UMLS:C0022116 - FACTA Search

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

The effects of 3 hours of ischemia and 1 hour of reperfusion on biochemical, physiological and ultrastructural parameters were studied in 12 dogs. In the ischemic subendocardium without reperfusion, mitochondrial losses of adenine (ATP + ADP + AMP) and pyridine (NAD + NADH) nucleotides far exceeded those observed in whole tissue. Adenine nucleotide translocator (ANT) was severely inhibited and seemed to be a sensitive indicator of a lesion of the inner mitochondrial membrane. Postischemic reperfusion led to a slight loss of adenine and pyridine nucleotides from the reversibly damaged subepicardium and to an enormous loss from the irreversibly damaged subendocardium. The washout of nucleotides from irreversibly damaged areas caused the negative para-Nitro Blue Tetrazolium ( pNBT ) staining of the infarcted tissue. Diagnosis of cell death with pNBT failed after the occlusion period without reflow because pyridine, although lost from the mitochondria, was still present in the tissue. In reversibly injured areas, mitochondrial function and ultrastructure were restored after reperfusion, although a significant nucleotide loss was found in the tissue. These studies suggest that mitochondrial ultrastructure and function may play a key role in cellular viability during recovery from ischemia.
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PMID:Mitochondrial damage during myocardial ischemia. 674 90

Ischemic preconditioning of the heart is referred as a manifest increase in tolerance of the myocardium to otherwise damaging ischemic insult, achieved by one or few consequent initial short exposures to ischemia, each followed by reperfusion of the ischemic area. Several mechanisms such as opening of collateral vessels, the action of catecholamines, inositol phosphates, G-proteins and/or adenosine; inhibition of mitochondrial ATPase, the effects of different endogenous protective substances like heat stress or shock proteins, etc., are believed to cooperate in the mechanism of induction of preconditioning or in maintaining its effect. The present study is an attempt to extend the present knowledge about preconditioning from two aspects: i.) the peculiarities of energy equilibrium in preconditioned myocardium including adaptation of cardiac sarcolemmal ATPases to ischemia and/or hypoxia, and ii) participation of a new endogenous cardioprotective substance in the mechanism of preconditioning. The energy equilibrium in preconditioning is characterized by adaptation of cardiac energy demands to the capacity of energy production and delivery decreased by anaerobiosis and is manifested by constant ratios between ATP, ADP, AMP and the sum of ADN. Principles are proposed that may enable a prediction and mathematical modelling of the balanced energetic state in the preconditioned myocardium. These principles are based on thermodynamics and involve besides others a more economic handling of ATP by sarcolemmal ATPases. The latter enzymes adapt themselves to lowered availability of ATP by decreasing besides their Vmax also their values of Km (increase in the affinity) for ATP and some of them even adjust their activation energy (the anaerobiosis-induced elevation of Ea.t. is missing).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Adaptation of the heart to ischemia by preconditioning: effects on energy equilibrium, properties of sarcolemmal ATPases and release of cardioprotective proteins. 749 41

Nerve growth factor (NGF), which has been shown to act as a morphological and neurochemical differentiating factor in PC12 cells, also protects PC12 cells from the toxicity of serum withdrawal and ischemia. By using a previously established in vitro model of ischemia, which incorporates the combination of anoxia with glucose deprivation (Boniece and Wagner: J Neurosci 13:4220-4228, 1993), we have been able to study the signal transduction pathways upon which NGF-induced survival is dependent. Here we demonstrate that inhibitors of the N-kinase and NGF-induced neuritogenesis, 6-thioguanine and 2-aminopurine, prevent the protective effects of NGF, while they have little, if any, effect on the protection conferred by epidermal growth factor (EGF) or dbcAMP. This suggests that only NGF acts by a mechanism that depends strongly on the N-kinase. Furthermore, the methyltransferase inhibitor 5'-deoxy-5'-methylthioadenosine (MTA), which also inhibits NGF-induced neuritogenesis, inhibits the protective effect of NGF but not the protective effects of EGF or dbcAMP. Thus, the neuroprotective effect of NGF requires some of the same signal transduction steps used by NGF to promote differentiation and neurite formation. Furthermore, we found that exposure of PC12 cells to retinoic acid, which promotes the differentiation and inhibits the growth of PC12 cells, also improves cell survival during ischemia. In addition, a combination of NGF and retinoic acid was more effective than either agent alone. It is likely that these two agents confer protection by independent pathways.
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PMID:NGF protects PC12 cells against ischemia by a mechanism that requires the N-kinase. 771 16

