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)

Although changes in the blood flow of the cerebral vessels and the peripheral vessels in the extremities after changing body postures have been well examined in patients with orthostatic hypotension (OH), such changes in visceral vessels have not been well investigated. To elucidate the effect of autonomic dysfunctions on changes in the abdominal blood flow, the blood flow velocity of the portal vein was measured by Doppler ultrasonography in 11 patients with familial amyloidotic polyneuropathy (FAP) (Met30), 3 with pandysautonomia, 1 with Shy-Drager syndrome, and 10 healthy controls, in the supine and at the upright position. Among the 15 patients with the above-mentioned autonomic disorders, 5 of the patients showed a marked decrease in blood flow after standing, and one of these 5 patients exhibited transient hepatic and intestinal ischemia during intensive rehabilitation because of a severe decrease in visceral blood flow. Another 7 patients exhibited moderate decreases in the blood flow after standing. In contrast, no such change was observed in the 10 healthy controls. The FAP patients with L-threo-3,4-dihydroxyphenylserine (L-threo-DOPS) administration showed no significant correlation between the degree of OH and the decrease in the blood flow of the portal vein, and the patients without the drug exhibited a weak correlation. On the contrary, the pandysautonomia and Shy-Drager syndrome patients exhibited a linear positive correlation. These results suggest that FAP is a disease for which this kind of ultrasonographic examination should be applied, and that Doppler ultrasonography may be a helpful tool to evaluate visceral OH.
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PMID:Visceral orthostatic hypotension in patients with severe autonomic dysfunction. 953 50

Polymorphonuclear neutrophils (PMN) and monocytes play a role in vascular diseases. Animal experimental models, using deleukocytation or injection of anti-CD11b-anti-CD18 monoclonal antibodies (inhibition of leukocytic adhesion and of interaction with the endothelial cell) have confirmed this role in the ischemia-reperfusion syndrome and in myocardial infarction. In man, increased production of oxygen radicals, PMN release of elastase, increased monocyte formation of tissue factor (TF) and integrins have been noted in coronary artery disease, in chronic arteriopathy of the lower limbs and in association with vascular risk factors such as diabetes. Pharmacological alteration of leukocyte hyperactivity therefore seems to be justified. Pentoxifylline, used with good effect in arteriopathy of the lower limbs, affects numerous leukocytic functions: diminution in adherence and in PMN production of free radicals, diminution in the formation of TF and cytokines (TNF). Gingkolides reduce leukocytic interactions and platelet activation through an anti-PAF (Platelet Activation Factor) action. Aspirin may interfere with free radicals and inhibit TF formation. alpha-tocopherol blocks the activation, by free radicals, of the transcription factor NF k B. By altering the TNF and IL-1 cytokines, leukocytic activation can be controlled. Other cytokines (IL-4, IL-10) have an immunosuppressive action and reduce the formation of TF. The pharmacological targets are therefore multiple. Their use in vascular diseases is only at a very preliminary stage.
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PMID:[Modulators of leukocytic functions]. 960 25

The effect of the platelet activating factor antagonist RP 59227 (Tulopafant) on myocardial infarct size was compared to that of a vehicle-treated control group in barbital-anesthetized dogs subjected to 90 min of left circumflex coronary artery occlusion and 5 h of reperfusion. The myocardial region at risk and infarct size were determined by the triphenyltetrazolium histochemical technique and regional myocardial blood flow by radioactive microspheres. Myeloperoxidase (MPO) activity was used as an index of neutrophil infiltration into the ischemic-reperfused area. Vehicle (n = 11) or RP 59227 (n = 12, 2.5 mg/kg i.v.) were administered 15 min prior to occlusion. Hemodynamics and regional myocardial blood flow in the ischemic-reperfused areas did not differ between the two groups throughout the experiment. In contrast, the number of dogs which developed ventricular fibrillation during occlusion and reperfusion was significantly less in RP 59227-treated dogs (8 of 11 in the control group vs. 3 of 12 in the RP 59227-treated group, p < 0.05). Myocardial infarct size expressed as a percent of the area at risk (control, 39.0 +/- 5.0; RP 59227, 24.8 +/- 3.4%) or as a percent of the left ventricle (control, 15.3 +/- 1.9; RP 59227, 9.0 +/- 1.3%) was significantly smaller in the RP 59227-treated group. Infarct size was inversely related to the collateral blood flow in the inner two thirds of the left ventricular wall of the infarct area, and this relationship was shifted downward in the RP 59227-treated group (p < 0.05). MPO activity in the border zone immediately adjacent to infarcted tissue was reduced in the RP 59227-treated dogs (control, 7.4 +/- 0.5 U/g; RP 59227, 4.1 +/- 0.4 U/g). In additional in vitro studies, the addition of PAF was found to elicit a concentration-dependent potentiation in chemiluminescence produced by purified canine neutrophils, a measure of oxygen-derived free radicals, which was stimulated with a low concentration of opsonized zymosan. Preincubation of neutrophils with RP 59227 resulted in a concentration-dependent decrease in chemiluminescence produced by PAF primed cells. Taken together, these data demonstrate that RP 59227 effectively reduces myocardial infarct size and reduces the incidence of ischemia and reperfusion-induced arrhythmias in barbital-anesthetized dogs, and support the concept that PAF plays an important role in the pathogenesis of acute myocardial infarction.
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PMID:Effect of the platelet-activating factor antagonist RP 59227 (Tulopafant) on myocardial ischemia/reperfusion injury and neutrophil function. 983 48

