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)

Phagosomes containing membranous debris were found in the choroidal endothelium of rabbits following periods of acute pressure ischaemia and also accompanying periods of post-ischaemic recovery. The membranous debris may be of visual cell origin and pass into the choroid by a transpigment epithelial route. Ischaemia may be a sufficient stimulus to induce the vascular endothelium to engulf this material. The phagosomes were found only in ischaemic or post-ischaemic tissue.
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PMID:Phagocytosis in the choroidal endothelium of the ischaemic rabbit eye. 17 Jul 81

The effect of 40- or 90-min periods of temporary myocarardial ischemia on the distribution of coronary flow and capillary structure were assessed in groups of mongrel dogs. Thioflavin S. a fluorescent dye which stains vascular endothelium when injected intravenously, was used to demonstrate the distribution of microvascular perfusion at 10 sec, 5 min, or 20 min following release of a 40-or 90min circumflex coronary artery occlusion. Hearts which demonstrated perfusion defects were sampled for electron microscopy. Following 40 min of occlusion, thioflavin S was distributed uniformly throughout the myocardium. In contrast, following 90-min periods of coronary occlusion, perfusion defects always were present in the subendocardial half of the posterolateral left ventricular wall. Several morphological features in these areas of no reflow were observed by electron microscopy, including decreased endothelial pinocytotic vesicles, endothelial gaps and bleb formation, capillaries packed with erythrocytes, occasional intraluminal thrombi, and extravascular erythrocytes and fibrin. Myocardial cells showing severe injury always were seen within but also extended beyond the areas of poor perfusion. These results demonstrate that areas of no reflow occur following 90-min periods of ischemic injury in the dog, but that primary myocardial cell injury occurs during the ischemic period and not as a function of the "no-reflow" phenomenon.
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PMID:Demonstration of the "no-reflow" phenomenon in the dog heart after temporary ischemia. 120 94

The role of NO-formation induced by accumulated endogenous bradykinin (BK) via local ACE-inhibition with ramiprilat (RT) or by adding BK exogenously was evaluated in cultured bovine aortic endothelial cells (BAEC) and in isolated rat hearts with post-ischaemic reperfusion injuries. Furthermore we used the n-octyl-ester of ramipril (RA-octil) which was shown to have no ACE-inhibitory action. In BAEC, ACE-inhibition by RT (1 x 10(-8)-1 x 10(-6) mol/l) or addition of BK (1 x 10(-8)-1 x 10(-6) mol/l) stimulated the formation of NO and prostacyclin (PGI2) as assessed by endothelial cyclic GMP- and 6-keto-PGF1a formation. Cyclic GMP and PGI2 synthesis was completely suppressed by the NO synthase inhibitor NG-nitro-L-arginine (L-NNA, 1 x 10(-5) mol/l) and by the B2 kinin receptor antagonist HOE 140 (1 x 10(-7) mol/l). RA-octil (1 x 10(-8)-1 x 10(-4) mol/l) did not affect endothelial cyclic GMP production in BAEC. In isolated working rat hearts subjected to local ischemia with reperfusion both RT (1 x 10(-8) mol/l) and BK (1 x 10(-9) mol/l) reduced the incidence and duration of ventricular fibrillation. In parallel myocardial function (left ventricular pressure, coronary flow) and metabolism (high energy rich phosphates) were improved showing a comparable fingerprint for RT and BK. Addition of L-NNA (1 x 10(-6) mol/l) or HOE 140 (1 x 10(-9) mol/l) abolished these protective effects of RT and BK. As in the BAEC studies RA-octil was without beneficial effects on the isolated ischaemic rat heart. The findings on BAEC show that inhibition of ACE localized on the luminal side of the vascular endothelium results in increased synthesis of NO and prostacyclin by local accumulation of endothelium-derived BK. Similar mechanisms may occur in the ischaemic rat heart leading to cardioprotection.
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PMID:ACE-inhibition induces NO-formation in cultured bovine endothelial cells and protects isolated ischemic rat hearts. 133 74

