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Query: UMLS:C0003129 (Anoxia)
 551 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Effects of glucose concentration and anoxia upon the metabolite concentrations and rates of glycolysis and respiration have been investigated in the perfused liver of the fetal guinea pig. In most cases the metabolite concentrations in the perfused liver were similar to those observed in vivo. Between 50 days and term there was a fall in the respiratory rate and in the concentration of ATP and fructose 1,6-diphosphate and an increase in the concentration of glutamate, glycogen and glucose. Reducing the medium glucose concentration from 10 mM to 1 mM or 0.1 mM depressed lactate production and the concentration of most of the phosphorylated intermediates (except 6-phosphogluconate) in the liver of the 50-day fetus. This indicates a fall in glycolytic rate which is not in accord with the known kinetic properties of hexokinase in the fetal liver. Anoxia increased lactate production by, and the concentrations of, the hexose phosphates ADP and AMP in the 50-day to term fetal liver, while the concentration of ribulose 5-phosphate, ATP and some triose phosphates fell. These results are consistent with an activation of glycolysis, particularly at phosphofructokinase and of a reduction in pentose phosphate pathway activity, particularly at 6-phosphogluconate dehydrogenase. The calculated cytosolic NAD+/NADH ratio for the perfused liver was similar to that measured in vivo and evidence is presented to suggest that the dihydroxyacetone phosphate/glycerol 3-phosphate ratio gives a better indication of cytosolic redox than the lactate/pyruvate ratio. The present observations indicate that phosphofructokinase hexokinase and possibly pyruvate kinase control the glycolytic rate and that glyceraldehyde-3-phosphate dehydrogenase is at equilibrium in the perfused liver of the fetal guinea pig.
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PMID:Some effects of glucose concentration and anoxia on glycolysis and metabolite concentrations in the perfused liver of fetal guinea pig. 2 74

Anoxia has been compared with ischaemia. The abrupt restoration of either oxygen of flow may accelerate cardiac damage. Anoxic stimulation of glycolysis (Pasteur effect) is inhibited during ischaemia by lactate and proton accumulation at the levels of phosphofructokinase and glyceraldehyde-3-phosphate dehydrogenase. Anaerobic glycolysis provides lactate and ATP; breakdown of the latter provides protons. During partial respiration thought to occur in partial ischaemia, continued production of CO2 is a factor contributing to intracellular acidosis; mitochondrial ATP when formed by continued respiration also yields protons when ultimately broken down. The endoproducts of aerobic glycolysis (pyruvate and NADH) are transported into the mitochondria by the malate-aspartate cycle and by pyruvate dehydrogenase activity. Adenine nucleotide transferase activity normally transfers the mitochondrially-made ATP to the cytoplasm, but acyl CoA accumulates in ischaemia (or during perfusions with high circulating free fatty acids) to inhibit the transferase. The mitochondrial creatine kinase is thought to transform ATP transported outwards into creatine phosphate which can permeate the outer mitochondrial membrane. Further compartmentation of ATP may be by other creatine kinase isoenzymes or in relation to the cell membrane. The glycogenolytic-sarcoplasmic reticulum complex links a glycogen pool to the sarcoplasmic reticulum. Cyclic AMP may regulate admission of calcium to the cell during the plateau of the action potential and promote calcium uptake by the sarcoplasmic reticulum by phosphorylation of phospholamban. The latter promotes the activity of the calcium-transport ATPase. Calcium and cyclic AMP may also interact at the level of the contractile proteins where cyclic AMP phosphrylates troponin. Cyclic GMP generally has opposite effects to cyclic AMP and undergoes opposite changes in the frog cardiac cycle to those of cyclic AMP. A present it is reasonable to suppose that physiological effects of adrenaline or of cholinergic agents on the myocardium are mediated by cyclic AMP or cyclic GMP, respectively, but this hypothesis still lacks firm support. There is an association between tissue cyclic AMP and ventricular fibrillation after coronary ligation, and direct evidence for a role of cyclic AMP in promoting arrhythmias has been obtained by studies on the ventricular fibrillation threshold in the rat heart. However, there are other mechanisms, involving first the effects of substrates on the action potential duration, and secondly, the fast channel, which can also give rise to the development of malignant arrhythmias.
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PMID:Myocardial metabolism and heart disease. 3 41

