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)

The role of nitric oxide in the airway hyperresponsiveness and inflammation of bronchial asthma has not yet been established. However, L-arginine, the substrate for nitric oxide synthases, reportedly alleviates airway hyperresponsiveness caused by parainfluenza virus and reduces granulocytic inflammation induced by ischemia-reperfusion. We investigated the effects of L-arginine on a murine model of allergic asthma that included airway hyperresponsiveness, eosinophilic inflammation and expression of interleukin (IL)-5 in the lung. The mice received drinking water with or without L-arginine for 9 weeks. Histologic evaluation and cellular profiles in bronchoalveolar lavage fluid showed that p.o. administration of L-arginine (72 micromol/kg/day) significantly enhanced eosinophilic airway inflammation and goblet cell proliferation that were associated with intratracheal instillation of ovalbumin. L-Arginine also increased protein levels of IL-5 and IL-2 in supernatants from the lung exposed to ovalbumin. The number of eosinophils in bronchoalveolar lavage fluid correlated significantly with the expression of IL-5. L-Arginine did not reverse ovalbumin-associated airway hyperresponsiveness to inhaled ACh. These results suggest that p.o. administration of L-arginine aggravates allergen-induced eosinophilic airway inflammation via expression of IL-5, and in this model it does not show therapeutic efficacy against airway hyperresponsiveness associated with allergen exposure. Oral administration of L-arginine, the precursor of nitric oxide, may not be an effective intervention in allergic asthma.
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PMID:Oral administration of L-arginine potentiates allergen-induced airway inflammation and expression of interleukin-5 in mice. 969 32

The contributions of nitric oxide (NO) and renal blood flow (RBF) were examined in ischemia-reperfusion injury in the rat kidney. The function of both kidneys was assessed by glomerular filtration rate (GFR), and fractional excretion of sodium (FENa), calculated before, during unilateral renal artery clamping (45 min), and following reperfusion (90 min). RBF was measured in the same model by ultrasonic flowmetry. Intrarenal NO levels were modulated by administration of S-nitroso-N-acetylpenicillamine (SNAP), L-arginine, acetylcholine, and the NO synthase inhibitor NG-nitro-L-arginine methyl ester (L-NAME). SNAP increased GFR from 0.20 +/- 0.04 ml/min in control ischemic kidney to 0.38 +/- 0.06 ml/min and reduced FENa from 19.3 +/- 3.4 to 9.5 +/- 1.8%. Similar results were observed when L-arginine was administered. Acetylcholine had no effect on GFR or FENa. RBF was fully restored within 60 min following reperfusion, with no change in the rate of recovery by L-arginine. L-NAME aggravated the ischemia-reperfusion injury, preventing full restoration of RBF, further reducing GFR and worsening FENa. In conclusion, ischemia-reperfusion injury ends in low intrarenal levels of NO. We propose that this low NO level results from damage to the endothelial receptor signal transduction process and is not due to impaired NO synthase activity or to changes in RBF.
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PMID:Renal ischemia-reperfusion injury: contribution of nitric oxide and renal blood flow. 983 46

Splanchnic artery occlusion and reperfusion (SAO/R) results in a severe form of circulatory shock that has a high mortality rate. To examine the time course of the early events involved in SAO/R, occlusion of the superior mesenteric artery (SMA) and the celiac artery (120 min) were followed by reperfusion periods of 0, 2.5, 5, 20, 30, 60, or 120 min. Relaxation of isolated SMA vascular rings to the endothelium-dependent vasodilator ACh was unimpaired following 120 min of ischemia (86 +/- 5%); however, significant (P < 0.01) reductions in endothelium-dependent vasorelaxation were observed following 2.5 min (53 +/- 6%) of reperfusion with severe dysfunction (P < 0.001) observed at 20 min (29 +/- 4%). Neutrophil adherence to the endothelium increased as a function of reperfusion time with a 2.3-fold increase observed at 20 min (P < 0.01) and a 3.4-fold increase observed at 120 min (P < 0.001). Intestinal myeloperoxidase activity was significantly increased 30 min after reperfusion (P < 0.05), whereas surface expression of P-selectin progressively increased at 5 (P < 0.05) and 30 min (P < 0.001) postreperfusion. These findings demonstrate that endothelial dysfunction is a very early event in the pathophysiology of SAO/R, subsequently resulting in increased surface expression of P-selectin and the adherence of neutrophils to the endothelium that leads to neutrophil accumulation in the splanchnic viscera.
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PMID:Time course of endothelial-neutrophil interaction in splanchnic artery ischemia-reperfusion. 984 7

