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)

Endothelin-1 is a vasoactive peptide produced by the vascular endothelium. It is one of the most potent endogenous vascular smooth muscle constrictors. Two subtypes of the endothelin receptor have been cloned and sequenced and denoted endothelin-A and endothelin-B. The aim of this study was to define the influence of cold ischemia on the production of endothelin-1 and on the endothelin receptors. Two different preservation techniques (cold storage only and cold storage with microperfusion with University of Wisconsin solution) also were compared. The study was performed in an in vitro bone perfusion model to isolate the vascular endothelium from blood components. The production of endothelin-1 by the bone vasculature was not altered after 24 hours of cold ischemia. No contractions were observed with S6c, a selective endothelin-B agonist, and this effect was not influenced by cold ischemia. The response mediated by the endothelin-A receptor was increased significantly, an effect that was not influenced by preservation with University of Wisconsin solution. This latter finding was the only significant alteration in the vascular function detected in the in vitro model after 24 hours of cold ischemia. With regard to the pharmacologic properties of endothelin-1, this mediated response could be implicated in the pathogenesis of vasospasm.
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PMID:Evaluation of influence of 24-hour cold preservation on endothelin production and on endothelin receptors in the bone vasculature. 747 51

In the cerebral circulation, endothelin-A receptor activation mediates marked prolonged vasoconstriction whereas endothelin-B (ETB) receptor activation effects dilation. In contrast to some peripheral vascular beds, ET(B) receptor-induced vasoconstriction has not yet been demonstrated in brain vessels. In this study in chloralose-anesthetized cats, with perivascular microapplications of ET(B) selective agonist (BQ-3020) and antagonist (BQ-788), we investigated whether ET(B) receptor-mediated constriction could be uncovered in cortical arterioles in vivo. In addition, we examined whether normal dilator response to ET(B) receptor activation is preserved in postischemic cerebral arterioles. The first microapplication of the selective ET(B) receptor agonist BQ-3020 (1 micromol/L) onto a pial cortical arteriole elicited marked dilation (caliber increased by 26.3 +/- 15.1% from preinjection baseline). A second application of BQ-3020 (10-minute interval) onto the same vessel failed to evoke any significant vasomotor response. Subsequent (third and fourth) adventitial microapplication of the ET(B) receptor agonist on the same arteriolar site effected a significant constriction of cerebral arterioles (-15.3 +/- 12.7% and -9.7 +/- 6.3% from preinjection baseline, respectively, at 20 and 30 minutes after the first application). The pial arterioles did not display tachyphylaxis to repeated applications of potassium (10 mmol/L). The perivascular application of the ET(B) receptor antagonist BQ-788 (0.001 to 1 micromol/L) had no effect on arteriolar caliber per se but blocked both BQ-3020-induced dilation (inhibitory concentration approximately 5 nmol/L) and vasoconstriction elicited by repeated activation of ET(B) receptors. After middle cerebral artery occlusion, most of the arterioles examined displayed a sustained dilation. The microapplication of BQ-3020 into the perivascular space surrounding postischemic dilated arterioles elicited a constriction of a similar magnitude to that induced by application of CSF (-17 +/- 7% and -17 +/- 7% from preinjection baseline, respectively). The adventitial microapplication of the ET(B) receptor antagonist (BQ-788, 0.1 micromol/L) on postocclusion dilated pial arterioles effected no change in the arteriolar caliber when compared with preinjection baseline. This BQ-788-induced response was significantly different from that induced by perivascular microinjection of CSF (P < 0.001, analysis of variance). These investigations indicate that (1) repeated activation of ET(B) receptors displays tachyphylaxis of the vasodilator response but also uncovers significant constriction of cerebral arterioles in vivo; (2) the ability of BQ-3020 to elicit dilation is lost within 30 minutes of induced focal ischemia; and (3) ET(B)-mediated contractile tone contributes in a small but significant manner in limiting postischemia dilation of cortical pial arterioles.
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PMID:Endothelin-B receptors in cerebral resistance arterioles and their functional significance after focal cerebral ischemia in cats. 939 Jun 47