Granulocytes play an important role in increasing the infarct size after ischemia and reperfusion by the release of oxygen-derived free radicals (ODFR) and lysosomal enzymes. It has been shown that the number of granulocytes adhering to the vascular endothelium increases after occlusion of the coronary artery, and that the area of myocardial damage can be reduced by preventing granulocyte adherence with monoclonal antibodies directed against adhesion receptors. The underlying mechanism of granulocyte activation under these conditions is not yet known. We have investigated whether granulocytes can be activated directly by reduced oxygen tensions. Granulocytes were suspended in a hypoxic buffer and incubated on fibronectin and gelatin coated microtitre plates at 1-3% ambient oxygen to study their ability to adhere to these matrices. The results showed that the adherence of granulocytes to fibronectin was dependent on the duration of hypoxia. After 30 min of incubation under hypoxia granulocyte adherence increased 1.3 to 1.8 fold compared to the normoxic control. The adherence to fibronectin could be inhibited partially by anti-CD18 antibody, a monoclonal antibody to the common beta chain of a class of extracellular matrix receptors. This direct activation of granulocytes due to hypoxic conditions may have implications for the interaction of these cells with the vascular endothelium in vivo.
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PMID:Studies on the interaction of leucocytes and the myocardial vasculature. I. Effect of hypoxia on the adherence of blood granulocytes. 136 46

Susceptibility to cadmium (Cd) hepatotoxicity differs among inbred strains of mice. For example, C3H/HeJ mice are sensitive to Cd-induced hepatotoxicity, whereas DBA/2J mice are resistant. The mechanism of genetic predisposition to Cd hepatotoxicity is unknown. A contemporary theory for acute target organ intoxication maintains that Cd initially damages vascular endothelium and parenchymal cell injury is a secondary event that results from localized ischemia. In the present study, the hypothesis that hepatic endothelial cells (EC) of C3H mice are more susceptible to Cd toxicity than those of DBA mice was tested. Hepatic parenchymal and endothelial cells were grown separately on monolayer cultures for 22 h and subsequently treated with various concentrations of Cd. Hepatocellular toxicity was assessed by lactate dehydrogenase leakage and intracellular K+ loss, whereas endothelial cell injury was assessed by trypan blue exclusion and the inhibition of protein synthesis. The susceptibility of hepatocytes to the cytotoxic effects of Cd was identical between strains. In contrast, the vulnerability of EC to Cd intoxication was strain-dependent. When exposed to 2.5-10.0 microM Cd, EC of Cd-sensitive mice were more susceptible to the cytotoxic effects of Cd than those of Cd-resistant mice. Basal metallothionein (MT) levels as well as Cd uptake into EC were similar in the two strains. Following Cd exposure, EC of Cd-sensitive mice accumulated similar amounts of MT as EC of Cd-resistant mice. These observations suggest that the microvasculature in livers of inbred mice is the target tissue responsible for strain-dependent susceptibility to Cd-induced liver injury. The mechanisms that account for this genetic variation in endothelial cell response to Cd are unknown, but do not appear to be related to the cellular disposition of Cd nor to a defect in the metabolism of MT.
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PMID:Cadmium-induced hepatic endothelial cell injury in inbred strains of mice. 145 24