We investigated the effect of an infusion of ramiprilat on the development of coronary endothelial dysfunction. In anesthetized dogs, the endothelium-dependent vasodilators acetylcholine (ACh, 5 and 10 microg x min(-1) for 1 min) and serotonin (5-HT, 50 and 100 microg x min(-1) for 1 min) and the endothelium-independent vasodilator nitroglycerin (NTG, 50 and 100 microg x min(-1) for 1 min) were given intracoronarily (i.c.) both prior to and after 60 min of ischemia (I) and 180 min of reperfusion (R) of a coronary artery. During I/R the dogs received i.c. either saline (N = 22) or ramiprilat (40 ng/kg x min(-1), N = 14). At the end of the experiment, a biopsy of the most distal coronary bed was processed for scanning electron microscopy (SEM). Prior to I/R all vasodilators induced a similar dose-related increase in coronary flow in both groups. Following I/R, in controls the responses to ACh and 5-HT were significantly blunted (ACh: -39% and -34%; 5-HT: -48% and -49%); those to NTG were unchanged. Ramiprilat significantly prevented the blunting of the responses to ACh (-5%, and -10%) and 5-HT (-11%, and -19%). SEM of control subepicardial arterioles showed adhesion of leukocytes to the endothelium and crater formation. No craters were seen in the ramiprilat-treated dogs. Thus, an acute infusion of ramiprilat significantly prevents the development of coronary endothelial dysfunction. Additionally, the appearance of crater-like changes on the endothelial surface can be taken as a morphological marker of endothelial dysfunction.
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PMID:Ramiprilat prevents the development of acute coronary endothelial dysfunction in the dog. 1050 23

We examined the ability of ACh to mimic ischemic preconditioning in cardiomyocytes and the role of ATP-sensitive potassium (KATP) channels and mitochondrial reactive oxygen species (ROS) in mediating this effect. Chick embryonic ventricular myocytes were studied in a flow-through chamber while flow rate, pH, PO2, and PCO2 were controlled. Cell viability was quantified with propidium iodide (5 microM), and production of ROS was measured using 2', 7'-dichlorofluorescin diacetate. Data were expressed as means +/- SE. Preconditioning with 10 min of ischemia followed by 10 min of reoxygenation or 10 min of ACh (1 mM) followed by a drug-free period before 1 h of ischemia and 3 h of reoxygenation reduced cell death to the same extent [preconditioning 19 +/- 2% (n = 6, P < 0.05) ACh 21 +/- 5% (n = 6, P < 0.05) vs controls 42 +/- 5% (n = 9)]. Like preconditioning, ACh increased ROS production threefold before ischemia [0.60 +/- 0.16 (n = 7, P < 0.05) vs. controls, 0.16 +/- 0. 03 (n = 6); arbitrary units]. Protection and increased ROS production during ACh preconditioning were abolished with 5-hydroxydecanoate (5-HD, 100 microM), a selective mitochondrial K(ATP) channel antagonist, and the thiol reductant 2-mercaptopropionyl glycine (2-MPG, 1 mM), an antioxidant [cell death: 5-HD+ACh 37 +/- 7% (n = 5), 2-MPG+ACh 47 +/- 6% (n = 6); ROS signals: 5-HD+ACh 0.09 +/- 0.03 (n = 5), 2-MPG+ACh 0.01 +/- 0.04 (n = 4)]. In addition, ACh-induced ROS signaling was blocked by the mitochondrial site III electron transport inhibitor myxothiazol (0.02 +/- 0.07, n = 5). These results demonstrate that activation of mitochondrial K(ATP) channels and increased ROS production from mitochondria are important intracellular signals that participate in ACh-induced preconditioning in cardiomyocytes.
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PMID:Role of reactive oxygen species in acetylcholine-induced preconditioning in cardiomyocytes. 1060 Aug 75

