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)

Transient ischemia does not induce myocardial necrosis but may be associated with prolonged contractile dysfunction ("stunned" myocardium). It has been suggested that alteration of the excitation-contraction coupling system (sarcoplasmic reticulum) could be responsible for this phenomenon. We tested this hypothesis by characterizing sarcoplasmic reticulum (SR) function in an isolated rat heart model of "stunned" myocardium (hearts reperfused after 10 min of normothermic global ischemia). At the end of the ischemic period oxalate-supported Ca-uptake was depressed either in the whole homogenate or in isolated SR (to 47% and 22% of control values, respectively). During reperfusion Ca-uptake of the whole heart homogenate recovered almost completely whereas slight but significant depression persisted in isolated SR (48 +/- 2 vs 67 +/- 4 nmol/min x mg, P less than 0.01). In the presence of ruthenium red or ryanodine, two inhibitors of SR Ca-release channels, Ca-uptake was stimulated. Both in the whole heart homogenate and in isolated SR, such stimulation was remarkably smaller after reperfusion than in control conditions (P less than 0.001) suggesting reduced conductivity state of the SR Ca-release channels. Ca-stimulated, magnesium-dependent ATPase activity was remarkably reduced during ischemia and postischemic reperfusion induced only incomplete recovery (93 +/- 18 vs 169 +/- 14 nmol ATP/min x mg protein, P less than 0.05). We conclude that complex modifications of SR function occur in the "stunned" myocardium and could contribute to the contractile impairment found in this condition.
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PMID:Sarcoplasmic reticulum function in the "stunned" myocardium. 247 59

1. The effects of a six week period of streptozotocin-induced diabetes on tissue catecholamines and on in vivo noradrenaline turnover were assessed in rats. 2. Noradrenaline concentrations measured in heart ventricle, terminal ileum, vas deferens, spleen and adrenal tissue from the diabetic rats were all found to be elevated compared to those found in control rat tissues. The adrenaline contents of the adrenal glands were also raised in these animals. 3. Noradrenaline turnover in heart ventricle, terminal ileum and vas deferens was estimated from the decline in tissue content of the amine following inhibition of its synthesis with alpha-methyl-p-tyrosine. Turnover was found to be increased in all three tissues. 4. The involvement of the polyol pathway in the above changes was investigated by examining the effects of continuous treatment with an aldose reductase inhibitor, Statil (ICI 128436) or dietary myo-inositol supplementation. Either treatment was found to prevent or reduce the increases in tissue noradrenaline and in its turnover. Myo-inositol treatment also partially prevented the rise in adrenal adrenaline. 5. It is concluded that the elevation of tissue catecholamines and of noradrenaline turnover by diabetes was related to myo-inositol depletion secondary to excessive sorbitol synthesis. Possible mechanisms for the observed increase in noradrenaline turnover could involve Na+, K+-ATPase depression.
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PMID:Tissue noradrenaline and the polyol pathway in experimentally diabetic rats. 250 23

Three and 11 wk after coronary artery ligation in rats, the right and left ventricular free wall, septum, and papillary muscles from infarcted and sham-operated hearts were analyzed to determine whether regional variability existed in cardiac actomyosin adenosine triphosphate (ATPase) activity and myosin isoenzymes. Infarction produced a 74% greater right ventricular mass and 19% greater septal mass compared with sham-operated hearts at 3 wk. There was no additional increase in cardiac mass associated with infarction from 3 to 11 wk above that expected for normal growth. Actomyosin ATPase activity and the percent V1 myosin heavy-chain isoenzyme decreased significantly in all regions of the infarcted heart by 3 wk. In addition, the left ventricular and papillary muscle of infarcted hearts exhibited a decrease in percent V1 myosin of 18 and 35%, respectively, compared with the right ventricular free wall and septum. These differences persisted at 11 wk, although no further depression of actomyosin ATPase activity or shift in myosin isoenzyme distribution were observed over the 8-wk period. These results demonstrate that myocardial infarction induces a shift in the myosin isoenzyme distribution and depression in actomyosin ATPase activity of surviving cardiac tissue. Regional variability in myosin isoenzymes is evident by 3 wk, but additional adaptation in cardiac mass and myosin biochemistry do not occur beyond this time.
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PMID:Regional variation in rat cardiac myosin isoenzymes and ATPase activity after infarction. 252 83

