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)

Transient cerebral ischemia results in selective neuronal cell death. The mechanisms underlying this selective vulnerability to ischemia are only beginning to be elucidated. We studied the effect of ischemia on alpha 1-adrenergic receptor binding by measuring [3H]prazosin binding in gerbil forebrain membranes after 10 min of bilateral carotid occlusion. Binding was reduced from 62 +/- 3 to 33 +/- 4 fmol/mg protein. Binding in the same membranes to beta 2-adrenergic receptors were also decreased, but not to the extent of that to alpha 1-adrenergic receptors. Binding to muscarinic cholinergic [( 3H]quinuclydil benzilate) and beta 1-adrenergic receptors were only slightly depressed. Surprisingly, the protein content was significantly increased in the membrane fraction studied from ischemic forebrain (68 +/- 4 mg/g wet weight) compared with sham operated controls (57 +/- 4). The dramatic decrease in alpha 1-adrenergic receptor binding during ischemia is consistent with receptor binding studies of membranes pretreated with phospholipase A2 in vitro. It is not clear what effect this change in alpha 1-adrenergic receptor binding has on subsequent selective neuronal death. The recent demonstration that catecholamines and locus ceruleus neurons influence the loss of CA1 neurons in the hippocampus suggests that it may play an important modulatory role.
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PMID:Rapid reduction in [3H]prazosin binding to gerbil forebrain membranes during bilateral common carotid artery occlusion. 254 Nov 47

The influence of quinacrine, a phospholipase A2 inhibitor, and enzymatic scavengers of active oxygen metabolites (superoxide dismutase and catalase) on ischemic small intestinal mucosal damage has been investigated. In the absence of an inhibitor, ischemia and reperfusion caused increased mucosal permeability to sodium fluorescein, increased N-acetyl-glucosaminidase release from the mucosa into the lumen, increased malondialdehyde content, and increased myeloperoxidase and phospholipase A2 (PLA2) activities in the mucosa. All these effects of ischemia were efficiently inhibited by the PLA2 inhibitor quinacrine. On the other hand, superoxide dismutase together with catalase, even if it totally prevented the increased formation of malondialdehyde, was only able to reduce 50 percent of the increases of the other parameters. These findings indicate that, in addition to free radicals, other factors are involved in the pathogenesis of small intestinal mucosal injury after ischemia and reperfusion. We suggest that one such factor is the activation of PLA2 and the generation of various PLA2-dependent compounds such as arachidonic acid metabolites, lysophosphatidyl choline, and platelet-activating factor.
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PMID:Role of phospholipase A2 and oxygenated free radicals in mucosal damage after small intestinal ischemia and reperfusion. 254 28

The effect of the mitochondrial membrane on the oxygen supply to the interior of mitochondria was analyzed with a cylinder model of diffusion. This estimation is based on the assumption that cytochrome a,a3 is distributed only on the inner surface of the mitochondrial inner membrane. The diffusion coefficient in the mitochondrial membrane was approximated from the fluorescently-determined viscosity of rat mitochondrial membrane. A pico-second time-resolved fluorometer at 37 degrees C gave values of 43.8 cp for intact mitochondria and 51.4 cp after phospholipase A2 treatment. Using the mean oxygen consumption rate of 10 ml O2/100 g tissue/sec in beating heart, oxygen gradients of 3.9 and 4.6 nmol was predicted across the intact and phospholipase-A2 treated mitochondrial membranes, respectively. The increased oxygen consumption during systole will yield oxygen gradients of 11.6 and 13.7 nmol. These gradients were much larger than the values estimated in a hypothetical case using the diffusion coefficient for the mitochondrial membrane of 1.5 x 10(-5) cm2/sec. The predicted oxygen gradient suggests a non-uniform distribution of oxygen in the myocardial cell and may be of importance in understanding the relationship between oxygen supply and myocardial function in hypoxia. Phospholipase A2, which is known to be activated in ischemia, destroys the microstructure of myocardial cells, seems deleterious to oxygen transport to cytochrome a,a3.
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PMID:Oxygen diffusion through mitochondrial membranes. 255 Nov 43