It has been demonstrated that ischemic preconditioning (IPC) affords protection against the post-ischemic endothelial dysfunction. Here, a hypothesis was tested that IPC, by protecting the endothelium, prevents also the adherence of granulocytes (PMNs) in the post-ischemic heart. Langendorff-perfused guinea-pig hearts were subjected to 30 min ischemia/30 min reperfusion (IR) and peritoneal PMNs were infused between 15 and 25 min of the reperfusion. Acetylcholine (ACh)-induced coronary vasodilatation and nitrite outflow were used to measure endothelial function and coronary flow response to sodium nitroprusside (SNP) served as a measure of endothelium-independent vascular function. The endothelial adherence of PMNs to the coronary microvessels was assessed in histological preparation of the myocardium. In the hearts subjected to IR, ACh-induced vasodilatation and nitrite outflow were reduced by 55% and 69%, respectively, SNP response remained unaltered, and 22% of microvessels were occupied by PMNs, as compared to 2% in the sheam perfused hearts. These alterations were attenuated by IPC (3 x 5 min ischemia). A selectin blocker, sulfatide, prevented IR-induced PMNs adherence and did not affect the responses to ACh and SNP. These data demonstrate that IR leads to the endothelial dysfunction and to the selectin-mediated PMNs adhesion in the isolated guinea-pig and that IPC attenuates both alterations. We speculate that the pro-adhesive effect of IR is secondary to the endothelial injury and that the anti-PMNs action represents a novel cardioprotective mechanism of IPC.
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PMID:Effect of ischemic preconditioning on endothelial dysfunction and granulocyte adhesion in isolated guinea-pig hearts subjected to ischemia/reperfusion. 1063 12

We hypothesized that exercise training preserves endothelium-dependent relaxation, lessens receptor-mediated constriction of coronary resistance arteries, and reduces myocardial contractile dysfunction in response to ischemia. After 10 wk of treadmill running or cage confinement, regional and global indexes of left ventricular contractile function were not different between trained and sedentary animals in response to three 15-min periods of ischemia (long-term; n = 17), one 5-min bout of ischemia (short-term; n = 18), or no ischemia (sham-operated; n = 24). Subsequently, coronary resistance vessels ( approximately 106 +/- 4 microm ID) were isolated and studied using wire myographs. Maximal ACh-evoked relaxation was approximately 25, 40, and 60% of KCl-induced preconstriction after the long-term, short-term, and sham-operated protocols, respectively, and was similar between groups. Maximal sodium nitroprusside-evoked relaxation also was similar between groups among all protocols, and vasoconstrictor responses to endothelin-1 and U-46619 were not different in trained and sedentary rats after short-term ischemia or sham operation. We did observe that, after long-term ischemia, maximal tension development in response to endothelin-1 and U-46619 was blunted (P < 0.05) in trained animals by approximately 70 and approximately 160%, respectively. These results support our hypothesis that exercise training lessens receptor-mediated vasoconstriction of coronary resistance vessels after ischemia and reperfusion. However, training did not preserve endothelial function of coronary resistance vessels, or myocardial contractile function, after ischemia and reperfusion.
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PMID:Microvascular and myocardial contractile responses to ischemia: influence of exercise training. 1065 8