The effect of nucleoside transport inhibition on the adenylate catabolism was studied in the human myocardium under normothermic ischemic conditions. Ten hearts from cardiac transplant recipients and two hearts from cardiac homograft donors were used in this study. The hearts were excised under hypothermic conditions (25 degrees C body temperature), the coronary arteries flushed with 500 ml ice-cold Ringer solution (n = 6; group I) or with ice-cold Ringer solution containing 1 mg/l of the nucleoside transport inhibitor R75231 (n = 6; group II). After transportation at 0 degree C from the operation room, the hearts were quickly rewarmed to 37 degrees C. Serial transmural biopsy specimens were taken during normothermic ischemia for determination of purine catabolites. The level of ATP before normothermic ischemia was 17.5 +/- 1.0 mumol/g dry weight in the control group (group I) and 19.3 +/- 0.4 mumol/g dry weight in the drug group. ATP, expressed as percentage of total purine content, was similar in both groups before rewarming (79.5 +/- 4.3% in group I and 79.5 +/- 2.9% in group II). There was no significant difference in the rate of ATP breakdown in both groups throughout the experiment (ATP was 3.0 +/- 1.4% of total purines in group I and 1.4 +/- 0.2% in group II at 120 min of normothermic ischemia). Adenine nucleotide content changed also similarly in both groups. Adenosine accumulation was, however, significantly higher in group II than in group I (peak values: 4.6 +/- 1.0% of total purines in group I vs 14.0 +/- 1.7% in group II; p < 0.01). The ratio between adenosine and inosine was significantly higher in group II throughout normothermic ischemia (p < 0.01). In spite of a larger accumulation of adenosine in group II, the increase in inosine was similar in both groups. We conclude that nucleoside transport inhibition significantly delays the breakdown of adenosine and the formation of hypoxanthine in the ischemic human myocardium.
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PMID:Effect of nucleoside transport inhibition on adenosine and hypoxanthine accumulation in the ischemic human myocardium. 821 16

Cardiac sarcoplasmic reticulum (SR) plays an important role in regulation of the intracellular Ca2+ concentration. It is well known that intracellular Ca2+ overload is one cause of reperfusion injury. Thus, it is predicted that reperfusion injury of myocardium can be prevented by eliminating the Ca2+ overload. This study examined the effects of caffeine, a SR blocker, on reperfusion injury in isolated perfused rat hearts. Working hearts were reperfused for 25 min after 30 or 50 min of ischemia. Caffeine (10(-4) M) was administered during the period of ischemia or the initial 5 min of reperfusion. The left ventricular pressure and the electrocardiogram were recorded. Rate-pressure products were calculated as an index of cardiac function. Adenine nucleotides were measured by high-performance liquid chromatography to assess energy charge. The administration of caffeine for a short period during the initial reperfusion significantly improved cardiac function in the hearts. Caffeine pretreatment during 50 min of ischemia, though, resulted in deterioration of both energy charge and cardiac function. Caffeine did not affect the incidence of either ventricular fibrillation or reversion to sinus rhythm. The energy charges were lower in the preparations with sustained ventricular fibrillation.
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PMID:Effects of caffeine on ischemia-reperfusion injury in isolated rat hearts. 824 49