Although basal release of cyclic AMP from isolated perfused rat hearts was not measurable, isoprenaline induced substantial release of the nucleotide, suggesting that in vivo the myocardium can contribute to plasma cyclic AMP. Anoxia also increased the amount of cyclic AMP released, but insulin and nicotinate alone or in combination had no effect.
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PMID:The release of adenosine 3':5'-cyclic monophosphate from the isolated perfused rat heart. 17 4

We studied the relationships between the positive inotropic effects of isoproterenol, increased frequency of contraction or paired electrical stimulation, and cyclic AMP concentration and phosphorylase activity in isolated guinea pig papillary muscles. The minimum concentration of isoproterenol (10 nM) that augmented isometric force development increased cyclic AMP concentration. However 100 nM isoproterenol was required to increase the phosphorylase activity ratio (-AMP/+AMP) from 0.15 +/- 0.03 to 0.25 +/- 0.03. After addition of 1 muM isoproterenol to the bath, cyclic AMP increased within 0.5 minute from 0.58 +/- 0.03 to 1.04 +/- 0.13 mol/kg (wet weight), peak contractile force was elevated 2-fold at 1 minute, and the phosphorylase activity ratio rose to 0.40 +/- 0.02 in 4 minutes. Although an increase in contraction frequency (6/min to 36/ min) and paired stimulation produced more than a 3-fold increase in peak contractile force, there were no changes in cyclic AMP and phosphorylase activity. The cyclic AMP concentration during diastole was 0.60 +/- 0.04 and in midsystole, 0.55 +/- 0.03 mumol/kg. Anoxia increased the phosphorylase activity ratio from 0.19 +/-0.02 to 0.41 +/- 0.04 without elevation of cyclic AMP concentration. Removal of Ca2+ from the bathing medium prevented active force development and the anoxic increase in phosphorylase activity, but did not prevent the isoproterenol-induced increase in cyclic AMP and phosphorylase. These results suggest that cyclic AMP is a factor in the catecholamine-induced enhancement of inotropic state. However, it does not appear to play a role in the maintained augmentation of inotropic state produced by increased contraction frequency and paired stimulation, nor does the concentration of the cycle nucleotide appear to vary during the contraction cycle or during anoxia. Extracellular Ca2+ is required for contraction, the positive inotropic aciton of catecholamines and phosphorylase b to a conversion by anoxia.
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PMID:The role of cyclic adenosine 3', 5'-monophosphate and calcium in the regulation of contractility and glycogen phosphorylase activity in guinea pig papillary muscle. 18 12

Renal cortex slices from newborn, 2-week, and 4-week-old Sprague-Dawley rats had reduced initial rates of taurine uptake compared to adult slices after short (less than 30 min) incubation periods. From birth onward, steady-state accumulation occurred by at least two sodium-dependent uptake systems. The first system had an "apparent Km1" = 0.1 mM and a Vmax varying from 1.8 to 5.1 mumoles/ml ICF/120 min at four ages. The second uptake mode had an apparent Km2 = 12-16 mM and a Vmax of 45 mumoles/ml ICF/120 min. Efflux of taurine was reduced in slices from younger animals possibly accounting for taurinuria. Only other beta-amino acids inhibited accumulation. Anoxia inhibited uptake at high concentration ( greater than 1.0 mM) at each age, but taurine accumulation at low concentrations ( less than 0.4 mM) was relatively protected from anoxia in neonatal ( less than 36 hr of age) tissue. Preincubation in taurine-free medium for 120 min enhanced low concentration, but not high concentration uptake in neonatal and 2-week slices. After preincubation in dibutyryl cyclic AMP (dbcAMP) enhanced uptake of taurine was found in adult cortex, but not in neonatal cortex. The ontogeny of renal taurine transport in cortex slices appeared to involve faster initial uptake rates and faster efflux as well as greater dependence on aerobic metabolism with maturation. Age-related differences in the response to preincubation and cyclic nucleotides were also indicative of maturation events in renal tubular amino acid transport.
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PMID:Development aspects of renal beta-amino acid transport II. Ontogeny of uptake and efflux processes and effect of anoxia. 22 17

