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:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ischemia development was accompanied by inhibition of the enzymatic transport system (ETS) of Ca2+ (reduction of the Ca2+/ATP value and of the Ca2+-dependent ATPase activity), this correlating with the accumulation of primary and secondary molecular products of lipid peroxidation (LPO) in the sarcoplasmic reticulum membranes of the skeletal muscles, in vivo. Administration of antioxidants (2,6-ditretbutyl-4-methylphenol, alpha-tocopherol) prevented the LPO activation in the ischemic muscle and partially protected the ETS of Ca2+ from damage. The blood supply restoration after prolonged ischemia led to further ETS of Ca2+ inhibition against the background of unchanges LPO products level.
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PMID:[Damage to the sarcoplasmic reticulum of skeletal muscles in leukemia: role of lipid peroxidation]. 14 58

It was shown that when injected into a suspension of sarcoplasmic reticulum (SR) vesicles phosphatidyl ethanol-amine hydroperoxide (HP) slightly activated Ca++-dependent ATPase and increased the permeability of SR membranes for Ca++ during the enzyme function. Linoleic acid HP had no effect on the parameters of the enzymatic Ca++- transporting system (activity of Ca++-dependent ATPase, Ca/ATP ratio, rate of Ca++ efflux) in the SR membranes due to its insufficient incorporation into the SR fragments. It is concluded that among the primary molecular products of lipid peroxidation (free fatty acid HP, phospholipid HP) induced both in vitro (by the Fe++ + ascorbate system) and in vivo (ischemia, E-avitaminosis), only the phospholipid HPs were modifiers of Ca++ transport in the SR membranes.
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PMID:[Disruption of the Ca++ transport enzyme system in sarcoplasmic reticulum membranes upon exposure to phospholipid hydroperoxides and fatty acid hydroperoxides]. 15 51

After prelabeling the adenine nucleotides (ATP, ADP, AMP) of isolated perfused guinea pig hearts with either 14C-adenine or 14C-adenosine for 35 min, labeled adenosine, inosine, hypoxanthine and cyclic 3'5'-AMP (cAMP) were continuously released into the cardiac perfusate. Determination of the specific activities (SA) of the adenine nucleotides, cAMP, and their breakdown products (adenosine, inosine, hypoxanthine) in tissue and perfusate revealed: Under steady state conditions the SA of adenosine and cAMP in the perfusate were of the same order of magnitude and proved to be many times higher than the SA of the respective precursor adenine nucleotides. This difference was observed regardless whether adenine or adenosine was used as prelabeling substances. The SA of inosine and hypoxanthine in the perfusate were constantly lower than the SA of adenosine. Cardiac ischemia of 6 min, which resulted in a markedly increased formation of adenosine, led to a pronounced decrease in the SA of adenosine released from the heart. Our findings provide evidence that at least two different adenine nucleotide compartments of the heart severe as precursors for the formation of adenosine and cAMP, one characterized by a high, the other by a lower SA. Under normoxic conditions adenosine and cAMP released into the cardiac perfusate are derived mainly from a nucleotide fraction of high SA, which appears to be rather small. During ischemia a second compartment of much lower SA in addition contributes to the formation of adenosine.
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PMID:Compartmentation of cardiac adenine nucleotides and formation of adenosine. 18 85

Heart muscle mitochondria with satisfactory functional parameters of oxidative phosphorylation and with morphologically intact structure were isolated from canine myocardium employing a modified KEA-medium (0.18 M KCl, 10 mM EDTA, 0.5% bovine serum albumin, pH 7.1) according to Sordahl and Schwartz (1). The functional behaviour of mitochondria was investigated after different durations of in situ ischemia (cardioplegia, 15 degrees C) and correlated with metabolic findings. During ischemia the following changes were seen: 1. Successive reduction of electron flow. 2. Relatively small impairment of phosphorylation efficiency. 3. Less damage of FAD- than NAD-catalyzed oxidative phosphorylation. 4. A marked increase of electron flow and thus recovery of phosphorylation rate even after longer ischemic periods by addition of cytochrome c. As important factors of accelerating mitochondrial impairment during ischemia the myocardial ATP decrease, the lactate and H+-activity increase are discussed.
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PMID:Functional behaviour of isolated heart muscle mitochondria after in situ ischemia. Polarographic analysis of mitochondrial oxidative phosphorylation. 20 84

In Langendorff-perfused rat hearts, the perfusion pressure was reduced from 100 cm H2O to 20 cm H2O for 30 minutes to produce a model of global ischemia with a residual oxygen uptake. The release of lactate dehydrogenase (LDH) and the occurrence of ventricular arrhythmias during reperfusion were dependent on the substrate. Glucose-perfused hearts had the highest rates of glycolytic ATP production (2.5 mumol/g per min) during ischemia with normal contents of tissue cyclic adenosine 3',5'-monophosphate (cAMP) and, during reperfusion, the release of LDH was lowest and severe ventricular arrhythmias did not occur. In pyruvate-perfused hearts, glycolysis was inhibited during ischemia, the rate of production of glycolytic ATP was only 0.5 mumol/g per min. and tissue cAMP doubled; during reperfusion, LDH release was 14-fold higher and ventricular arrhythmias were more severe. Total tissue contents of ATP and phosphocreatine were similar in glucose- and in pyruvate-perfused hearts. In hearts perfused with acetate, there was virtually no glycolytic ATP synthesized during the last 5 minutes of ischemia and cAMP increased further. Acetate- and palmitate-perfused hearts showed greatest release of LDH and had severest arrhythmias during reperfusion, suggesting that it was the metabolic and not the detergent effects of palmitate that were operating. Lipolysis was not a major factor in the cause of reperfusion LDH release. A role of glycolytic ATP in the maintenance of membrane integrity is postulated.
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PMID:Effects of substrates on tissue metabolic changes in the isolated rat heart during underperfusion and on release of lactate dehydrogenase and arrhythmias during reperfusion. 20 59

