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

The present study was undertaken to investigate the role of endogenous hydrogen peroxide (H2O2) in cardiac depression and cytotoxicity during hemorrhagic shock and reinfusion. To achieve this objective, the changes in the cardiac function and contractility, plasma creatine kinase (CK) and CK-MB activity and lactate concentration, oxyradical-producing activity of polymorphonuclear leukocytes (PMNL-CL), and cardiac malondialdehyde (MDA) concentration in anesthetized dogs were determined before and during shock and reinfusion in the presence of absence of catalase (a metabolizer of H2O2). The dogs were divided into three groups randomly. Group I: sham, four hour duration; group II: two hours of shock followed by two hours of reinfusion; group III: same as group II but pretreated with catalase. Hemorrhage shock was produced in the dogs by lowering the mean arterial pressure to 50 +/- 5 mm Hg by bleeding into standard blood bank bags containing 63 mL of citrate, phosphate, dextrose, and adenine (CPDA) anticoagulant for 450 mL of blood. The shock was maintained for two hours by bleeding or reinfusing the shed blood as needed. Cardiac function and contractility were depressed while plasma CK, CK-MB, and lactate increased during shock. Reinfusion after two hours of shock tended to return hemodynamic parameters and plasma lactate levels toward control values. Plasma CK and CK-MB and PMNL-CL increased further. Cardiac MDA content also increased after shock and reinfusion, suggesting oxidative damage. Pretreatment with catalase attenuated the deleterious effects of shock and reinfusion on the cardiovascular function and contractility, and the rise in plasma CK, CK-MB, and lactate, PMNL-CL, and cardiac MDA. However, the protection with catalase was not complete. These results suggest that hydrogen peroxide (H2O2) may partly be involved in the deterioration of cardiovascular function and cellular injury during hemorrhagic shock and reinfusion.
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PMID:Beneficial effects of antioxidants in hemorrhagic shock. 772 48

Considerable phospholipase D (PLD) activity is localized in myocardial sarcoplasmic reticular (SR) membranes, where it may take part in the regulation of Ca2+ movements. In this study, we examined thiol group dependence as a possible regulatory mechanism for SR PLD. SR membranes isolated from rat heart were exposed to four types of thiol group modifiers, which all induced a decrease in SR PLD activity that was prevented by dithiothreitol. Furthermore, since abnormalities in thiol status and Ca2+ homeostasis are characteristic for the myocardial cell damage induced by oxidative stress, we also studied the effects of oxidants on the SR PLD activity. The enzyme was not affected by xanthine-xanthine oxidase, but was depressed by hydrogen peroxide and by hypochlorous acid. These inhibitory effects were prevented by catalase as well as by methionine and dithiothreitol, respectively. Furthermore, reduced glutathione protected against the hydrogen peroxide-induced depression, whereas oxidized glutathione inhibited SR PLD. The results indicate that SR PLD activity is inhibited by nonradical oxidants, hydrogen peroxide and hypochlorous acid, through reversible modification of associated thiol groups. Thus, the enzyme may be controlled by the glutathione redox status of the cardiac cell.
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PMID:Involvement of thiol groups in the impairment of cardiac sarcoplasmic reticular phospholipase D activity by oxidants. 778 Jun 80

