Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P20020 (adenosine triphosphatase)
 3,299 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mitochondrial respiration, succinate dehydrogenase coenzyme Q reductase, and myosin B were investigated in ischemic myocardium from experimental myocardial infarction in dogs. Respiratory control ratio of mitochondria was impaired by ischemia at 60 min after coronary ligation, and oxygen consumption was inhibited 120 min later. Enzyme activity of succinate dehydrogenase coenzyme Q reductase was decreased at 6 hr after coronary ligation. Calcium ion sensitivity of myosin B declined 12 hr after coronary ligation. However, adenosine triphosphatase activity of myosin A from infarcted myocardium was not different from that of the intact one. These results suggest that interaction in the sequence of enzyme complexes was first impaired in ischemic myocardium and that deterioration of enzyme activity was then manifested.
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PMID:Relationship between energy liberation and utilization in ischemic cardiac muscle. 103 51

Major mitochondrial phospholipids were examined in rat brain after 30 minutes of reperfusion following 30- or 60-minute periods of ischemia to examine their changes and explore their relationship to mitochondrial dysfunction during postischemic reperfusion. The amount of phospholipids and the percentage of polyunsaturated fatty acid chains, which tended to decrease during 30 minutes of ischemia, recovered after reperfusion. However, after ischemia lasting for 60 minutes, these parameters did not recover but decreased further, suggesting progressive disruption of phospholipids by phospholipase A2 after reperfusion. These changes were particularly notable in cardiolipin, which is contained specifically in mitochondria. The changes were also closely associated with mitochondrial respiration and respiratory enzyme (cytochrome c oxidase and F0F1-adenosine triphosphatase) activities, which have been known to correlate with the amount of cardiolipin. These results suggest that phospholipid metabolism in mitochondrial membranes is an important factor bearing on the integrity of energy metabolism during postischemic reperfusion.
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PMID:Changes in major phospholipids of mitochondria during postischemic reperfusion in rat brain. 130 64

Bepridil is an antianginal agent with multiple therapeutic actions. It decreases calcium influx through potential-dependent and receptor-operated sarcolemmic calcium channels and acts intracellularly as a calmodulin antagonist and calcium sensitizer. Thus, in cardiac muscle it enhances the sensitivity of troponin C to calcium, stimulates myofibrillar adenosine triphosphatase activity, removes calmodulin's inhibitory effect on sarcoplasmic reticulum calcium release, and inhibits sodium-calcium exchange--actions that tend to offset the effects of calcium influx blockade on cardiac contractile force. However, in vascular smooth muscle where the calcium-calmodulin complex promotes muscle contraction by activating myosin light-chain kinase phosphorylation of contractile proteins, calmodulin antagonism, coupled with bepridil's blockade of calcium influx, leads to vasorelaxation. In animal models of ischemia, bepridil and other calmodulin inhibitors show antiarrhythmic efficacy following reperfusion. Additionally, interfering with calmodulin's role in sympathetic nerve terminal function may help to limit the ischemia-induced catecholamine release that contributes to arrhythmogenesis. Bepridil shows a lidocaine-like fast kinetic block of inward sodium current (as distinct from the slow or intermediate kinetic inhibition expressed by encainide or quinidine, respectively). This inhibition is pH-dependent; activity is expressed to a greater degree at lower pH levels. This, this potentially antiarrhythmic mechanism is activated by conditions of ischemia. Bepridil's blockade of outward potassium currents and its inhibition of sodium-calcium exchange increase action potential duration and ventricular refractoriness, prolong the QT interval, and form the basis for a class III antiarrhythmic mechanism. Because hypokalemia also prolongs the QT interval, the addition of bepridil in the presence of hypokalemia can lead to excessive prolongation. Bepridil both increases myocardial oxygen supply through coronary vasodilation and decreases myocardial oxygen demand through mild heart rate and afterload reduction, and shows potential antiarrhythmic activity through class IB, III, and IV mechanisms.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Pharmacology of bepridil. 137 85