Synaptic activation leads to the formation of arachidonic acid, platelet-activating factor (PAF, 1-O-alkyl-2-acyl-sn-3-phosphocholine) and other lipid messengers. PAF is a potent bioactive phospholipid in synaptic plasticity. PAF enhances presynaptic glutamate release, is a retrograde messenger in long-term potentiation and enhances memory formation. PAF also couples synaptic events with gene expression by stimulating a FOS/JUN/AP-1 transcriptional signaling system, as well as transcription of COX-2 (inducible prostaglandin synthase). Since the COX-2 gene is also involved in synaptic plasticity, the PAF-COX-2 pathway may have physiological significance. Seizures, ischemia and other forms of brain injury promote phospholipase A2 (PLA2) overactivation, resulting in the accumulation of bioactive lipids at the synapse. PAF, under these pathological conditions, behaves as a neuronal injury messenger by at least two mechanisms: (a) enhancing glutamate release; and, (b) by sustained augmentation of COX-2 transcription. These events link PAF with neurodegeneration. The upstream intracellular pathways of signal transduction involved in neuronal or photoreceptor cell apoptosis are not well understood and involve stress sensitive kinases. PAF is a transcriptional activator of the COX-2 gene. BN 50730, a potent intracellular PAF antagonist, blocks COX-2 induction. COX-2 transcription and protein expression are upregulated in the hippocampus in kainic acid induced epileptogenesis. There is a selectively elevated induction of COX-2 (72-fold) by kainic acid preceding neuronal cell death. BN 50730 administered by i.c.v. injection blocks seizure-induced COX-2 induction. Overall, PAF is a dual modulator of neural function and becomes an endogenous neurotoxin when over produced.
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PMID:The neuromessenger platelet-activating factor in plasticity and neurodegeneration. 993 49

The importance of endothelial contraction in the genesis of inflammatory edema has been reported. ROS are metabolites synthesized in pathological conditions in that a significant intravascular fluid leak occurs, such as ischemia-reperfusion. Present experiments were designed to test the hypothesis that ROS, particularly H2O2, may elicit the contraction of endothelial cells, and to explore the mechanisms involved. Bovine aortic endothelial cells incubated with H2O2 showed a significant reduction in planar cell surface area (PCSA), and a significant increase in myosin light chain phosphorylation (MLCP), with a time- and dose-dependent pattern, without any significant toxicity. This effect of H2O2 was not blocked by sulotroban (TxA2 antagonist) or BN 52021 (PAF antagonist). Lanthanum chloride (calcium channel blocker) and EGTA partially inhibited the increase in MLCP induced by H2O2. H7 and staurosporine, PKC inhibitors, and PKC down-regulation (phorbol myristate acetate treatment, 24 h) also blocked H2O2-dependent endothelial contraction, measured as PCSA or MLCP. H2O2 increased the intracellular calcium concentration, an effect blunted by EGTA and lanthanum chloride. H2O2 also increased the phosphorylation of an 80 kD polypeptide, probably MARCKS, a PKC substrate. In summary, the present results demonstrate the ROS-dependent contraction of endothelial cells, an effect that could explain the intravascular fluid leak observed in some pathophysiological situations. Calcium and PKC may be involved in the development of this contraction.
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PMID:Mechanisms involved in the contraction of endothelial cells by hydrogen peroxide. 1021 38