We investigated the effects of hemorrhagic shock and reinfusion on the cardiac function and contractility, plasma CK and CK-MB activity and lactate concentration, oxyradical-producing activity of polymorphonuclear leukocytes (PMNL-CL), cardiac chemiluminescence (LV-CL), antioxidant enzymatic activity [superoxide dismutase (SOD), catalase, glutathione peroxidase (GSH-Px)], and malondialdehyde (MDA) concentration in anesthetized dogs, to determine the role of oxyradicals in cardiac depression and cellular injury in hemorrhagic shock and reinfusion. The dogs were assigned to four groups: group I (sham), 4 hrs duration; group II, 4 hr of shock; group III, 2 hr of shock, followed by reinfusion for 2 hr; and group IV, as in group III, but pretreated with SOD and catalase. Hemorrhagic shock was produced by withdrawing blood to maintain the mean arterial pressure at 50 +/- 5 mm Hg. Cardiac function and contractility were depressed during hemorrhagic shock. Plasma CK; CK-MB and lactate; and cardiac MDA, Mn-SOD, and CuZn-SOD increased, while catalase activity decreased during shock. Following reinfusion after 2 hr of shock, hemodynamic parameters and plasma lactate tended to return toward control values. Plasma CK and CK-MB, PMNL-CL and cardiac MDA, total SOD, Mn- and CuZn-SOD increased further, while LV-CL and GSH-Px decreased. In spite of the increased antioxidant reserve, oxidative damage was noted. Pretreatment with SOD and catalase attenuated the deleterious effects of shock and reinfusion on the cardiovascular function, plasma CK, CK-MB, and lactate, PMNL-CL, cardiac MDA and SOD, and LV-CL. Protection was incomplete for cardiovascular function and plasma CK and CK-MB. These results suggest that oxyradicals (O2-, H2O2) may be partly involved in the deterioration of cardiovascular function and cellular injury during hemorrhagic shock and reinfusion.
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PMID:Role of oxyradicals in cardiovascular depression and cellular injury in hemorrhagic shock and reinfusion: effect of SOD and catalase. 783 24

In the olfactory-bulbectomised rat model of depression, neutrophil phagocytosis was significantly decreased and phagocytosis started later in comparison to sham-operated animals. Both desipramine and lithium chloride treatment significantly reversed the depressed neutrophil phagocytosis and shortened the time to commencement of phagocytosis in drug-treated bulbectomised rats. The catalase and glutathione peroxidase (GSH-PX) activities in bulbectomised rats were decreased, while superoxide dismutase (SOD) was significantly increased. Chronic desipramine and lithium chloride treatment slightly improved catalase activity in the bulbectomised rats. Desipramine significantly reversed the reduction in activity of GSH-PX, but failed to reverse the increased activity of SOD. In contrast, lithium chloride significantly reversed SOD activity to normal values, without affecting GSH-PX activity in the bulbectomised rats.
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PMID:Catalase, superoxide dismutase and glutathione peroxidase activity in neutrophils of sham-operated and olfactory-bulbectomised rats following chronic treatment with desipramine and lithium chloride. 796 55

In this study, we separated the effects of low oxygen supply and low coronary flow in isolated perfused rat hearts to focus on the genesis of free radicals-induced reperfusion injury. Hearts were exposed to either hypoxemia/reoxygenation or ischemia/reperfusion in various sequences, with hypoxemia and ischemia matched for duration (20 min), temperature (37 degrees C), and oxygen supply (10% of baseline). Hypoxemia/reoxygenation (n = 7) resulted in lower (developed pressure) x (heart rate) (p < 0.001) and higher end-diastolic pressure (p < 0.001) than ischemia/reperfusion (n = 9). The presence of 40 IU/ml superoxide dismutase and 104 IU/ml catalase nearly blunted the rise of the end-diastolic pressure (p = 0.02 vs. baseline), but could only partially prevent the depression of myocardial contractility (p < 0.001 vs. baseline, n = 7). Similar patterns were observed when hearts were made ischemic after hypoxemia, eliminating the intermediate reoxygenation step. We conclude that the major determinant of the reperfusion injury is associated with low oxygen supply rather than low coronary flow. Part of the injury is mediated by oxygen-derived free radicals, but a substantial portion of it is associated with energetic processes.
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PMID:Oxidative injury in reoxygenated and reperfused hearts. 800 21