Endothelin-1 (ET-1) induces severe pathologic conditions such as coronary spasm followed by vasospastic angina pectoris and acute myocardial infarction. The related pathophysiologic mechanisms have remained obscure. Endothelin-1 receptor (ET(A) and ET(B)) is reported to couple with several types of G protein-involved pathways that participate in phospholipase C activation and atrial myofibrils organization into sarcomeric units. Here we demonstrate that ET-1 induces histologic and pathologic dysfunction in the rabbit myocardium and that such pathologic events are prevented by the Rho-kinase inhibitor fasudil. Although the bolus injection of ET-1 (1.4 nmol/kg) via the auricular vein of the rabbit induced only transient T-wave elevation, irreversible, severe histologic changes were observed in papillary muscles of the ventricle, and multifocal myocardial necrosis with infiltration of neutrophils and macrophages in the left ventricle occurred. Oral administration of fasudil (10 mg/kg) significantly reduced the occurrence of myocardial injury determinants, whereas conventional Ca2+ channel blockers (nifedipine, diltiazem) and a K+ channel opener (nicorandil; 10 mg/kg, p.o. each) showed a lesser or no effect on such determinants. These results suggest that ET-1 induces severe myocardial dysfunction based not only on the occurrence of vasospastic ischemia but also on its direct effects on the myocardium.
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PMID:The protein kinase inhibitor fasudil protects against ischemic myocardial injury induced by endothelin-1 in the rabbit. 1067 51

Endothelin (ET) -1 is a potent vasoconstrictor and promitogenic peptide produced by the vascular endothelium. The ET system is activated in atherosclerosis and in most cardiovascular conditions associated with increased vascular tone and remodelling. There are two ET-receptor (ET-R) subtypes: the ETA-Rs mediate smooth muscle vasoconstriction and proliferation, and the more complex ETB-Rs have antagonistic actions - they serve a dual role of clearance and vasodilation in the endothelium, while in smooth muscle cells they also provoke vasoconstriction. Selective ETA-R and nonselective ETA/B-R antagonists are entering the clinical development phase. These agents have shown their effectiveness in the therapy of various models of heart failure, pulmonary hypertension, systemic hypertension and ischemia-reperfusion and in the prevention of restenosis. In patients with congestive heart failure, short term ET-antagonist (ET-R) therapy provides hemodynamic and symptomatic improvement. Because of the dual role of the ETB-R, nonselective antagonists may provide greater or fewer benefits than selective ETA-R antagonists: a lack of direct comparison of the two categories of agents, however, does not allow this distinction at present. In the evaluation of this new class of therapeutic agents, particular attention should be paid to potency and receptor selectivity of a compound, the alterations in ETA-R and ETB-R activity brought on by pathological conditions, the proportions of ETA versus ETB-R of the target system, and finally, the net importance of the possible protective role of the endothelial ETB versus the deleterious effects of the smooth muscle ETB-R.
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PMID:Endothelin receptor antagonists and their developing role in cardiovascular therapeutics. 1093 9

Although certain broad principles of treatment apply to all patients with Raynaud's phenomenon, the exact approach will vary depending on the nature and severity of the underlying digital vascular problem. Advances in the understanding of the pathophysiology of Raynaud's phenomenon are directing new lines of therapy. This review considers general (nonpharmacologic) measures, the different types of drug therapy, and the role of surgery. Recent advances in the use of more conventional treatments, such as calcium channel blockers, are discussed and also newer agents that are currently being researched, for example, endothelin-1 receptor antagonists and nitric oxide donors. The necessity of prompt assessment and treatment of acute digital ischemia, which is a medical emergency, is highlighted.
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PMID:Treatment of Raynaud's phenomenon: new insights and developments. 1262 49