PAF is a phospholipid formed from the action of phospholipase A2 upon cellular membranes in response to immunologic or hypoxic stimuli. PAF does not exist in its active form as a storage product within cells, but is synthesized rapidly after phospholipase A2 activation. A potent lipid released by multiple cell types in mammalian systems, the emerging perspective is that PAF is a major endogenous mediator influencing the pathogenesis and outcome of ischemia and conditions of circulatory shock. These effects appear to be especially relevant to the syndrome of MSOF during critical illness. All of the major criteria for validation of a shock factor have been fulfilled for PAF. First, PAF has been measured in biological fluid of animals during shock states, although this is not an easy task since PAF is formed in minute amounts and is rapidly metabolized. Nevertheless, combinations of high pressure liquid chromatography (HPLC) and bioassay methods employing washed rabbit platelets have been successfully utilized in this regard. Second, synthetic PAF has been injected into cell suspensions, isolated tissues, and live animals, where it produces most of the effects attributed to endogenous PAF released by immunologic or hypoxic stimuli. These studies have shown that PAF exerts a variety of pathophysiologic actions, including (1) cardiodepression (that is, a negative inotropic effect), (2) reductions in systemic blood pressure, (3) leakage of fluid from the microvasculature, (4) bronchoconstriction, and (5) platelet aggregation. All of these actions of PAF can initiate or exacerbate shock and ischemic injury in multiple organ systems. Third, specific PAF receptor antagonists have been found to markedly attenuate the severity of endotoxic, anaphylactic, hemorrhagic, and traumatic shock, as well as acute myocardial ischemia. In all these conditions, a variety of PAF receptor antagonists (including PAF analogues and structurally dissimilar substances) have improved survival and have retarded pathophysiologic processes believed to be important in causing tissue injury. These processes include lysosomal membrane damage and proteolysis. Moreover PAF receptor antagonists attenuate the release of secondary toxic factors in shock, such as myocardial depressant factor. Thus, administration of specific PAF receptor antagonists early in the course of circulatory shock and organ ischemia may prove to be useful therapeutic agents in a variety of life-threatening disorders. In addition to having direct actions, PAF appears to function as a pivotal agent in a chain of mediators producing tissue injury. Recent evidence suggests that tumor necrosis factors (i.e., cachectin) stim
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PMID:Induction of tissue injury and altered cardiovascular performance by platelet-activating factor: relevance to multiple systems organ failure. 265 Aug 21

Ischemic rat brains were prepared by decapitation followed by incubation in an artificial cerebrospinal fluid at various times at 37 degrees C, and the levels of phospholipids, free fatty acids, and enzymes involved in their metabolism were studied. Activities of phospholipase A, phospholipase C, and di- and monoglyceride lipase, assayed with optimal concentrations of Ca2+ and lysophospholipase, did not significantly change by 60 min of ischemia, whereas acylation enzymes of lysophospholipid decreased in activity to an extent of 70% of control at 15 min after the ischemic treatment. The maximal activities were found at 8 x 10(-3)M, 1 x 10(-3) M, and 2 x 10(-2) M Ca2+ for phospholipase A, phospholipase C, and di- and monoglyceride lipases, respectively in microsomal fractions of both control and ischemic brain. Furthermore, the sensitivity of microsomal enzymes to endogenous Ca2+ was estimated in control and ischemic brain. The sensitivity of phospholipase C was found to be increased after 1 min of ischemic treatment, but those of phospholipase A and di- and monoglyceride lipase were not increased.
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PMID:Activities of enzymes metabolizing phospholipids in rat cerebral ischemia. 274 39

A prostaglandin oligomeric derivative was synthesized by alkaline treatment of prostaglandin E1. This compound protected the perfused rat heart from global ischemia. This compound was found to inhibit several lipolytic and proteolytic enzymes in vitro. When phospholipase A2 from Naja naja venom was used as an enzyme and phosphatidylcholine was used as a substrate, 50 per cent inhibition was achieved at 50 microM of the prostaglandin derivative. When trypsin and casein were used as enzyme and substrate, 50 per cent inhibition was obtained at 80 microM. A possible mechanism of beneficial effect of this compound in protecting membranes during ischemia is discussed.
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PMID:A prostaglandin oligomeric derivative inhibits activities of phospholipase and protease: a possible mechanism of membrane protection during ischemia. 275 36