A vibration technique was used to dislocate the epithelium from the rat small intestine, in order to study the possible regulatory role of the epithelium on intestinal motility. Complete removal of the epithelium led to a slightly potentiated contraction of the longitudinal smooth muscle by the muscarinic agonist methacholine (pD2. 6.5 +/- 0.1 vs. 6.2 +/- 0.2). The maximal beta-adrenergic response expressed relative to the relaxation by 0.5 mM dibutyryl cyclic AMP increased from 55.9 +/- 9.0% to 72.6 +/- 9.1% by this treatment. Efforts were made to relate these observations to the endothelium-dependent relaxation in blood vessels, but no indication was found for a similar mechanism in the small intestine. Not only mechanical dislocation can be employed to affect the mucosal layer, but also intestinal ischemia has been reported to lead to mucosal damage. In this study we mimicked ischemia by applying in vitro anoxia and subsequent reoxygenation to isolated intestinal segments. When intestinal segments are isolated and kept in physiological buffer, xanthine dehydrogenase is converted slowly to xanthine oxidase, irrespective of whether the buffer is oxygenated or not. No evidence was found for oxygen radical damage after anoxia and reoxygenation. However, the intestinal mucosa was damaged both after normoxia, and after anoxia and reoxygenation. Anoxia and subsequent reoxygenation did not affect muscarinic contraction, but slightly increased the beta-adrenergic relaxation, which partly correlates with the effects of mechanical dislocation of the epithelium. The increased sensitivity of the smooth muscle after epithelial damage might be involved in motility changes during intestinal inflammatory diseases.
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PMID:Role of the epithelium in the control of intestinal motility: implications for intestinal damage after anoxia and reoxygenation. 141 84

The turnover of the adenine nucleotide pool, the pathway of the degradation of AMP and the occurrence of recycling of adenosine were investigated in isolated chicken hepatocytes, in which the adenylates had been labelled by prior incubation with [14C]adenine. Under physiological conditions, 85% of the IMP synthesized by the 'de novo' pathway (approx. 37 nmol/min per g of cells) was catabolized directly via inosine into uric acid, and 14% was converted into adenine nucleotides. The latter were found to turn over at the rate of approx. 5 nmol/min per g of tissue. Inhibition of adenosine deaminase by 1 microM-coformycin had no effect on the formation of labelled uric acid, indicating that the initial degradation of AMP proceeds by way of deamination rather than dephosphorylation. Inhibition of adenosine kinase by 100 microM-5-iodotubercidin resulted in a loss of labelled ATP, demonstrating that adenosine is normally formed from AMP but is recycled. Unexpectedly, 5-iodotubercidin did not decrease the total concentration of ATP, indicating that the loss of adenylates caused by inhibition of adenosine kinase was nearly completely compensated by formation of AMP de novo. Anoxia induced a greatly increased catabolism of the adenine nucleotide pool, which proceeded in part by dephosphorylation of AMP. On reoxygenation, the formation of AMP de novo was increased 8-fold as compared with normoxic conditions. The latter results indicate the existence of adaptive mechanisms in chick liver allowing, when required, channelling of the metabolic flux through the 'de novo' pathway, away from the uricotelic catabolic route, into the synthesis of adenine nucleotides.
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PMID:Adenine nucleotide metabolism in isolated chicken hepatocytes. 359 67

