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)

Purine nucleotides, nucleosides, nucleobases, dinucleotides and nucleosides derivatives from acid-extracted rat liver and diaphragm were separated and quantitated by reversed-phase ion-pair high-performance liquid chromatography with a mobile phase composed of 90 mM potassium phosphate, 15 mM tetrabutylammonium hydroxide and a 1-30% methanol gradient. During 5 min of ischemia, adenine and guanine nucleotides decreased along with significant declines in NAD and increases in adenosine, inosine, hypoxanthine, xanthine, NADP and adenylosuccinate. Nitrobenzylthioinosine by gavage (5 mg/kg per day for five days) increased adenosine levels but without any alteration in nucleobase levels. Adenosine was shuttled to every available intracellular reservoir which included in declining order of magnitude GDP greater than adenosylhomocysteine greater than adenosine greater than ADP greater than AMP greater than IMP = XMP = GMP.
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PMID:Demonstration of the adenosine reservoirs with nitrobenzylthioinosine in liver and diaphragm by high-performance liquid chromatography. 339 39

Xanthine oxidase activities of pig myocardium and blood during and following myocardial ischemia were measured using HPLC, and electrochemical detection of hypoxanthine, xanthine and uric acid. Myocardial ischemia was produced by occluding the anterior descending coronary artery two-thirds of the way from its origin. There was no accumulation of either xanthine or urate in the ischemic pig myocardium during occlusion periods of 90 min, but there was a substantial accumulation of hypoxanthine. Similarly, there was no increase in myocardial xanthine or urate during the 30 min reperfusion following coronary artery occlusion periods of 15, 30, 60 or 90 min. Following in vitro incubation at pH 8 of myocardial homogenates or blood with either hypoxanthine or xanthine and NAD, no urate production was detectable. In contrast, significant amounts of xanthine and/or urate were produced, following addition of xanthine oxidase to the reaction mixtures. Additional in vitro experiments showed that the following pig tissues were lacking xanthine oxidase activity: left and right atrial appendage, left and right ventricle, interventricular septum, anterior descending and circumflex coronary arteries, ascending aorta, lung, and blood. Large amounts of xanthine oxidase (9.3 +/- 1.8 SEM mU/g wet weight, n = 7) were found in pig liver. In the ischemic pig heart, transmural infarction developed within 60 min of ischemia. Ventricular arrhythmias and fibrillation occurred most frequently within 45 min of ischemia and within seconds after reperfusion. These results showed that the pig heart and blood were xanthine oxidase deficient, suggesting that xanthine oxidase-derived free oxygen radicals were not involved in the cytotoxic and arrhythmogenic effects brought about by myocardial ischemia and/or reperfusion in the pig.
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PMID:Arrhythmias and infarction in the ischemic pig heart are not mediated by xanthine oxidase-derived free oxygen radicals. 342 28

To assess the applicability of phosphorus-31 magnetic resonance spectroscopy (31P-MRS) in the analysis of renal transplant viability and preservation techniques with respect to pre-transplant ischemia, we studied two rat groups. Twenty-five rat kidneys were subjected to various time increments of warm ischemia (Group A), and 31P-MRS was performed on each kidney at time intervals of up to 72 hours during simple hypothermic storage. We correlated findings of 31P-MRS with simultaneous findings of electron microscopic (EM) ultrastructural viability parameters (in Group A) and subsequent survival and renal function in 30 rats (Group B) subjected to similar amounts of variable ischemia. Intracellular phosphorus metabolite levels were nondestructively monitored by 31P-MRS via spectral peaks of NAD, sugar monophosphates (SP), and inorganic phosphate (Pi). We concluded: SP/Pi and NAD/Pi ratios decay in a time-dependent manner for both warm and cold ischemia, although this process is much slower during cold storage; EM viability parameters correlate with the development of acute tubular necrosis (irreversible damage) versus nonviability (gross cell death) on a qualitative basis only; and 31P-MRS enables a quantitative assessment of renal viability and ischemic renal damage and can predict the degree of acute tubular necrosis and post-ischemic renal function. 31P-MRS is potentially a noninvasive, nondestructive method of assessing viability during simple hypothermic storage of the rat kidney. Preliminary evidence shows that this MRS method can be applied to human kidney viability studies for clinical renal transplantation and urologic research concerning renal preservation.
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PMID:Assessment of renal viability by phosphorus-31 magnetic resonance spectroscopy. 351 65