Glibenclamide, a hypoglycemic sulfonylurea, is a blocker of the adenosine triphosphatase-modulated potassium ion channels. The opening of these channels in the myocardial cells, induced by acute myocardial hypoxia, can be responsible for ischemic ventricular arrhythmias. To evaluate the antiarrhythmic effects of this drug 19 non-insulin-dependent diabetic patients were selected. They had coronary artery disease and evidence on Holter monitoring of ventricular premature complexes or nonsustained ventricular tachycardia, or both, induced by transient myocardial ischemia. In all patients, 24-hour electrocardiographic monitoring was performed to evaluate the number and duration of myocardial ischemic events, the frequency of ventricular premature complexes and nonsustained ventricular tachycardia per minute of ischemia and the percentage of ventricular premature complexes versus total ischemic beats. Selected patients were classified in 2 groups: group A (9 patients) received metformin (placebo) and group B (10 patients) was treated with glibenclamide. On the fourteenth day patients underwent 24-hour control monitoring. Then a crossover between the 2 groups was made and a new Holter monitoring sequence was performed at the end of the second phase. Results indicate that glibenclamide significantly (p less than 0.001) reduced both the frequency of ventricular premature complexes and the episodes of nonsustained ventricular tachycardia during transient myocardial ischemia, but did not change the number and duration of acute myocardial ischemic attacks and did not reduce the spontaneous ventricular arrhythmias. Thus, glibenclamide appears to have an antiarrhythmic effect in preventing ventricular arrhythmias induced by transient myocardial ischemia.
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PMID:Effectiveness of glibenclamide on myocardial ischemic ventricular arrhythmias in non-insulin-dependent diabetes mellitus. 170 21

Nowadays the activity of heart ectoenzymes, breaking up ATP, are determined in the undamaged tissue to eliminate the effect to the ATP of intracellular enzymes. Our aim is to study the activity of ecto-adenosine triphosphatase in the heart damaged by ischemia. It was established that the activity of ectoenzymes, breaking up ATP, may be measured in the tissue damaged by ischemia only in case when the cellular membrane becomes impermeable for the intracellular enzymes. The activity of adenosine triphosphatase is significantly reduced during the myocardial reperfusion after ischemia and appeared as one of the criteria by which we can assume the degree of the heart reperfusion damage.
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PMID:[Activity of ectoenzymes of the heart breaking up ATP in the period of myocardial reperfusion after ischemia]. 214 89

The Na(+)-K(+)-adenosine triphosphatase (Na(+)-K(+)-ATPase) activity and beta-endorphin immunoreactivity were determined in rat brain at the acute stage of ischemia produced by unilateral occlusion of the middle cerebral artery (MCA). The effect of pretreatment with naloxone on these activities was also evaluated in the same model. After MCA occlusion, Na(+)-K(+)-ATPase activity was promptly reduced in the ischemic hemisphere and remained at a lower level than in the contralateral hemisphere during 90 minutes of ischemia. A single intraperitoneal 0.5-mg injection of naloxone prior to MCA occlusion attenuated the inactivation. On the other hand, beta-endorphin immunoreactivity was significantly increased following ischemia. The increase was marked in the ischemic hemisphere and was also observed in the contralateral hemisphere; this increase was not affected by the administration of naloxone. These results indicate the possibility that naloxone contributes to protecting the brain from ischemia through stabilizing the cellular membrane. The possible mechanism by which naloxone attenuates the inactivation of Na(+)-K(+)-ATPase in the ischemic brain is discussed in view of alterations of the central beta-endorphin system during ischemia.
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PMID:Alterations in Na(+)-K(+)-ATPase activity and beta-endorphin content in acute ischemic brain with and without naloxone treatment. 215 61

We investigated the hypothesis that ouabain would reduce energy expenditure in the hypothermic, ischemic heart by inhibiting membrane-bound sodium/potassium-activated adenosine triphosphatase and lead to improved function on reperfusion. Additionally, we compared ouabain with another potential adjunct, the calcium channel blocker verapamil. The isolated rabbit heart was used as a model, and three experimental groups were studied after 1, 6, 12, and 24 hours of 4 degrees C ischemia. Hearts in group I were stored in a standard high potassium solution; hearts in groups II and III were stored in the same solution supplemented with verapamil (2 mg/L) and ouabain (3 mg/L), respectively. After ischemia, all hearts were reperfused for 45 minutes on a modified Langendorff apparatus, and left ventricular function was measured before freeze-clamping the heart for metabolite determination. At 1 and 6 hours, hearts in all groups functioned well, but the group III hearts had higher levels of adenosine triphosphate, phosphocreatine, total adenine nucleotides, and glycogen. After 12 hours of ischemia, function was significantly better in group III hearts (p less than 0.01) compared with that of hearts in groups I and II. Group III hearts also exhibited higher levels of high energy phosphates and glycogen. After 24 hours of storage, all hearts functioned poorly, and there was a marked decline in measured metabolites. Although we could show no improvement with the addition of verapamil, ventricular function was improved after storage in a high potassium hypothermic solution containing ouabain. Because ouabain inhibits the hydrolysis of adenosine triphosphate by sodium/potassium-activated adenosine triphosphatase, this result suggests that the glycoside maintains energy-rich phosphates necessary for optimal resumption of cardiac function.
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PMID:Improved recovery of cardiac function after hypothermic ischemic storage with ouabain. 284 69