Sarcoplasmic reticulum (SR) Ca2+ uptake and Ca2+-Mg2+-ATPase activity were examined in muscle homogenates and the purified SR fraction of the superficial and deep fibers of the gastrocnemius and vastus muscles of the rat after treadmill runs of 20 or 45 min or to exhaustion (avg time to exhaustion 140 min). Vesicle intactness and cross-contamination of isolated SR were estimated using a calcium ionophore and mitochondrial and sarcolemmal marker enzymes, respectively. Present findings confirm previously reported fiber-type specific depression in the initial rate and maximum capacity of Ca2+ uptake and altered ATPase activity after exercise. Depression of the Ca2+-stimulated ATPase activity of the enzyme was evident after greater than or equal to 20 min of exercise in SR isolated from the deep fibers of these muscles. The lowered ATPase activity was followed by a depression in the initial rate of Ca2+ uptake in both muscle homogenates and isolated SR fractions after greater than or equal to 45 min of exercise. Maximum Ca2+ uptake capacity was lower in isolated SR only after exhaustive exercise. Ca2+ uptake and Ca2+-sensitive ATPase activity were not affected at any duration of exercise in SR isolated from superficial fibers of these muscles; however, the Mg2+-dependent ATPase activity was increased after 45 min and exhaustive exercise bouts. The alterations in SR function could not be attributed to disrupted vesicles or differential contamination in the SR from exercise groups and were reinforced by similar changes in Ca2+ uptake in crude muscle homogenates.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of exercise of varying duration on sarcoplasmic reticulum function. 252 76

To study the extent, duration, and localization of metabolic changes in vein-to-vein grafts in rats, the sequential changes in enzymatic activity of veno-venous grafts in rats were evaluated by histochemical demonstration of the activity of two oxidoreductases (lactate dehydrogenase and succinate dehydrogenase) and two hydrolytic enzymes (adenosine triphosphatase and alkaline phosphatase). All the enzymes studies showed a decrease in staining 1 day after transplantation, the change being most pronounced for AFOS in the subendothelial layer. The recovery of staining intensity was noted after 3 days, the enzyme activity reaching the pregrafting level at 1 week. Different from the previous observations on vein-to-artery grafts, these vein-to-vein grafts showed less depression of enzyme activity during the first days after transplantation, neither did they display a continuing strong activity later on, probably due to lack of a thickening intimal layer.
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PMID:Enzyme histochemical studies on veno-venous grafts in rats. 252 65

This study examined the effects of acute high-intensity exercise on the rate and capacity of Ca2+ uptake and Ca2+-stimulated adenosinetriphosphatase (ATPase) activity of the sarcoplasmic reticulum and the reversibility of these effects. Thoroughbred horses were run at maximal O2 uptake on a high-speed treadmill until fatigued. Muscle temperatures and biopsy samples were collected at rest, immediately after exercise, and 30 and 60 min after exercise. Blood samples were collected at rest and 5 min after exercise. Muscle and blood (lactate concentration) were three- and fivefold greater than pre-exercise values. Muscle temperature and pH immediately after post-exercise were 43 degrees C and 6.55, respectively, but approached rest values by 60 min after exercise. The initial rate and maximal capacity of Ca2+ uptake of muscle homogenates and isolated sarcoplasmic reticulum were significantly depressed immediately after exercise. This depression was paralleled by decreased activity of the Ca2+-stimulated ATPase. However, both Ca2+ uptake (rate and capacity) and Ca2+4-ATPase activity had returned to normal by 60 min after exercise. These findings demonstrate that changes in sarcoplasmic reticulum function after high-intensity exercise may be induced but not sustained by local changes in muscle pH and/or temperature.
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PMID:Altered sarcoplasmic reticulum function after high-intensity exercise. 253 96

Ethanol, in vitro, decreases muscle fiber twitch tension by a mechanism unrelated to the electrical events of the motor end-plate or muscle surface membranes, an effect which may be attributable to a primary ethanol effect on the calcium release process of the sarcoplasmic reticulum. In this study, ethanol was found to progressively decrease a form of calcium release from isolated sarcoplasmic reticulum vesicles seen after calcium loading in high-phosphate media (spontaneous calcium release). Elevated extravesicular free calcium concentrations are known to inhibit spontaneous calcium release, and the ability of sarcoplasmic reticulum to achieve and maintain submicromolar extravesicular free calcium concentrations in the presence of ethanol was therefore determined. Ethanol had no effect on the low extravesicular free calcium concentrations achieved by isolated sarcoplasmic reticulum, and had no effect on residual ATPase activity remaining after cessation of calcium pumping. This latter result suggests that efflux of vesicular calcium and persistent calcium reaccumulation do not occur in the presence of ethanol. These results suggest that ethanol-induced depression of spontaneous calcium release is not attributable to ethanol effects on sarcoplasmic reticulum membrane calcium leakage or on sarcoplasmic reticulum calcium pumping. Ethanol inhibition of spontaneous calcium release from isolated sarcopasmic reticulum may reflect an effect of ethanol on the calcium release process in intact muscle fibers responsible for ethanol-induced decreases in muscle fiber twitch tension.
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PMID:Ethanol inhibition of spontaneous calcium release from isolated sarcoplasmic reticulum. 253 74