Mitochondrial function was examined in cats after 1 h of complete cerebral ischemia and subsequent recirculation periods from 15 min to 56 h. During ischemia the NAD-linked respiratory control ratio and the maximal phosphorylation capacity of "free" and synaptosomal mitochondria decreased to 53% to 76% of control values. During postischemic reperfusion to 6 h, mitochondrial function was restored to 80%, remaining less than control throughout the entire investigated recirculation period with a tendency of secondary deterioration from 12 h of reperfusion onward. ADP: O ratios were unaffected during ischemia, but decreased significantly during early recirculation (15 to 30 min), and were completely restored from 45 min reperfusion onward. Correlation with electrophysiologic recordings revealed that mitochondrial dysfunction was not a limiting factor for neurophysiologic recovery during early recirculation (15 to 90 min). When the recirculation period was extended (greater than 3 h), good neurophysiologic recovery was associated with a return of mitochondrial function to control levels; inversely, poor mitochondrial function was correlated with poor neurophysiologic recovery.
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PMID:Mitochondrial respiration during recirculation after prolonged ischemia in cat brain. 356 58

Brain levels of NADH and NAD+ were measured in three models of cerebral ischemia to determine whether degradation of the pyridine nucleotides is enhanced in models that generate high concentrations of lactic acid. Complete ischemia (decapitation), in which lactate increased to 14 mmol/kg, caused a gradual decrease in the NAD pool to 50% of control by 2 h. During focal ischemia (occlusion of the middle cerebral artery), the decrease in the NAD pool was less pronounced (82% of control at 2 h) despite the accentuated accumulation of lactate to 33 mmol/kg. In a third model (unilateral hypoxia-ischemia), pretreatment of animals with glucose augmented the ischemic elevation of lactate from 30 mmol/kg to 40 mmol/kg and greatly impaired restoration of energy metabolites during recirculation. However, glucose pretreatment had no effect on the size of the NAD pool during ischemia or early recovery. These results, therefore, demonstrate that the pyridine nucleotide pool is not rapidly degraded during ischemic insults that accumulate high concentrations of lactic acid. The stability of the NAD pool may have been enhanced by the limited increase in brain levels of NADH that occurred in these models of incomplete ischemia.
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PMID:Effect of lactacidosis on pyridine nucleotide stability during ischemia in mouse brain. 361 29

Changes in microcirculation, the NAD/NADH redox state, and electrical activity during 2 hours of ischemia and 4 hours of reperfusion produced by middle cerebral artery occlusion and release were studied in cats. Twelve animals were classified into three groups of ischemia (mild, moderate, and severe) based on the severity of electrocorticographic (ECoG) depression at the end of the recovery period. Four animals were studied as controls. Occlusion of the middle cerebral artery (MCAO) resulted in a marked but similar degree of reduction in cerebral blood flow (CBF) in all three groups. After this initial change, CBF increased continuously during occlusion in the mild group. CBF in the moderate and severe groups remained at the same low level during the entire period of MCAO. Immediately after MCAO, NAD reduction was increased by approximately 50% in all groups. At the end of MCAO, while the NAD/NADH redox state returned to its pre-ischemic reference level in the severe group, it remained markedly reduced in the mild and moderate groups. Removal of the clip led to slight reactive hyperemia in the mild and severe groups but not in the moderate group. Immediately after recirculation, NAD/NADH redox was shifted toward oxidation in all groups. However, this reoxidation of NADH was only partial in the mild and moderate groups, and a pronounced hyperoxidation occurred in the severe group. In spite of the similar behavior of CBF in the recovery period, a marked secondary NAD reduction occurred in the moderate group during the recirculation period. It is suggested that this represents cessation of mitochondrial electron transport in the dying cells, accompanied by stimulated anaerobic glycolysis in other cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Kinetics of microcirculatory, NAD/NADH, and electrocorticographic changes in cat brain cortex during ischemia and recirculation. 372 9