Trimetazidine (TMZ) has been described as a new antiischemic agent. Whereas its precise mechanism of action remains unknown, antioxidant properties and the ability to preserve high-energy phosphate metabolism have been reported. Accordingly, we studied whether TMZ may limit postischemic regional myocardial stunning (known to be caused by reactive oxygen species) and influence recruitment of contractile reserve by inotropic stimulation in a dog model, using halothane to maintain steady anesthesia throughout the experiment. Dogs were submitted to a 15-min coronary artery occlusion followed by reperfusion. The blinded protocol included a 3-day oral pretreatment (1 mg/kg/day), a bolus injection (0.5 mg/kg), followed by intravenous infusion (0.5 mg/h) initiated 15 min before coronary artery occlusion. Despite lower heart rate (HR) and significant reduction of lipid peroxidation in treated dogs, myocardial stunning and recruitment of contractile reserve by dobutamine infusion in the postischemic myocardium were not modified by TMZ. Adenine nucleotide pool in the postischemic myocardium was considerably reduced as compared with the nonischemic myocardium in both groups. Therefore, in halothane-anesthetized dogs, the antioxidant properties of TMZ were not sufficient to protect myocardium in terms of postischemic dysfunction after 15-min ischemia.
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PMID:Effect of trimetazidine on postischemic regional myocardial stunning in the halothane-anesthetized dog. 889 73

Both cold and warm ischemia occur during liver transplantation. Hypothermia and Wisconsin solution preserve adenine nucleotide energy status, which is crucial to hepatic function and viability. The volatile anesthetic isoflurane has been shown to preserve energy status in anoxic isolated hepatocytes in warm Krebs solution. The present study examined isoflurane effects on energy status during incubation also in Wisconsin or Krebs-plus-adenosine solution at 37 degrees or 4 degrees. Hepatocytes were isolated from rat liver after perfusion with Krebs + collagenase. In 25-mL flasks, 12.5 million cells in 2.5 mL of Krebs, Krebs plus 5 mmol/L adenosine, or Wisconsin solution were incubated under an atmosphere of O2/CO2 or N2/CO2 (19:1) +/- isoflurane (3 volumes% = 2ED50), for 30 minutes at 37 degrees C or 4 degrees C. Adenine nucleotides were measured by high-performance liquid chromatography (HPLC), lactate enzymatically. During warm (37 degrees) anoxia, Wisconsin solution preserved energy status; Krebs plus adenosine did not. Isoflurane further protected energy status in all three solutions. Hypothermia (4 degrees) alone greatly decreased anoxic loss of energy status in all solutions. In Wisconsin solution only, energy status tended to be higher in anoxic than in oxygenated cells and was further enhanced by isoflurane, with corresponding increases in lactate. During 30 minutes of either warm or cold anoxia, isoflurane and Wisconsin solution each helped preserve adenine nucleotide energy status in isolated hepatocytes, at least in part through enhanced glycolysis.
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PMID:Energy status in anoxic rat hepatocytes: effects of isoflurane, solution composition, and hypothermia. 934 69

In a previous report, we have demonstrated that simultaneous inhibition of nucleoside transport and adenosine deaminase accumulates endogenous adenosine and protects the myocardium against stunning. The differential cardioprotective effects of erythro-9(2-hydroxy-3-nonyl)-adenine (EHNA), a potent inhibitor of adenosine deamination but not transport, and p-nitrobenzylthioinosine (NBMPR), a selective blocker of adenosine and inosine transport, are not known. Thirty-seven anaesthetized adult dogs were instrumented to monitor left ventricular performance using sonomicrometery. Dogs were randomly assigned into four groups. The control group (n = 8) received only the vehicle solution. Treated groups received saline containing 100 microM EHNA (EHNA-group, n = 7), 25 microM NBMPR (NBMPR-group, n = 7), or a combination of 100 microM EHNA and 25 microM NBMPR (EHNA/NBMPR-group, n = 10). Hearts were subjected to 30 min of normothermic global ischaemia and 60 min of reperfusion while on bypass. Adenine nucleotides, nucleosides, oxypurines and NAD+ were determined in extracts of transmural myocardial biopsies using HPLC. TTC staining revealed the absence of necrosis in this model. Drug administration did not affect myocardial ATP metabolism and cardiac function in the normal myocardium. Ischemia caused about 50% ATP depletion and accumulation of nucleosides. The ratio between adenosine/inosine at the end of ischemia was 1:10, 1:1, 1:1 and 10:1 in the control, EHNA-, NBMPR- and EHNA/NBMPR-group, respectively. Upon reperfusion, both nucleosides washed out from the myocardium in the control and EHNA-group while retained in the myocardium in the NBMPR and EHNA/NBMPR groups. Ventricular dysfunction 'stunning' persisted in the control group (52%) and in the EHNA-treated group (32%) after 30 min of reperfusion. Significant improvement of function was observed in the EHNA group only after 60 min of reperfusion. LV function recovered in the NBMPR- and EHNA/NBMPR-treated groups during reperfusion. ATP recovery occurred only when animals were pretreated with the combination of EHNA/NBMPR and remained depressed in the control group and EHNA and NBMPR-treated groups. At post mortem, TTC staining revealed the absence of myocardial necrosis. Superior myocardial protection was observed with inhibition of nucleoside transport by NBMPR alone or in combination with inhibition of adenosine deaminase by EHNA. Selective blockade of nucleoside transport by NBMPR is more cardioprotective than inhibition of adenosine deaminase alone in attenuating myocardial stunning. It is not known why EHNA partially inhibit adenosine deaminase, in vivo.
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PMID:Differential cardioprotection with selective inhibitors of adenosine metabolism and transport: role of purine release in ischemic and reperfusion injury. 954 45