Although oxygen free radicals have been implicated as mediators of cellular injury in myocardial ischemia-reperfusion, the exact nature of defects produced by these radicals is not clear. Because sarcolemmal Ca2+-pump is involved in the efflux of Ca2+ from the cell, this study was undertaken to examine the effects of oxygen free radicals on sarcolemmal ATP-dependent Ca2+ accumulation and Ca2+-stimulated Mg2+-dependent adenosinetriphosphatase (ATPase) activities as well as lipid peroxidation of membrane phospholipids. Isolated rat heart sarcolemmal membranes were incubated with xanthine + xanthine oxidase [a superoxide anion radical (O2-)-generating system], H2O2, or H2O2 + Fe2+ [a hydroxyl radical (HO.)-generating system] and assayed for Ca2+-pump activities. O2- inhibited the Ca2+-pump activities in a time-dependent manner; a significant inhibition of Ca2+-stimulated ATPase activity was seen after 1 min of incubation. Superoxide dismutase showed a protective effect on depression in Ca2+-pump activities caused by O2-.H2O2 inhibited Ca2+-pump activities in a dose-dependent manner; this inhibition was protected by the addition of catalase. HO. depressed the Ca2+-pump activities to a greater extent in comparison with H2O2. Mannitol showed a protective effect on HO.-induced inhibition of Ca2+-pump activities. The promotion of lipid peroxidation by free radicals was evident from increased formation of malondialdehyde. These results indicate that the sarcolemmal membrane is altered on exposure to oxygen free radicals, and this may result in depressing the Ca2+-pump mechanism for Ca2+ efflux from the myocardial cell.
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PMID:Depression of heart sarcolemmal Ca2+-pump activity by oxygen free radicals. 253 32

Neurotransmitter receptor binding and Na+, K+-ATPase activity were examined in the brains of six rats exposed to 7 days of microgravity during the flight of Spacelab 3. The same variables were examined in a group of six ground control rats. 5-HT1 receptor number in the hippocampus was significantly elevated by exposure to the microgravity environment, and cortical sodium-potassium pump activity was significantly depressed. A marginal depression in dopamine D-2 binding in the striatum was noted. Dopamine and 5-HT binding in a wide variety of other central regions, in addition to GABAA, muscarinic acetylcholine, adenosine A1, and opiate receptor binding, and adrenoceptor binding, was unaffected by microgravity exposure.
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PMID:Effects of microgravity on brain neurotransmitter receptors. 254 43

To understand the involvement of changes in sulfhydryl groups in causing depression of the sarcolemmal Ca2+-pump activities, this study was undertaken to examine the effects of oxygen free radicals on rat heart sarcolemmal sulfhydryl groups, Ca2+-stimulated adenosinetriphosphatase (ATPase), and ATP-dependent Ca2+ accumulation. In addition, the effects of sulfhydryl reagents such as dithiothreitol, cysteine, and N-ethylmaleimide on Ca2+-pump activities were investigated. The inhibition of sarcolemmal Ca2+-pump activities by O2-. (xanthine + xanthine oxidase) and H2O2 was decreased by the addition of dithiothreitol or cysteine in a dose-dependent manner. N-ethylmaleimide also showed inhibitory effects on Ca2+-pump activities both in a dose- and time-dependent manner; dithiothreitol and cysteine prevented changes in Ca2+-pump activities because of N-ethylmaleimide. Heart sarcolemmal sulfhydryl groups were depressed by O2-., H2O2, and .OH (H2O2 + Fe2+) both in a dose- and time-dependent manner. Superoxide dismutase, catalase, and D-mannitol showed protective effects on the sulfhydryl group depression by O2-., H2O2, and .OH, respectively. A significant correlation between changes in sarcolemmal Ca2+-stimulated ATPase activity and sarcolemmal sulfhydryl groups was seen. These results indicate that oxygen free radicals may depress the heart sarcolemmal Ca2+-pump activities by modifying the sulfhydryl groups in the sarcolemmal membrane.
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PMID:Mechanism for depression of heart sarcolemmal Ca2+ pump by oxygen free radicals. 255 Nov 90


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