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)

Very recent experimental data, obtained by using the permeabilized cell technique or tissue homogenates for investigation of the mechanisms of regulation of respiration in the cells in vivo, are shortly summarized. In these studies, surprisingly high values of apparent Km for ADP, exceeding that for isolated mitochondria in vitro by more than order of magnitude, were recorded for heart, slow twitch skeletal muscle, hepatocytes, brain tissue homogenates but not for fast twitch skeletal muscle. Mitochondrial swelling in the hypo-osmotic medium resulted in the sharp decrease of the value of Km for ADP in correlation with the degree of rupture of mitochondrial outer membrane, as determined by the cytochrome c test. Very similar effect was observed when trypsin was used for treatment of skinned fibers, permeabilized cells or homogenates. It is concluded that, in many but not all types of cells, the permeability of the mitochondria outer membrane for ADP is controlled by some cytoplasmic protein factor(s). Since colchicine and taxol were not found to change high values of the apparent Km for ADP, the participation of microtubular system seems to be excluded in this kind of control or respiration but studies of the roles of other cytoskeletal structures seem to be of high interest. In acute ischemia we observed rapid increase of the permeability of the mitochondrial outer membrane for ADP due to mitochondrial swelling and concomitant loss of creatine control of respiration as a result of dissociation of creatine kinase from the inner mitochondrial membrane. The extent of these damages was decreased by use of proper procedures of myocardial protection showing that outer mitochondrial membrane permeability and creatine control of respiration are valuable indices of myocardial preservation. In contrast to acute ischemia, chronic hypoxia seems to improve the cardiac cell energetics as seen from better postischemic recovery of phosphocreatine, and phosphocreatine overshoot after inotropic stimulation. In general, adaptational possibilities and pathophysiological changes in the mitochondrial outer membrane system point to the central role such a system may play in regulation of cellular energetics in vivo.
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PMID:On the regulation of cellular energetics in health and disease. 890 74

The authors have previously shown that ischemia causes inhibition of the respiratory chain and phosphorylation system, and stimulation of the proton leak of mitochondria isolated from rat heart. It is shown here that the activity of the mitochondrial respiratory chain (after 30 min ischemia, but not after 45 min) and the phosphorylation system are completely restored to the normal level by the addition of exogenous cytochrome c when succinate is used as substrate. Moreover, cytochrome c causes apparent activation of the respiratory chain, the phosphorylation system and the proton leak in normal mitochondria. This can be explained by a fraction of the mitochondrial population lacking cytochrome c and this fraction may increase with ischemia. Experiments on skinned cardiac fibers showed that cytochrome c has no effect on mitochondrial respiration after 15 min ischemia, but the stimulation of respiration by cytochrome c progressively increases when ischemia was prolonged up to 30 min and 45 min, suggesting that the loss of cytochrome c may occur in vivo during the early reversible phase of ischemia. Mitochondria isolated from hearts after 45 min ischemia have a defect in the respiratory chain unrelated to the loss of cytochrome c. These mitochondria have an increased level of Ca2+: 10.05 nmol/mg protein compared to 4.64 nmol/mg in control mitochondria and 4.32 nmol/mg in 30 min ischemic mitochondria. The increase in the proton leak in ischemic mitochondria is mostly reversible by albumin and thus, may be related to an increased level of free fatty acids in ischemic mitochondria.
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PMID:Kinetic analysis of changes in activity of heart mitochondrial oxidative phosphorylation system induced by ischemia. 893 Aug 14

This study tests the hypothesis that adenosine A2 receptor activation reduces reperfusion injury by inhibiting neutrophils in a canine model of ischemia and reperfusion. In 16 anesthetized, open-chest dogs, the left anterior descending coronary artery was ligated for 60 min and reperfused for 3 hr. An intracoronary infusion of either the selective adenosine A2 agonist CGS-21680 at 0.2 microgram/kg/min (n = 8) or vehicle (n = 8) was started 5 min before reperfusion and discontinued after 60 min. The area at risk was comparable between vehicle-treated and CGS-21680-treated groups (39.6 +/- 4.1 vs. 37.1 +/- 2.5% of left ventricle). Infarction size, determined with triphenyltetrazolium chloride, was smaller in the CGS-21680-treated group than in the vehicle-treated group (15.4 +/- 2.9 vs. 29.8 +/- 2.3% of area at risk, P < .05 vs. vehicle-treated group). CGS-21680 significantly reduced neutrophil accumulation (myeloperoxidase activity) in the nonnecrotic area at risk tissue, compared with the vehicle-treated group (2.12 +/- 0.5 vs. 6.47 +/- 0.6 U/g of tissue, P < .05 vs. vehicle-treated group). In in vitro studies, CGS-21680 reduced platelet-activating factor (PAF)-activated canine neutrophil adherence to the endothelial surface of normal homologous coronary artery segments. Compared with PAF-stimulated neutrophils (188.4 +/- 9.4 adhered neutrophils/mm2), CGS-21680 reduced adherence close to base-line levels (46.6 +/- 5.8 adhered neutrophils/mm2) at concentrations of 10 microM (65.6 +/- 8.2 adhered neutrophils/mm2, P < .05 vs. PAF-stimulated group) and 50 microM (56.6 +/- 4.6 adhered neutrophils/mm2, P < .05 vs. PAF-stimulated group). Superoxide anion production (cytochrome c reduction) by activated neutrophils was reduced by CGS-21680 from 33.8 +/- 5.0 to 8.9 +/- 3.6 nmol/5 min/5 x 10(5) cells (P < .05 vs. PAF-stimulated group). We conclude that specific A2 receptor stimulation with CGS-21680 at reflow reduces reperfusion injury by inhibiting neutrophil-related processes.
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PMID:Adenosine A2 receptor activation attenuates reperfusion injury by inhibiting neutrophil accumulation, superoxide generation and coronary endothelial adherence. 899 10