The effect of anoxia or 2,4-dinitrophenol (DNP) on the phosphorylase activity and the cyclic AMP and the cyclic GMP content was studied in smooth muscle preparations. When the aerobic conditions were changed to anaerobic in experiments on bovine mesenteric artery, there was a significant increase in the activity of phosphorylase a during the first 60 min. We had observed a reduction of the glycogen content of the artery during this time period, which accounted for about 2/3 of the increase in lactate production (Pasteur effect). Under anaerobic conditions the content of cyclic AMP in the vessel was not changed, and the increase in phosphorylase a activity was not inhibited by a blockade of adrenergic beta-receptors. DNP, which like anoxia inhibits the mitochondrial production of ATP, increased the phosphorylase a activity to the same extent as anoxia. Anoxia and DNP also enhanced the activity of phosphorylase a in pig thoracic aorta and rabbit colon smooth muscle. In thoracic aorta both anoxia and DNP produced a more transient and smaller increase in the phosphorylase a activity than in the mesenteric artery. The Pasteur effect was also relatively smaller (100%) in thoracic aorta than in mesenteric artery (400%). It is suggested that an anoxic increase in the phosphorylase a activity participates in the Pasteur effect in smooth muscle.
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PMID:Influence of anoxia and dinitrophenol on the phosphorylase a activity and the cyclic nucleotide content of smooth muscle. 613 48

Factors regulating the release of phosphatidylcholine (PC) from neonatal-rat lungs were investigated. The results show that the release of prelabelled PC from the newborn-rat lung was augmented by air ventilation at the onset of breathing. This response was mimicked in lungs of pups delivered 1 day before term and allowed to breathe for different time intervals. Anoxia further augmented the ventilation-enhanced PC release from the newborn-rat lungs. The ventilation-induced release of PC was not abolished by the prior treatment of pups in utero or mothers in vivo with phenoxybenzamine, propranolol or atropine, suggesting the lack of receptor stimulation in the ventilation-enhanced PC release at birth. The results also show that ventilation stimulated [methyl-14C]choline incorporation into lung PC, presumably to replenish the depleted surfactant stores. The ratio of adenylate cyclase/cyclic AMP phosphodiesterase activities, which reflects cyclic AMP levels in the developing rat lungs, did not change during the 120 min of air ventilation when the release of PC was much enhanced, implying that cyclic AMP may not be involved. This confirms our conclusion that stimulation of beta-adrenergic receptor was not involved in the air-ventilation-enhanced release of PC. Since the cell number or size did not change during 120 min of ventilation when the alveolar-cell surface was maximally distended, it is suggested that distension of alveolar wall by air ventilation at the onset of breathing may bring the lamellar bodies containing surfactant close to the luminal surface of alveolar type II cells, thereby enhancing their fusion and extrusion by exocytosis.
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PMID:Ventilation-induced release of phosphatidylcholine from neonatal-rat lungs in vitro. 647 85

The aim of this work was to study whether changes in fructose 2,6-bisphosphate concentration are correlated with variations of the glycolytic flux in the isolated working rat heart. Glycolysis was stimulated to different extents by increasing the concentration of glucose, increasing the workload, or by the addition of insulin. The glycolytic flux was measured by the rate of detritiation of [2-3H]- and [3-3H]glucose. Under all the conditions tested, an increase in fructose 2,6-bisphosphate content was observed. The glucose- or insulin-induced increase in fructose 2,6-bisphosphate content was related to an increase in the concentration of fructose 6-phosphate, the substrate of 6-phosphofructo-2-kinase. An increase in the workload correlated with a 50% decrease in the Km of 6-phosphofructo-2-kinase for fructose 6-phosphate. Similar changes in Km have been observed when purified heart 6-phosphofructo-2-kinase was phosphorylated in vitro by the cyclic AMP-dependent protein kinase or by the calcium/calmodulin-dependent protein kinase. Since the concentration of cyclic AMP was not affected by increasing the workload, it is possible that the change in Km of 6-phosphofructo-2-kinase, which was found in hearts submitted to a high load, resulted from phosphorylation by calcium/calmodulin protein kinase; other possibilities are not excluded. Anoxia decreased the external work developed by the heart, stimulated glycolysis and glycogenolysis, but did not increase fructose 2,6-bisphosphate.
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PMID:Role of fructose 2,6-bisphosphate in the control of heart glycolysis. 851 65


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