The results of quantitative histoenzymologic investigations of succinate dehydrogenase, lactate dehydrogenase and NAD-diaphorase in cardiomyocytes of dogs with acute experimental arterial occlusion in ischemic and postischemic periods are reviewed. An increased activity of dehydrogenases in the early periods (3,6 h) of ischemia and during recirculation was established, with its noticeable reduction at later terms (9,12 h). Medical correction of postischemic disorders was shown to improve cardiomyocyte metabolism.
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PMID:[Changes in the dehydrogenase activity of cardiomyocytes during acute experimental arterial occlusion of extremities]. 373 May 53

Respiratory and phosphorylating capacities of kidney mitochondria were distinctly decreased within early (1.5 hr) and late (1 day) postischemic periods after long-term (2-3 hrs) ischemia of rat kidney. Preadministration of adenine (ADP, AMP) and pyridine (NAD) nucleotides into the animals prevented the decreases, while vitamin E, heparin, trifluoroperazine or aminazine proved to be ineffective. Depletion of mitochondrial nucleotide pool, which occurred during long-term ischemia of kidney and were maintained within the post-ischemic period, appears to be responsible for impairment of oxidative phosphorylation.
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PMID:[Changes in and pharmacological correction of oxidative phosphorylation in regional kidney ischemia]. 376 3

It is shown in experiments on rats that the early postischemic period after 1- and 1.5-hour ischemia of kidneys is characterized by a decrease in the damage of the glycolytic system site which induces glucose-6-phosphate transformation into lactate and by an increase in the inhibition intensity of the initial hexokinase reaction of glycolysis. In the postischemic period after more prolonged (2-, 3-hour) ischemia the damage of the glycolytic system develops also at the site of glucose-6-phosphate transformation into lactate. Administration either of the nucleotide complex (NAD and AMP) or calmodulin inhibitors (aminazine and zinc sulphate) to rats prior to two-hour occlusion of kidneys vessels promotes a decrease in the inhibition of the glycolytic system activity in the postischemic period. At the same time the separate and combined application of zinc sulphate and triftazin (the most intensive calmodulin inhibitor) is not efficient. The positive effect of NAD, AMP and aminazine on the state of the glycolytic kidney system in the postischemic period correlates with the improvement of the blood microcirculation processes in them.
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PMID:[Glycolysis in the rat kidney shortly after ischemia and administration of calmodulin inhibitors, AMP and NAD]. 379 79

The effect of ischemia on the concentration of active pyruvate dehydrogenase (PDH) complex has been investigated in glucose-perfused hearts of normal rats fed a normal diet or a high-fat diet or starved for 48 hr and in hearts from alloxan-diabetic rats. Global ischemia induced by low flow (approximately equal to 1 ml/min) lowered the concentration of active complex under most conditions employed. Parallel studies of the effect of anoxia and of potassium arrest of the heart indicated that the effect of low-flow ischemia may result from decreased mechanical activity of the heart as a consequence of tissue hypoxia; the enzymatic mechanism may be activation of PDH kinase by increased reduction of mitochondrial NAD. In hearts of normal rats fed a normal diet, global ischemia induced by zero flow increased the concentration of active complex. Evidence is given that this may result from a combination of anoxia and acidosis. In aerobic perfusions, concentrations of active complex were ranked in the order: normal diet greater than high-fat diet greater than 48-hr starved greater than alloxan-diabetic. This order was maintained when the concentration of active complex was lowered by global ischemia induced by zero flow.
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PMID:Regulation of pyruvate dehydrogenase complex activity during myocardial ischemia. 399 45


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