This study was undertaken to investigate the effects of oxygen free radicals on myofibrillar creatine kinase activity. Isolated rat heart myofibrils were incubated with xanthine+xanthine oxidase (a superoxide anion radical-generating system) or hydrogen peroxide and assayed for creatine kinase activity. To clarify the involvement of changes in sulfhydryl groups in causing alterations in myofibrillar creatine kinase activity, 1) effects of N-ethylmaleimide (sulfhydryl groups reagent) on myofibrillar creatine kinase activity, 2) effects of oxygen free radicals on myofibrillar sulfhydryl groups content, and 3) protective effects of dithiothreitol (sulfhydryl groups-reducing agent) on the changes in myofibrillar creatine kinase activity due to oxygen free radicals were also studied. Xanthine+xanthine oxidase inhibited creatine kinase activity both in a time- and a concentration-dependent manner. Superoxide dismutase (SOD) showed a protective effect on the depression in creatine kinase activity caused by xanthine+xanthine oxidase. Hydrogen peroxide inhibited creatine kinase activity in a concentration-dependent manner; this inhibition was prevented by the addition of catalase. N-ethylmaleimide reduced creatine kinase activity in a dose-dependent manner. The content of myofibrillar sulfhydryl groups was decreased by xanthine+xanthine oxidase; this reduction was prevented by SOD. Furthermore, the depression in myofibrillar creatine kinase activity by xanthine+xanthine oxidase was protected by the addition of dithiothreitol. Oxygen free radicals may inhibit myofibrillar creatine kinase activity by modifying sulfhydryl groups in the enzyme protein. The reduction of myofibrillar creatine kinase activity may lead to a disturbance of energy utilization in the heart and may contribute to cardiac dysfunction due to oxygen free radicals.
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PMID:Modification of contractile proteins by oxygen free radicals in rat heart. 828 71

To understand the mechanism for the expulsion of Nippostrongylus brasiliensis from rats, age-dependent variations in the metabolism of reactive oxygen species in the parasite and the host intestines were examined. N. brasiliensis showed an age-dependent increase in its susceptibility to xanthine-xanthine oxidase and t-butyl hydroperoxide generated oxidants as well as to H2O2. Protection obtained with several scavengers suggested that the worms were damaged by the combined action of oxidants generated by the in vitro systems employed. The level of superoxide dismutase in the nematode and its release into the surroundings exhibited a marked depression with advancement of age. No such alteration was, however, recorded for catalase and glutathione peroxidase. An appreciable decrease in the level of reduced glutathione in older N. brasiliensis appears to render them prone to oxidant attack. The rat intestines, on the other hand, exhibited an appreciable depression in catalase and a reduced glutathione content with progress of the infection. Vitamin E levels were elevated. The release of O2-. and H2O2 by the intestines was also found to be greater during later stages of the infection. The combined effect of the changes observed in N. brasiliensis and in the rat intestines may be at least partly responsible for expulsion of the nematode from the rats after day 10.
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PMID:Role of reactive oxygen species in expulsion of Nippostrongylus brasiliensis from rats. 838 14

Toluene and its metabolites have been studied with respect to their reactive oxygen species-enhancing potential in isolated systems and in vivo. The induction of reactive oxygen species (ROS) production was assayed using the probe 2',7'-dichlorodihydrofluorescin diacetate (DCFH-DA). Intraperitoneal injection of toluene, benzyl alcohol or benzaldehyde caused a significant elevation in the rate of ROS formation within hepatic mitochondrial fractions (P2). In the brain, only toluene induced ROS formation, while benzyl alcohol and benzaldehyde did not have any effect. Glutathione (GSH) levels were depressed in liver and brain regions from toluene-treated rats. However, no such depression was evident in brains treated with toluene metabolites. P2 fractions from phenobarbital-pretreated rats exhibited a heightened ROS response when challenged with toluene, in vitro. Pretreatment of rats in vivo with 4-methylpyrazole, an alcohol dehydrogenase inhibitor, or sodium cyanamide, an aldehyde dehydrogenase inhibitor, prior to exposure to toluene, caused a significant decrease and increase, respectively, in toluene-stimulated rates of ROS generation in the CNS and liver. Electron spin resonance spectroscopy, employing the spin trap 5,5-dimethyl-1-pyrroline N-oxide (DMPO), was conducted. Incubation of the spin trap with P2 fractions and toluene or benzaldehyde elicited a spectrum corresponding to the hydroxyl radical. Incubation of benzaldehyde with aldehyde dehydrogenase produced a strong signal that was blocked completely by superoxide dismutase and inhibited partially by catalase, suggesting the presence of superoxide radicals and the involvement of the iron-catalyzed Haber-Weiss reaction leading to the production of hydroxyl radicals. Thus, ROS generation during toluene catabolism may occur at two steps: cytochrome P450 oxidation and aldehyde dehydrogenase oxidation. In addition, GSH may play an important role in protection against the induction of ROS generation in the CNS and liver following exposure to toluene.
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PMID:Free radical induction in the brain and liver by products of toluene catabolism. 839 73