The results of several recent studies indicate that bradykinin protects tissues against the deleterious effects of ischemia-reperfusion (I/R). However, other studies indicate that bradykinin can act as a proinflammatory agent, inducing P-selectin expression, the formation of chemotactic stimuli, and endothelial barrier disruption. In the present study, we used intravital microscopic techniques to examine the dose-dependent effects of bradykinin on leukocyte-endothelial cell interactions, the formation of platelet-leukocyte aggregates, and venular hemodynamics in rat mesentery in an attempt to explain these divergent findings. Superfusion of the mesentery with low concentrations of bradykinin (</=10(-7) M) increased venular erythrocyte velocity (V(RBC)) without increasing the number of adherent leukocytes, whereas higher concentrations (>/=10(-6) M) decreased V(RBC), increased the number of platelet-leukocyte aggregates, and induced leukocyte adhesion in single postcapillary venules. The formation of platelet-leukocyte aggregates and increased leukocyte adhesion induced by high-dose bradykinin were attenuated by administration of a B(2)-receptor (HOE-140) or a platelet-activating factor (PAF, WEB-2086) antagonist. Thus these adhesive interactions induced by high-dose bradykinin appear to be mediated by a mechanism that is dependent on B(2)-receptor activation and the formation of PAF or PAF-like lipids. The effects of bradykinin on venular V(RBC) and blood flow were also concentration dependent, with low doses producing nitric oxide-mediated vasodilation, whereas high doses decreased V(RBC) by a mechanism that is PAF independent.
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PMID:Concentration-dependent effects of bradykinin on leukocyte recruitment and venular hemodynamics in rat mesentery. 1040 93

Neuronal nuclei isolated from rabbit cerebral cortex were found to be enriched in an NEM-insensitive lysophosphatidic acid (lysoPA) phosphohydrolase activity. LysoPA is an inhibitor of the nuclear lysophosphatidylcholine (lysoPC) lysophospholipase, and by preserving lysoPC levels, lysoPA boosted the nuclear production of the acyl analogue of platelet-activating factor by promoting the acetylation of lysoPC (Baker and Chang, Mol. Cell Biochem., 1999, in press). The nuclear phosphohydrolase converts lysoPA to 1-monoacylglycerol, and thus eliminates this lysoPA inhibition of lysoPC lysophospholipase. The nuclear lysoPA phosphohydrolase specific activity was more than three times that observed for the nuclear lysoPA lysophospholipase (Baker and Chang, Biochim. Biophys. Acta 1438 (1999) 253-263) and represents a more active route for nuclear lysoPA removal. The neuronal nuclear lysoPA phosphohydrolase was inhibited at acidic pH, and also inhibited by calcium ions. The 1-monoacylglycerol product of the phosphohydrolase is rapidly degraded by neuronal monoacylglycerol lipase, an enzyme some sevenfold more active than the phosphohydrolase and sensitive to inhibition by arachidonoyl trifluoromethyl ketone (AACOCF(3)). Both acidic pH and free fatty acid inhibited the lipase. In the absence of AACOCF(3), production of fatty acid from lysoPA substrate could be largely attributed to the sequential actions of the nuclear phosphohydrolase and lipase. This facilitates fatty acid recycling back into phospholipid by lysophospholipid acylation when ATP levels are restored following periods of brain ischemia. At relatively low concentrations, sphingosine-1-phosphate, and alkylglycerophosphate were the most effective phosphohydrolase inhibitors while phosphatidic acid, alkylacetylglycerophosphate and ceramide were without effect. LysoPA is an interesting regulatory molecule that can potentially preserve lysophosphatidylcholine within the nuclear membrane for use in acetylation reactions. Thus conditions relevant to brain ischemia such as falling pH, falling ATP concentrations, rising fatty acid and intracellular calcium levels may, by slowing this metabolic path for lysoPA loss, promote the production of acyl PAF and contribute to the increased levels of the acetylated lipids noted in ischemia.
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PMID:A metabolic path for the degradation of lysophosphatidic acid, an inhibitor of lysophosphatidylcholine lysophospholipase, in neuronal nuclei of cerebral cortex. 1060 95