The effect of curantil on the values of energy metabolism in different parts of the myocardium was studied on dogs with experimental myocardial infarction. Tissue respiration, the activity of Krebs' cycle enzymes, cytochrome oxidase, pentose phosphate cycle and glycolysis, and the content of glycogen and adenyl components were studied. It was established that curantil has a positive effect on energy processes, particularly in myocardial areas not involved in ischemia. It is suggested that activation of tissue oxidation enzymes, which improves oxygen utilization and increases ATP production, is among the mechanisms of the curantil effect. It is noted that curantil stimulates the synthesis of glycogen and inhibits its decomposition. The accumulation in the myocardium of AMP, the precursor of adenosine possessing a marked coronarolytic effect, is an important aspect of the drug's action.
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PMID:[Metabolic shifts in acute period of myocardial infarct and the possibility of their correction with curantil]. 22 32

The effects of ligation of both common carotid arteries in the gerbil on the levels of PGF2 alpha, TXB2, HETE and of energy metabolites in brain cortex, have been investigated. Also, in the same experimental conditions the changes of cyclic AMP in brain cortex, cerebellum, striatum and hippocampus have been monitored. ATP, glycogen, glucose and phosphocreatine decrease whereas, lactate and cyclic AMP are enhanced in the ischemic brain, as previously reported. In contrast, levels of arachidonic acid metabolites are not modified. During ischemia following decapitation, instead, PGF2 alpha, and TXB2, show considerable increase.
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PMID:PGF2 alpha, thromboxane B2 and HETE levels in gerbil brain cortex after ligation of common carotid arteries and decapitation. 23 May 39

In cerebral ischemia, brain oxygen supply is totally exhausted within seconds. This necessitates cessation of mitochondrial electron transfer and energy (ATP) production. After certain periods of ATP deficiency of from 5 to 90 min, irreversible damage of mitochondrial membranes occurs. This results in decreased mitochondrial function, characterized by inhibited State 3 respiratory rates, low respiratory control ratios, and inhibited Ca2+ transport activities. A 30-min recirculation period of the ischemic brain tissue induces total restitution of mitochondrial respiratory capacity after complete ischemia, but not after incomplete ischemia. Regional in situ measurements of brain pyridine nucleotide redox levels, tissue ATP, and lactate concentrations indicate variable metabolic responses of different brain regions to oligemia. Macroheterogeneity from region to region, as well as microheterogeneity within a region are demonstrated. Contrary to the effect of tissue ischemia involving reduced or zero cerebral blood flow and tissue oxygenation, sublethal hypoxia alone at normal or increased levels of blood flow induces adaptation of the mitochondrial enzyme system to a new level of respiratory capacity, without any indications of inhibited mitochondrial energy production. Acute hypoxia induces increased respiratory capacities within 30-60 min. Under chronic conditions, alterations of mitochondrial cytochrome concentrations accompany the increased respiratory capacities. Instead of the decreased efficiency of mitochondrial energy-producing mechanisms induced by ischemia, hypoxia induces increased efficiency of energy production.
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PMID:Mitochondrial function in cerebral ischemia and hypoxia: comparison of inhibitory and adaptive responses. 23 75

A stable free-radical polymeric derivative of prostaglandin B1 (PGBx) has been synthesized that exhibits regenerative effects on oxidative phosphorylation in aged mitochondria. The molecular weights of the most active preparations fall between 2000 and 2600. PGBx is characterized by a single-line electron spin resonance spectrum that is stable at room temperature. PGBx restores phosphorylating ability and net ATP synthesis in isolated mitochondria aged for 4 days at 0 degrees C and protects against further degradation of phosphorylating activity when such aged mitochondria are preincubated at 28 degrees C in the absence of adenine nucleotide phosphate acceptors. This compound has been reported to exert beneficial effects in vivo in experimental pathological conditions, such as regional ischemia, in which the mitochondria of the ischemic region may have been damaged.
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PMID:Protection and reactivation of oxidative phosphorylation in mitochondria by a stable free-radical prostaglandin polymer (PGBx). 28

31P NMR was used to continuously monitor ATP and inorganic phosphate levels in perfused mouse liver. Under "optimal" conditions, the time resolution of the technique was approximately 1 min. In the absence of any metabolic perturbations the ATP level remained constant for at least 2 hr and decreased by only approximately 20% in 18 hr. Both ATP and inorganic phosphate levels responded to alterations in the oxygen supply to the liver. The half-time for this response was approximately 1 min, and the response to short periods of hypoxia or ischemia was partially reversible. The addition of insulin caused only a minor decrease in the ATP level but significantly decreased the rate of response of ATP and phosphate levels to hypoxia and ischemia.
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PMID:Rapid ATP assays in perfused mouse liver by 31P NMR. 29 54


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