; p less than 0.01) with no effect on ATPase activity. Calculated coupling ratios (mumoles Ca2+/mumoles Pi) decreased from 0.87 +/- 0.06 at pH 7.0 to 0.51 +/- 0.05 at pH 6.4. At pH 7.0, the generation of exogenous free radicals from the xanthine-xanthine oxidase system significantly depressed both calcium uptake rates (Control = 0.95 +/- 0.02; X+XO = 0.15 +/- 0.02) and ATPase activity (Control = 1.05 +/- 0.02; X+XO + 0.30 +/- 0.01 mumoles Pi/mg-min; p less than 0.01). The decreases in calcium uptake and in ATPase activity were completely reversible with superoxide dismutase (SOD). At pH 6.4 in the presence of xanthine and xanthine oxidase, there is a further depression of calcium uptake rates (Control = 0.50 +/- 0.02; X+XO = 0.11 +/- 0.01; p less than 0.05) but there is no SOD reversible component. The addition of SOD + 20mM mannitol normalized calcium transport at pH 6.4. The calculated coupling ratio at pH 6.4 in the presence of free radicals was 0.13. In contrast sarcoplasmic reticulum isolated from ischemic myocardium demonstrated a significant depression of calcium uptake rates at pH 7.1 which was further accentuated at pH 6.4. Ca2+-ATPase was significantly depressed at pH 7.1 but there was no accentuation at pH 6.4. It is concluded that no single species of free radical can explain the intracellular excitation-contraction uncoupling of the ischemic myocardium. The system can be explained by the interaction of hydrogen ions and superoxide anions producing both injury to the sarcoplasmic reticulum and the formation of lipid free radicals with hydroxyl-like activity.
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PMID:Mediation of sarcoplasmic reticulum disruption in the ischemic myocardium: proposed mechanism by the interaction of hydrogen ions and oxygen free radicals. 630 8

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