The vascular endothelium can be regarded as a widely distributed organ, interposed between the intravascular and extravascular spaces, with a pluripotent function in the regulation of capillary diameter, vascular homeostasis, lipoprotein metabolism and the vascular response to injury. In the basal physiological state these processes provide a non-thrombotic, non-inflammatory vascular lining preventing uncontrolled inflammation and coagulation. Endothelial cells respond to potential harmful conditions (mechanical stress, anoxia, ischemia and oxidative stress) and a variety of hormones and vasoactive mediators by inducing coagulation and production of inflammatory mediators through the production of 'bioactive' lipids. Although the number of studies in isolated myocardial endothelial cells is limited, from the presumed metabolic analogy with endothelial cells isolated (and cultured) from other organs, one may conclude that the bioactive lipids include oxygenated arachidonate metabolites (eicosanoids) and the platelet activating factor (1--O-alkyl-2-acetyl-sn-glycerol-3-phosphocholine; PAF). All aspects of lipid metabolism, related to the production of eicosanoids and PAF, are present within myocardial endothelial cells. There is uptake and incorporation of fatty acids by endothelial cells and liberation from endogenous triacylglycerol and (membrane) phospholipid stores by (phospho)lipases. Endothelial cells oxidize fatty acids in a carnitine-dependent, mitochondrial, pathway. Endothelial cells actively interact with high density lipoprotein (HDL) and low density lipoprotein (LDL) leading to uptake of cholesterol(esters) that undergo intracellular hydrolysis, and re-esterification to phospho- and neutral lipids, and leaving the LDL-particle modified in a way that makes them bind to the scavenger receptor on macrophages.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Lipid metabolism of myocardial endothelial cells. 148 Jan 46

The effect of prolonged ischemia time on the generation of chronic rejection was investigated in long-surviving rat renal allografts. Three groups of rats were compared: allografts with a 30-min ischemia time, allografts with a 60-min ischemia time, and syngeneic grafts with a 60-min ischemia time. All transplants were initially immunosuppressed with 5 mg/kg/day of cyclosporine i.m. for 3 weeks postoperatively. The CsA trough levels were similar in the three rat groups. All groups demonstrated an initial rise and fall in serum creatinine; a simultaneous biopsy confirmed acute CsA toxicity. Thereafter the serum creatinine level remained on the normal control level both in the 30-min ischemia allografts and in the 60-min ischemia syngeneic grafts. After the initial decline, the serum creatinine level steadily increased in the 60-min ischemia allograft group and was 181 +/- 64 mumol/L at the end of the observation period, 12 weeks postoperatively, compared with 85 +/- 21 mumol/L in the 30-min ischemia allografts and 89 +/- 25 mumol/L in the 60-min ischemia syngeneic grafts. Quantitative histology that was performed upon autopsy demonstrated that the 60-min ischemia allografts showed persistent inflammation, inflammatory cell pyroninophilia, vascular arteriosclerosis and obliteration, and glomerular sclerosis, which were significantly stronger than in similarly immunosuppressed syngeneic transplants. Reduction of the ischemia time from 60 to 30 min significantly ameliorated the vascular and glomerular changes in the allografts but not the inflammatory alterations. This experimental study confirms previous clinical observations and demonstrates that prolonged ischemia contributes to chronic rejection in renal allografts. The results suggest that the effect of prolonged ischemia on chronic rejection is directed primarily to the parenchymal components of the graft, possibly to the graft vascular endothelium. As prolonged ischemia did not significantly affect the inflammation in the transplants, we conclude that the effect is not directed to the intensity of the host antigraft immune response.
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PMID:Chronic rejection of rat renal allografts. II. The impact of prolonged ischemia time on transplant histology. 156 48

Oxygen free radicals are highly reactive compounds causing peroxidation of lipids and proteins and are thought to play an important role in the pathogenesis of reperfusion abnormalities including myocardial stunning, irreversible injury, and reperfusion arrhythmias. Free radical accumulation has been measured in ischemic and reperfused myocardium directly using techniques such as electron paramagnetic resonance spectroscopy and tissue chemiluminescence and indirectly using biochemical assays of lipid peroxidation products. Potential sources of free radicals during ischemia and reperfusion have been identified in myocytes, vascular endothelium, and leukocytes. In several different experimental models exogenous free radical-generating systems have been shown to produce alterations in cardiac function that resemble the various reperfusion abnormalities described above. Injury to processes involved in regulation of the intracellular Ca2+ concentration may be a common mechanism underlying both free radical-induced and reperfusion abnormalities. Direct effects of free radicals on each of the known Ca(2+)-regulating mechanisms of the cell as well as the contractile proteins and various ionic membrane currents have been described. Free radicals also inhibit critical enzymes in anaerobic and aerobic metabolic pathways, which may limit the metabolic reserve of reperfused myocardium and contribute to intracellular Ca2+ overload. Inhibiting free radical accumulation during myocardial ischemia/reperfusion with free radical scavengers and inhibitors has been demonstrated to reduce the severity of myocardial stunning, irreversible injury, and reperfusion arrhythmias in many, but not all, studies. This evidence strongly implicates free radical accumulation during myocardial ischemia/reperfusion as an important pathophysiological mechanism of reperfusion abnormalities, although many issues remain unresolved.
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PMID:Oxygen free radicals and cardiac reperfusion abnormalities. 161 47