In order to elucidate the mechanism(s) of neuronal protection by hypothermia against ischemic damage, we examined the effect of lowering temperature on the microglial activation that is thought to cause the development of ischemia-induced neuronal damages. Cultured microglia from neonatal rats were measured for microglial activation by the following indices: production of superoxide and nitric oxide by the methods of acetyl-cytochrome c reduction and nitrite accumulation in the culture medium, respectively, and cell proliferation evaluated by [3H]thymidine uptake. At 30 degrees C, superoxide production induced by phorbol ester was approximately as low as 30% of the control at 37 degrees C, and nitric oxide production after addition of lipopolysaccharide was decreased to approximately 25% of the control. The time course of nitric oxide production indicates that the induction of nitric oxide synthase seemed to be significantly suppressed by lowering temperature. In addition, the proliferation of microglia was remarkably inhibited at 30 degrees C. The level of proliferation in the hypothermic condition is much lower in microglia (14% of the control) than those in astrocytes cultured from brain cortices (96%) and fibroblasts cultured from brain meninges (53%), suggesting that the microglial activation is highly susceptible to lowering temperature. The present study indicates that hypothermia potently inhibits proliferation, superoxide and nitric oxide production of cultured microglia and that the hypothermic protection against postischemic neuronal damage might be, at least in part, due to the suppression of microglial activation.
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PMID:Hypothermic suppression of microglial activation in culture: inhibition of cell proliferation and production of nitric oxide and superoxide. 930 Apr 14

The skinned fibers technique was applied for studies of the effects of global acute ischemia (1 h at 37 degrees C) and long time (15 h) hypothermic (4 degrees C) preservation of isolated rat hearts under different conditions (immersion or low-flow perfusion) on mitochondrial function in the cells in vivo. Skinned fibers were obtained by using saponin for permeabilization of the sarcolemma in separated fiber bundles cut from left ventricle. The experimental protocol of the respiration rate determination included a cytochrome c test to check the intactness of the outer mitochondrial membrane. The apparent K(m) for ADP and the effect of creatine on the mitochondrial activity were also evaluated in these permeabilized fibers, taken from different groups of hearts. The preservation of low-flow perfused hearts resulted only in a slight decrease of creatine (20 mM) stimulated respiration at 0.1 mM ADP. The fibers from ischemic hearts or from hearts preserved by immersion showed a decrease of the apparent K(m) for ADP, and a complete loss of the stimulatory effect of creatine. In these fibers, we could observe that the outer mitochondrial membrane was damaged. In conclusion, the results of this study show that assessment of mitochondrial parameters sensitive to organelles swelling--intactness of outer membrane and functionally coupled creatine kinase reaction--are the most sensitive indicators of early hypoxic or ischemic damage to mitochondria. Their determination in biopsy samples could be used for evaluation of the efficiency of the cardiac protection in heart surgery.
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PMID:Detection of early ischemic damage by analysis of mitochondrial function in skinned fibers. 930 69

The mitochondrial respiratory parameters were measured in situ, i.e. in saponin-skinned rabbit cardiac fibers and in fibers treated with saponin + collagenase. It was found that the decrease of maximal ADP-stimulated respiration rate of saponin-skinned fibers with pyruvate + malate under the conditions of total ischemia (0.5-1.5 h) is less pronounced as compared to isolated mitochondria. Maximal succinate oxidation rate (+ADP), however, was not different from control (1 h ischemia) but it exceeded the control level when measured in the medium supplemented with cytochrome c. It was also demonstrated that treatment of fibers with collagenase alone or in combination with saponin significantly (almost 2 fold) enhanced the maximal ADP-stimulated respiration rate if compared with saponin-skinned fibers. The data obtained suggest that mitochondrial respiration in saponin-skinned rabbit cardiac fibers is not completely revealed, most probably, due to insufficient permeabilization of sarcolemma by saponin and, thus, inadequate accessibility of mitochondria to exogenous substrates, ADP in particular. These parameters can be improved by pre-treatment of fibers with collagenase.
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PMID:The effects of ischemia and experimental conditions on the respiration rate of cardiac fibers. 930 70