It is well established that endothelin-1 (ET-1) is a very potent mediator of vasoconstriction that leads to microcirculatory disturbances. The aim of the study was to evaluate the effect of a selective endothelin A receptor antagonist on severe ischemia/reperfusion injury in a pig model. Fourteen pigs were subjected to 120 minutes of complete vascular exclusion of the liver with a passive bypass. The animals were randomized into two groups: a control group, which was given isotonic saline solution, and a therapy group, which received the selective endothelin A receptor antagonist BSF 208075 at the beginning of reperfusion. On postoperative days 4 and 7, animals were relaparotomized to obtain tissue specimens. Blood monitoring included aspartate aminotransferase (AST), alanine aminotransferase (ALT), glutamate dehydrogenase (GLDH), alkaline phosphatase, and ET-1. Partial oxygen tension (p(ti)O(2)) was measured by a Clarke-type electrode and blood flow by laser Doppler. A semiquantitative scoring index was used for assessment of histologic injury and for immunohistochemical analysis of ET-1. Treatment with the endothelin A receptor antagonist significantly reduced the severity of the ischemia/reperfusion injury, as evidenced by lower levels of AST, ALT, and GLDH. The dramatic increase in plasma ET-1 in the therapy group is clear evidence of effective receptor blockade. Analysis of p(ti)O(2) and blood flow revealed a significant improvement in capillary perfusion and blood flow in the treated group and was associated with relevant reduction of tissue injury. In summary, in the control group we observed serious microcirculatory disturbances and severe histologic damage in the liver after reperfusion. Treatment with a selective endothelin A receptor antagonist attenuated the ischemia/reperfusion injury in a porcine model of severe ischemia/reperfusion, as demonstrated by improved microcirculation, a reduction in histologic damage, and an decrease in liver enzymes.
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PMID:Endothelin A receptor blockade reduces hepatic ischemia/reperfusion injury after warm ischemia in a pig model. 1265 57

The endothelins (ETs) are a family of peptides that exert their biological effects via two distinct receptors, the endothelin A receptor (ET(A)R) and the endothelin B receptor (ET(B)R). To more clearly define the potential actions of ETs following spinal cord injury, we used immunohistochemistry and confocal microscopy to examine the protein expression of ET(A)R and ET(B)R in the normal and injured rat spinal cord. In the normal spinal cord, ET(A)R immunoreactivity (IR) is expressed by vascular smooth muscle cells and a subpopulation of primary afferent nerve fibers. ET(B)R-IR is expressed primarily by radial glia, a small population of gray and white matter astrocytes, ependymal cells, vascular endothelial cells, and to a lesser extent in smooth muscle cells. Fourteen days following compression injury to the spinal cord, there was a significant upregulation in both the immunoexpression and number of astrocytes expressing the ET(B)R in both gray and white matter and a near disappearance of ET(B)R-IR in ependymal cells and ET(A)R-IR in primary afferent fibers. Conversely, the vascular expression of ET(A)R and ET(B)R did not appear to change. As spinal cord injury has been shown to induce an immediate increase in plasma ET levels and a sustained increase in tissue ET levels, ETs would be expected to induce an initial marked vasoconstriction via activation of vascular ET(A)R/ET(B)R and then days later a glial hypertrophy via activation of the ET(B)R expressed by astrocytes. Strategies aimed at blocking vascular ET(A)R/ET(B)R and astrocyte ET(B)Rs following spinal cord injury may reduce the resulting ischemia and astrogliosis and in doing so increase neuronal survival, regeneration, and function.
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PMID:Endothelin receptor expression in the normal and injured spinal cord: potential involvement in injury-induced ischemia and gliosis. 1266 44