The time course of the effects of permanent myocardial ischemia without reperfusion on the coronary vascular endothelium and myocardium were investigated in anesthetized cats. The left anterior descending (LAD) coronary artery was occluded for 1.5, 3.0, 4.5, or 6.0 h. Coronary rings from the ischemic LAD and the nonischemic left circumflex (LCX) arteries were tested for their responsiveness to the endothelium-dependent vasodilators acetylcholine (ACh, 0.1-100 nM) and the calcium ionophore A23187 (1-1,000 nM), and the endothelium-independent vasodilator sodium nitrite (NaNO2, 0.1-100 microM). Vasorelaxation was not significantly impaired in response to ACh after 1.5 h of ischemia and only moderately impaired after 3.0 h of ischemia (63 +/- 5% of control). However, after 4.5 h of ischemia the ACh-induced response was decreased to 33 +/- 4% of control and further declined to 31 +/- 4% of control after 6.0 h (P less than 0.001 from 1.5 h). There was no significant decrease in LCX ring vasorelaxant responses to vasodilators at all times, and the LAD rings only showed a moderately decreased response to NaNO2 after 6.0 h of ischemia (82 +/- 4% relaxation, P less than 0.05). Transmission electron microscopy revealed very little endothelial damage at 4.5 and 6.0 h, with only some subendothelial swelling noted. Damage to the myocardium did not become significant until after 4.5 h of ischemia, and cardiac myeloperoxidase activity, indicative of neutrophil accumulation, was not significant at any time.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Time course of endothelial dysfunction and myocardial injury during coronary arterial occlusion. 165 39

To further clarify the protective mechanism(s) of defibrotide in splanchnic artery occlusion (SAO) shock, we observed the effect of defibrotide on polymorphonuclear leukocyte (PMN) accumulation in the intestinal tissue, gastric lysosomal hydrolases and endothelial function of the ischemia-reperfused superior mesenteric artery (SMA). Pentobarbital anesthetized rats were subjected to occlusion of both the celiac and superior mesenteric arteries for 90 min followed by 2 h reperfusion. The rats receiving only the vehicle for defibrotide exhibited a marked increase in intestinal myeloperoxidase (MPO) activity and a significant endothelial dysfunction manifested by the loss of endothelium-dependent vasorelaxation. Only 2 of 6 rats (33%) survived 2 h of reperfusion. In contrast, those rats treated with defibrotide exhibited significantly attenuated PMN accumulation in intestinal tissue, enhanced endothelium-dependent vasorelaxation in SMA rings, prolonged survival time and increased survival rate to 6 of 7 (i.e., 86%). However, addition of defibrotide in vitro had no direct effect on LTB4 activated PMN adherence to vascular endothelium. Moreover, defibrotide preserved gastric lysosomal membranes in vitro. These results indicate that the protective effect of intravenous administration of defibrotide on SAO shock may be related to its endothelial preserving effect reducing PMN adherence and protection of endothelial and lysosomal membrane integrity.
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PMID:Novel beneficial mechanisms of defibrotide, a prostacyclin enhancing agent in splanchnic artery occlusion and reperfusion in rats. 166 94


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