Twelve canine left lung allotransplantation were performed. In the ischemic preconditioning group (Group IP, n = 6), left donor lung was preconditioned with 10 min ischemia followed by 15 min reperfusion using the occuluding left hilum before resection and cold perfusion. The control group (Group C, n = 6) underwent the same treatment but without ischemic preconditioning. Adenine nucleotides (ATP, ADP, AMP) of the donor lung tissue were measured using rHPLC after 2 hr of resection and cold perfusion with Euro-Collins solution (ECS). The results showed that contents of ATP and total adenine nucleotides (TAN) were much higher in Group IP than in Group C (322.9 +/- 61.2, 942.9 +/- 134.5 and 200.0 +/- 50.0, 668.4 +/- 59.6 mumol.g-1 respectively, P < 0.05). Histologic examination of the donor lung in Group IP showed less damage than in Group C after 2 hr of transplantation. The results suggest that IP combined with cold ECS perfusion can reduce the energy metabolism in canine donor lung.
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PMID:[Effect of ischemic preconditioning on adenine nucleotide levels of graft lung from canine donor]. 986 17

Mitochondria alteration is an early event in ischemia-induced damage, and its prevention improves tissue survival upon reperfusion. Adenine translocase and complex I activities are rapidly affected by ischemia. Ginkgo biloba extract demonstrates anti-ischemic properties attributable to the terpenoid fraction, mainly due to the presence of bilobalide. The mechanism of the protection afforded by bilobalide is not yet known. In this work, the effects of bilobalide on mitochondrial respiration were investigated. Mitochondria isolated from rats treated with bilobalide (2 to 8 mg/kg) showed a dose-dependent increase in the respiratory control ratio, due to a lower oxygen consumption during state 4. Bilobalide also decreased the sensitivity of oxygen consumption to inhibition of complex I by Amytal or to inhibition of complex III by antimycin A or myxothiazol. There was no protection of complexes IV and V. It also increased the activity of complex I but not of adenine translocase. Similar effects were also obtained in vitro when control mitochondria were preincubated for 1 hr with 0.8 microg/mL bilobalide. Treatment of the rats with 8 mg/kg bilobalide also prevented the ischemia-induced decrease in state 3 of the mitochondrial respiration and thus the decrease in RCR. The protective effect of bilobalide on cellular ATP content observed under ischemic conditions can be correlated with the above observations. By protecting complex I and III activities, bilobalide allows mitochondria to maintain their respiratory activity under ischemic conditions as long as some oxygen is present, thus delaying the onset of ischemia-induced damage. This mechanism provides a possible explanation for the anti-ischemic properties of bilobalide and of Ginkgo biloba extract in therapeutic interventions.
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PMID:Protection of mitochondrial respiration activity by bilobalide. 1040 24

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