Fear, anger, and grief may precipitate myocardial ischemia and infarction. The prognosis of patients with inducible ischemia during mental stress is worse than in those without inducible ischemia. The sympathetic nervous system plays an important role in stress-associated changes in cardiovascular regulation and contributes to cardiovascular morbidity and mortality by inducing vasoconstriction and tachycardia, as well as arrhythmia. Hostility--previously termed type A personality--is often associated with sympathetic hyperreactivity to mental stress and carries an increased risk for atherosclerotic vascular disease. As endothelial dysfunction is an early manifestation of atherosclerosis, the impact of mental stress on endothelial function is also important. Acute mental stress induces prolonged endothelial dysfunction in healthy volunteers, which is prevented by selective endothelin A receptor antagonism. This represents an important link between mental stress and atherosclerotic vascular disease. In addition, patients with depression show hypercortisolemia, and changes in platelet function leading to a prothrombotic state. These findings help to explain the increased cardiovascular risk in patients with depression.
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PMID:[Pathophysiologic cardiovascular changes in stress and depression]. 1466 4

Oxido-reductive stress is a crucial factor of the tissue response during ischemia-reoxygenation injuries. Reperfusion affects primarily the microvasculature in a manner consistent with an acute inflammatory reaction. In this respect, the salient data suggest an important connection between endothelial cell-derived humoral mediators and the perivascular mast cell system. Increased endothelin-1 and decreased nitric oxide formation, mast cell degranulation and leukocyte accumulation coexist in gastrointestinal ischemia-reperfusion syndromes too. Constitutively produced nitric oxide inhibits, while increasingly formed endothelin-1 significantly enhances the degranulation of the intestinal mast cells. The endothelin-A receptor-dependent mast cell degranulation per se plays a secondary role in reperfusion-induced structural injury, but contributes significantly to leukocyte recruitment into the reperfused intestinal mucosa. It is conceivable therefore, that the nitric oxide--endothelin-1--mast cell cycle is involved in the mechanism of ischemia-reperfusion-induced endothelial cell-leukocyte interactions, where mast cells act to amplify the process of leukocyte sequestration. The alteration in the balance between endothelial cell-derived proadhesive vasoconstrictor and antiadhesive vasodilator factors exerts a significant influence on the mucosal integrity, and the antagonism of endothelin-A receptor activation in this setting tips the equilibrium toward tissue salvage.
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PMID:Microcirculatory dysfunction during intestinal ischemia-reperfusion. 1470 70

The objective of this study was to investigate the effect of a specific endothelin-A receptor antagonist on mRNA expression of genes encoding vasoactive mediators and proinflammatory cytokines following complete vascular exclusion of the porcine liver. Fourteen adult German Landrace pigs were subjected to 120 minutes of warm hepatic ischemia by total vascular exclusion. The animals were divided into two groups: the control group received saline solution and the therapy group was given the selective endothelin-A receptor antagonist BSF 208075. Liver tissue samples were collected 1 hour after reperfusion and mRNA expression for preproendothelin-1, prointerleukin-1beta, prointerleukin- 6, pro-tumor necrosis factor-alpha and endothelial nitric oxide synthase was analyzed quantitatively using the TaqMan system. Additionally, immunohistochemical analysis using a semiquantitative score for endothelin-1 and endothelin-A receptor was performed. One hour after reperfusion, quantitative reverse transcriptase-polymerase chain reaction revealed significantly lower expression of preproendothelin-1, pro-tumor necrosis factor-alpha, and prointerleukin-6 in the therapy group compared to controls. Immunohistochemical analysis demonstrated significantly reduced endothelin-1 immunostaining after therapy. Treatment with the selective endothelin-A receptor antagonist exerts a protective effect on the microcirculation after liver ischemia and reperfusion. We were able to show that the endothelin-A receptor antagonist not only has effects on the expression of vasoactive genes, it also decreases gene expression of proinflammatory cytokines such as tumor necrosis factor-alpha and interleukin-6.
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PMID:Changes of vasoregulatory gene expression following hepatic ischemia/reperfusion and treatment with endothelin-A receptor blockade. 1583 52


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