We investigated the response of mitochondrial function and microsomal adenosine triphosphatase (ATPase) activity in rat liver tissue subjected to in vitro ischemia at either 0 degree C to 4 degrees C or 37 degrees C for 30 to 60 minutes. Mitochondrial coupling, expressed as respiratory control index, was preserved at up to 60 minutes' cold ischemia. However, respiratory control index was decreased significantly from control by 30 minutes of warm ischemia. Both microsomal magnesium-activated ATPase and sodium-potassium ATPase activity were significantly increased by 60 minutes of warm ischemia yet were unaltered by 60 minutes of ischemia at 0 degree C to 4 degrees C. Warm ischemia produces deleterious effects on energy-generating (mitochondria) and energy-utilizing (ATPase) activity. Hypothermia provides a significant prolongation of cellular viability in ischemic tissue in terms of bioenergetic status. In addition to organ procurement and transplantation, hypothermic cytoprotection may prove valuable in areas such as shock, ischemia, and other clinical conditions of compromised visceral perfusion.
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PMID:Hepatic microsomal adenosine triphosphatase and mitochondrial function. Response to cold and warm ischemia. 295 19

Total injury in ischemic skeletal muscle is a function of ischemic damage and reperfusion injury. In an attempt to decrease reperfusion injury, we gave the oxygen-derived free radical scavengers allopurinol, superoxide dismutase, or mannitol during reperfusion of canine gracilis muscle made ischemic for 4 hours. We measured muscle O2 consumption (MVO2), and tissue calcium, water, and adenosine triphosphatase (ATP) before ischemia, after ischemia, and at 5 minutes and 60 minutes of reperfusion. The results at 60 minutes showed no improvement in MVO2 or ATP. In fact, ATP was significantly depressed with allopurinol and superoxide dismutase treatment, and tissue edema did not decrease in any of the groups. We conclude that the simple addition of oxygen-derived free radical scavengers during the initial reperfusion of totally ischemic skeletal muscle does not attenuate reperfusion injury.
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PMID:Oxygen-derived free radical scavengers and skeletal muscle ischemic/reperfusion injury. 314 90

Of all tissues of the extremities, muscle is the least tolerant of ischemia. Hypothermia of tissue is considered beneficial for the maintenance of viability of muscle in amputated limbs before surgical replantation, but it has never been established that conventional cooling in an ice bath or its equivalent (temperature of tissue, approximately 1 degree Celsius) is the optimum level of hypothermia for minimizing metabolic derangement in ischemic muscle. In this study, we first defined the time course and level of metabolic derangement of muscle in twenty-eight ischemic hind limbs in cats at 22, 15, 10, 5, and 1 degree Celsius. The levels of adenosine triphosphate and phosphocreatine and the mean intracellular pH of the muscles in the lateral aspect of the thigh in each limb were monitored with phosphorus nuclear magnetic-resonance spectroscopy over time. The excised muscles from six freshly amputated legs of live humans were then similarly studied to determine whether muscles from cats and from humans exhibit comparable bioenergetic responses to hypothermic ischemia. A final series of ten ischemic hind limbs from cats was studied by nuclear magnetic resonance and muscle biopsy for direct biochemical assay of tissue energy metabolites to compare the metabolic benefits of two different methods of preserving limbs: continuous cooling in an ice bath, and a newly devised protocol for the rapid induction and maintenance of so-called intermediate (10 +/- 5 degrees Celsius) hypothermia of tissue. Ischemic skeletal muscle in cats exhibited a paradoxical metabolic response to extreme cold (1 degree Celsius). The rate of metabolic deterioration progressively declined with decreasing temperature of tissue to 10 degrees Celsius. However, at 5 degrees Celsius, no additional benefit was detected, and at 1 degree Celsius, there was a significant acceleration in the rates of degradation of adenosine triphosphate and phosphocreatine and in the production of lactate. The rate of degradation of adenosine triphosphate in human ischemic muscle was also faster at 1 degree Celsius than at 10 degrees Celsius. This paradoxical response is apparently due to a severe inhibition of the calcium pump of the sarcoplasmic reticulum of the muscle cell at temperatures of less than 5 degrees Celsius. The inhibition permits an efflux of calcium to the myofibrils, which stimulates both glycolysis and the degradation of adenosine triphosphate by myofibrillar adenosine triphosphatase.
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PMID:The bioenergetics of preservation of limbs before replantation. The rationale for intermediate hypothermia. 319 76


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