Ischemia-reperfusion injury induces deterioration of pulmonary function following lung transplantation. The spiro-thiazepin derivative FR128998 (FR) is a novel PAF receptor antagonist. The effect of FR on ischemia-reperfusion injury was investigated in an in situ warm ischemia model of canine lungs. Fifteen adult mongrel dogs, weighing 6 to 12 kg, were divided into two groups. FR (1 mg/kg/hr) was administered from prior to ischemia until 2 hours after reperfusion (FR-treated group; n = 8), or vehicle was injected using the same technique (Control group; n = 7). Following hilar stripping of the left lung, the left pulmonary artery and veins were clamped for 3 hours to induce warm ischemia. The left main bronchus was bisected at the same time and anastomosed 3 hours later. Arterial oxygen saturation (SaO(2)), left pulmonary vascular resistance (L-PVR), and cardiac output (CO) were measured 30 minutes after reperfusion. The lungs were harvested for pathological study, and polymorphonuclear neutrophils (PMNs) were counted. The 2-day survival rate was also investigated. After reperfusion, SaO(2) L-PVR, and CO were significantly (p < 0.05) better in the FR-treated group than in the control group. Histological findings after 30 minutes of reperfusion showed alveolar damage with interstitial edema and hyaline membranes localized along the alveolar ducts in the control group, while there was only slight localized interstitial edema in the FR group. PMN infiltration was less extensive in the FR group than in the control group. FR appears to have a protective effect against lung ischemia-reperfusion injury. This might result from inhibition of the local release of PAF. </hea
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PMID:FR128998 (a PAF Receptor Antagonist) Counters the Increased Pulmonary Vascular Resistance Associated with Ischemia-Reperfusion Injury in the Canine Lung. 1117 79

The pro-inflammatory lipid mediator platelet activating factor (PAF: 1-O-alkyl-2-acetyl-sn-glycero-3-phosphocholine) accumulates in ischemia, epilepsy, and human immunodeficiency virus-1-associated dementia and is implicated in neuronal loss. The present study was undertaken to establish a role for its G-protein coupled receptor in regulating neurotoxicity. PC12 cells do not express PAF receptor mRNA as demonstrated by northern analysis and RT-PCR. In the absence of the G-protein coupled receptor, PAF (0.1-1 micro m) triggered chromatin condensation, DNA strand breaks, oligonucleosomal fragmentation, and nuclear disintegration characteristic of apoptosis. Lyso-PAF (0.001-1 micro m), the immediate metabolite of PAF, did not elicit apoptotic death. Concentrations of PAF or lyso-PAF that exceeded critical micelle concentration had physicochemical effects on plasma membrane resulting in necrosis. Apoptosis but not necrosis was inhibited by the PAF antagonist BN52021 (1-100 micro m) but not CV3988 (0.2-20 micro m). Ectopic PAF receptor expression protected PC12 transfectants from ligand-induced apoptosis. PAF receptor-mediated protection was inhibited by CV3988 (1 micro m). These data provide empirical evidence that: (i) PAF can initiate apoptosis independently of its G-protein coupled receptor; (ii) PAF signaling initiated by its G-protein coupled receptor is cytoprotective to PC12 cells; (iii) the pro- and anti-apoptotic effects of PAF on PC12 cells can be pharmacologically distinguished using two different PAF antagonists.
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PMID:Platelet activating factor-induced apoptosis is inhibited by ectopic expression of the platelet activating factor G-protein coupled receptor. 1235 98

Previous studies have shown that ischemia and reperfusion are potent stimuli for eliciting cardiomyocyte apoptosis, and that polymorphonuclear leukocytes (PMNs) are involved in the development of myocardial injury induced by ischemia and reperfusion. The present study examined whether PMN could directly induce cardiomyocyte apoptosis and, if so, it possible signal transduction pathways. In addition, we also investigated the effects of carvedilol, a potent antioxidant, on PMN-induced apoptosis. Cultured primary neonatal rat cardiomyocytes were exposed to PAF-activated PMNs at concentrations of 10(5), 3 x 10(5) and 10(6) cells/well for 48 h. Multiple detecting techniques, including electron microscopy, DNA gel electrophoresis. TUNEL assay and flow cytometry were used to identify myocyte apoptosis. All of these techniques demonstrated that activated PMNs directly induced cardiomyocyte apoptosis in a concentration-dependent manner, while unactivated PMNs showed no such effect. Activated PMN-induced apoptosis was partially inhibited by SB203580, a specific inhibitor of the p38-MAPK signaling system. Carvedilol (at a dose range of 1-10 mumol/l) significantly prevented activated PMN-induced cardiomyocyte apoptosis. These results suggest that PMNs, when activated, directly induce cardiomyocyte apoptosis and that the p38-MAPK signaling pathway might be involved in this process. Carvedilol may prevent PMN-induced apoptosis possibly because of its antioxidant properties.
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PMID:Activated polymorphonuclear leukocytes induce cardiomyocyte apoptosis and the protective effects of carvedilol. 1242 28

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