The effect of myocardial ischemia on mitochondrial oxidative phosphorylation was investigated using isolated, buffer-perfused rabbit hearts. After 45 min of global ischemia, oxidative phosphorylation was decreased only in the subsarcolemmal population of mitochondria with all substrates tested. The oxidation of N,N,N',N' tetramethyl p-phenylenediamine-ascorbate, an electron donor to cytochrome oxidase via cytochrome c, was decreased in subsarcolemmal mitochondria [ischemia (n = 6): 76 +/- 3 vs. control (n = 5): 105 +/- 6 nanoatoms O.min-1.mg-1, P < 0.01] but not in interfibrillar mitochondria. Only minor morphological changes were observed by electron microscopy in the isolated mitochondria after ischemia. Neither cytochrome oxidase activity measured under conditions for maximal activity nor the apparent Michaelis constant and maximum velocity values of the two cytochrome c binding sites were different in subsarcolemmal mitochondria isolated from ischemic and control hearts. The cytochrome c content was decreased in subsarcolemmal mitochondria after ischemia (ischemia: 0.111 +/- 0.013 vs. control: 0.156 +/- 0.007 nmol/mg protein, P < 0.05). Thus ischemia decreased the rate of oxidative phosphorylation through cytochrome oxidase selectively in intact subsarcolemmal mitochondria. Ischemic damage to the terminal segment of the electron transport chain involves a decrease in the content of cytochrome c, whereas the expressible catalytic activity of cytochrome oxidase remains unchanged.
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PMID:Myocardial ischemia decreases oxidative phosphorylation through cytochrome oxidase in subsarcolemmal mitochondria. 932 48

The cardioprotective effect of cytochrome c preparations was evaluated according to the test for restriction of the size of the myocardial infarct and the effect on the course of acute myocardial ischemia in acute experiments on dogs. Cytochrome c of biotechnological and animal origin and hemtetradecapeptide caused a marked decrease in the size of the myocardial necrosis in experiments on rats: from 68 +/- 4.3% in the control to 32 +/- 3.4, 46 +/- 8.3 and 44 +/- 4.7%, respectively. In dog experiments the cytochrome c agents reduced the intensity of dp/dt decline and decreased the collateral coronary blood flow in acute myocardial ischemic. They produced a beneficial effect on heart bioenergetics, namely, reduced the lactate level in blood flowing from the zone of the ischemia and glucose consumption by the ischemic myocardium. The cardioprotective effect of biotechnological cytochrome c hemtetradecapeptide was practically identical to the effect of the enzyme of animal origin.
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PMID:[The cardioprotective action of preparations of biotechnological cytochrome c in acute myocardial ischemia]. 962 Nov 69

We examined the effects of the 21-aminosteroid antioxidant U-74389G (16-desmethyl-tirilazad) on the concentration of extracellular superoxide anion following fluid percussion traumatic brain injury (TBI) measured by a cytochrome c-coated electrode and on local cerebral perfusion (CBFld) measured by laser Doppler flowmetry (LDF). U-74389G in a dose of 3 mg/kg reduced superoxide anion concentrations 60 min after TBI significantly but had no significant effect on CBFld. These results indicate that reduction of CBF after TBI can be dissociated from superoxide anion production. Persistent ischemia may limit neuroprotection efficacy and may contribute to divergent outcome results in clinical and animal trials using agents to modify reactive oxygen species.
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PMID:The 21-aminosteroid U-74389G reduces cerebral superoxide anion concentration following fluid percussion injury of the brain. 962 28

The relationships between mitochondrial derangements and cell necrosis are exemplified by the changes in the function and metabolism of mitochondria that occur in the ischemic heart. From a mitochondrial point of view, the evolution of ischemic damage can be divided into three phases. The first is associated with the onset of ischemia, and changes mitochondria from ATP producers into powerful ATP utilizers. During this phase, the inverse operation of F0F1 ATPase maintains the mitochondrial membrane potential by using the ATP made available by glycolysis. The second phase can be identified from the functional and structural alterations of mitochondria caused by prolongation of ischemia, such as decreased utilization of NAD-linked substrates, release of cytochrome c and involvement of mitochondrial channels. These events indicate that the relationship between ischemic damage and mitochondria is not limited to the failure in ATP production. Finally, the third phase links mitochondria to the destiny of the myocytes upon post-ischemic reperfusion. Indeed, depending on the duration and the severity of ischemia, not only is mitochondrial function necessary for cell recovery, but it can also exacerbate cell injury.
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PMID:The role of mitochondria in the salvage and the injury of the ischemic myocardium. 971 44


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