Cerebral ischemia and ischemia-reperfusion induced cerebral injury results in the accumulation of free fatty acids and diacylglycerols as a result of increased activity of phospholipases A and C. We have evaluated the incorporation of 14C arachidonic acid into the whole brain and synaptoneurosomes, the effect of cerebral ischemia on 14C incorporation, and the effect of a PAF antagonist (BN 52021) on cerebral blood flow, free fatty acids, diacylglycerols, and polyphosphoinositides. Peak incorporation of 14C arachidonic acid into the whole brain and synaptoneurosomal fractions occurred 30 minutes following intraventricular injection. Peak incorporation into cerebellar synaptoneurosomal fractions was at 60 minutes following intraventricular injection. Turnover in phospholipid pools was similar in the whole brain and synaptoneurosomes (PI greater than PC greater than PE). Considering phosphatidylinositol content in the gerbil brain, the specific activity of 14C arachidonic acid was 22 times greater in PI than PC. Five minutes of bilateral carotid artery ligation resulted in decreased phosphatidylinositol and polyphosphoinositols. Bilateral carotid artery ligation resulted in systemic arterial hypertension, complete forebrain ischemia (CBF less than 7 ml/100 gm/min) and a 20% to 50% reduction in midbrain CBF. Reperfusion resulted in cerebral reactive hyperemia and systemic hypotension. BN 52021 inhibited the maturation of ischemia-reperfusion induced cerebral injury. Cerebral blood flow was improved. Free fatty acids were decreased, suggesting inhibition of phospholipase A activity. Decreased DAG pools with increased PIP2 pools suggest a possible coinhibition of phospholipase C.
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PMID:Arachidonic acid metabolism and cerebral blood flow in the normal, ischemic, and reperfused gerbil brain. Inhibition of ischemia-reperfusion-induced cerebral injury by a platelet-activating factor antagonist (BN 52021). 277 4

The influence of quinacrine on malondialdehyde (MDA) as an index of lipid peroxidation, activities of phospholipase A2 (PLA2), and myeloperoxidase (MPO)--a neutrophil granulocyte maker in plasma--was examined in rats following ischemia and reperfusion. In the absence of quinacrine, ischemia and reperfusion caused increased MDA content and increased activities of PLA2 and myeloperoxidase in the plasma. All these effects were efficiently inhibited by the PLA2 inhibitor quinacrine. The finding indicates that the occurrence of an increased level of MDA following intestinal ischemia may be used for diagnostic purposes and points to the possibility that high plasma MDA might indicate a need for PLA2 inhibitor treatment.
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PMID:Influence of quinacrine on plasma malondialdehyde after small intestinal ischemia and reperfusion. 283 Sep 96

The rate of collapse of a proton gradient across the apical membrane of rat kidney proximal tubule increases upon treatment with calcium, mercuric chloride and mellitin, substances which activate phospholipase A2. Treatment with phospholipase A2 or oleic acid also enhances the rate of proton gradient dissipation. Membrane water permeability is not affected. This phenomenon may have implications in pathological states arising from ischemia or toxic exposure.
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PMID:Phospholipase activation, free fatty acids and the proton permeability of a biological membrane. 283 61

We have investigated the effects of the specific platelet-activating factor (PAF; 1-alkyl-2-acetyl-glycerophosphocholine) antagonist BN52021 on free fatty acid (FFA) and diacylglycerol (DG) accumulation and on the loss of fatty acids from phosphatidylinositol-4,5-bisphosphate (PIP2) in mouse brain. Mice were pretreated with BN52021 (10 mg/kg, i.p.) 30 min before electroconvulsive shock (ECS) or postdecapitation ischemia. These procedures cause rapid breakdown of PIP2 and accumulation of FFA and DG. Lipid extracts were prepared from microwave-fixed cerebrum and fractionated by TLC, and the fatty acid methyl esters were prepared by methanolysis and quantified by capillary GLC. In saline or vehicle (dimethyl sulfoxide)-treated mice, ECS caused marked accumulation of FFA and DG and loss of mainly stearic (18:0) and arachidonic (20:4) acids from PIP2. BN52021 pretreatment of ECS-treated mice decreased the accumulation of free palmitic (16:0), 18:0, 20:4, and docosahexaenoic (22:6) acids with no effect on the fatty acids in DG or the loss of PIP2. BN52021 had no effect on basal levels of FFA, DG, or PIP2. One minute of postdecapitation ischemia induced PIP2 loss and accumulation of FFA and DG. BN52021 attenuated the accumulation of free 20:4 and 22:6 acids, decreased the content of oleic (18:1), 20:4, and 22:6 acids in DG, but had no effect on PIP2 loss. These data indicate that BN52021 reduces the injury-induced activation of phospholipase A2 and lysophospholipase, which mediate the accumulation of FFA in brain, while having a negligible effect on phospholipase C-mediated degradation of PIP2.
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PMID:Platelet-activating factor antagonist BN52021 decreases accumulation of free polyunsaturated fatty acid in mouse brain during ischemia and electroconvulsive shock. 284 88

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