This investigation aimed to determine whether contractile dysfunction of the myocardium could be produced upon generation of free radicals in the anaesthetised rat. The enzyme xanthine oxidase, combined with its substrate purine and an iron source, was used to generate free radicals in the venous circulation. The suspended form of xanthine oxidase, with substrate, produced a transient, significant depression in the contractile indices dP dt-1 max and dP dt-1 P-1 and arterial blood pressure, 1146 +/- 87 mm Hg s-1, 9 +/- 1 s-1, and 18 +/- 1 mm Hg, respectively. This could not be attenuated by the enzymatic free radical scavengers superoxide dismutase and catalase. Furthermore, the suspended xanthine oxidase alone or its vehicle were able to produce a similar effect to that of the complete free-radical-generating system. The maximum soluble dose of the crystalline form of the enzyme when employed in the generating system had no effect upon administration despite its production of superoxide radicals in vitro. These results suggest that the haemodynamic effects of the free-radical-generating system containing the suspended form of xanthine oxidase were due to the effects of its vehicle and that the free-radical-generating system containing the crystalline form of the enzyme did not produce sufficient free radicals in vivo to modify myocardial contractility.
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PMID:Effects of the xanthine oxidase system on cardiac function in anaesthetised rats. 840 24

Our previous studies show that intestinal ischemia impairs cardiac function. This present study examined the contribution of oxygen-derived free radicals to cardiac dysfunction after intestinal ischemia-reperfusion in a rat model of superior mesenteric artery (SMA) occlusion (atraumatic clip for 20 min) and ligation of collateral arcades from the right colic and jejunal arteries. Controls were sham operated (Group 1, n = 10); in Group 2, 20 rats with SMA occlusion were sacrificed 2-5 hr after reperfusion without treatment. Superoxide dismutase (SOD) and catalase, scavengers of oxygen-derived free radicals which have been shown to effectively reduce ischemic injury in several models of traumatic injury, were given as 6000 units/350 g body wt either 1 min after SMA occlusion (Group 3, n = 11) or 2 min after reperfusion (Group 4, n = 10). To examine the contribution of neutrophils as a source of free radicals, additional groups of animals were treated with pentoxifylline (PTX, a methylxanthine derivative which has been shown to decrease neutrophil adherence and aggregation as well as to decrease superoxide production) either 1 min after SMA occlusion (Group 5, n = 10) or 2 min after reperfusion (Group 6, n = 10). Cardiac contractile depression occurred in the untreated ischemic group as indicated by a fall in left ventricular pressure (from 77 +/- 3 to 63 +/- 4 mm Hg, P < 0.01) and +dP/dt max (from 1827 +/- 60 to 1558 +/- 98 mm Hg/sec, P < 0.03) and -dP/dt max (from 1267 +/- 57 to 953 +/- 68 mm Hg/sec, P < 0.02).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Free radical scavengers prevent intestinal ischemia-reperfusion-mediated cardiac dysfunction. 841 11


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