The effects of ischemia and reperfusion on the coronary endothelium and myocardium as well as tolerance to ischemia/reperfusion injury were assessed using isolated retrogradely perfused rat hearts. Repeated brief episodes of myocardial ischemia followed by reperfusion is known to have a protective effect against subsequent myocardial infarction. However, no studies have been performed with perfusion in the absence of blood cells to determine the effect of repeated ischemia and reperfusion on the coronary endothelium and myocardium. Using the Langendorff perfusion technique, rat hearts were subjected to a 30-, 10-, 5-, or 2-min period of low-flow perfusion by reducing the coronary flow to 3 ml/min followed by reperfusion at 20 ml/min for the same period of time. Control perfusion was then performed at a constant flow rate of 20 ml/ min for 60 min. Acetylcholine-induced coronary vasodilation was significantly (P < 0.05) lower in hearts subjected to 30 min of ischemia and 30 min of reperfusion when compared with the control hearts. Myocardial creatinine kinase (CK) activity was significantly reduced (P < 0.01) in hearts subjected to ischemia and reperfusion for either 30, 10, or 5 min. To assess the effect of repeated episodes of ischemia and reperfusion, the following protocols were used: a control study with constant perfusion for 60 min (group A), 30 min of ischemia and 30 min of reperfusion (group B), three 10-min episodes of ischemia and reperfusion (group C), six 5-min episodes of ischemia and reperfusion (group D), and 15 2-min episodes of ischemia and reperfusion (group E). Acetylcholine-induced coronary vasodilation was significantly inhibited in group B (80% +/- 12%, P < 0.05) and group C (70% +/- 13%, P < 0.01), but did not change significantly in either group D (123% +/-19%) or group E (142% +/- 15%), compared with the control group (group A; 127% +/- 15%, mean +/-SEM). Nitroglycerin-induced coronary vasodilation was not altered by ischemia/reperfusion in any group. In contrast, myocardial CK activity was significantly lower in group B (3.6 +/- 0.6IU/mg protein, P < 0.01), group C (3.2 +/- 0.1 IU/mg protein, P < 0.01), and group D (3.3 +/- 0.21U/mg protein, P < 0.01) than in group A (47 +/- 6.7 IU/mg protein). The myocardial CK activity of group E was not significantly different from that of group A, but was significantly higher than in groups B, C, and D (P < 0.01). In isolated perfused rat hearts, both the coronary endothelium and myocardium are damaged by repeated episodes of ischemia and reperfusion. However, the coronary endothelium is more resistant to such damage than is the myocardium.
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PMID:Effects of repeated brief episodes of ischemia and reperfusion in isolated perfused rat hearts. 1077 4

Because long-term pulmonary artery (PA) obstruction is associated with expansion of the systemic blood supply to the lung, chronic ischemia may not occur, and endothelium nitric oxide synthase (eNOS) function may be preserved in postobstructive pulmonary arteries. To test this hypothesis, we studied piglets 2 d or 5 wk after left PA ligation or a sham operation. We measured left lung ATP and lactate lung concentrations; calcium-dependent and calcium-independent NOS activities and eNOS protein; and left PA relaxations in response to acetylcholine, calcium ionophore, and sodium nitroprusside. Decreases in ATP and increases in lactate concentrations were significantly attenuated after 5 wk PA occlusion (p < 0.05 versus sham and 2-d ligation). Compared with sham and 2-d PA occlusion, calcium-dependent NOS activity and eNOS protein were lower in the long-term PA occlusion group. Calcium-independent NOS activity was unchanged. Acetylcholine and calcium ionophore relaxations were impaired after 5 wk, whereas only acetylcholine relaxation was impaired after 2-d PA occlusion. Relaxation to sodium nitroprusside remained unchanged. In conclusion, despite relative conservation of lung energy metabolism, prolonged PA occlusion decreased eNOS function and protein in postobstructive pulmonary arteries.
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PMID:Endothelial nitric oxide synthase function in pig lung after chronic pulmonary artery obstruction. 1102 57

The control of arterial vascular tone by acetylcholine contributes to the regulation of cerebral blood flow. We analysed the effects of intraluminal application of acetylcholine (1microM) on the cerebral vascular tone by measuring changes in resistance to perfusion pressure in an isolated guinea-pig brain preparation maintained in vitro by arterial perfusion under constant flow. Acetylcholine induced a reproducible, fast-onset dilation that was prevented by the nitric oxide scavenger Methylene Blue (10microM) and by the muscarinic receptor antagonist atropine (0.1microM). Prolonged arterial perfusion with the nitric oxide synthase inhibitors N-nitro-L-arginine (1mM) and N-nitro-L-arginine methyl ester (30-100microM) induced a slowly developing increase of 25.9+/-13. 44mmHg in vascular tone and blocked the acetylcholine-induced vasodilation. In these experimental conditions, the dilation determined by the nitric oxide donor nitroprusside (0.1microM) was unaffected. In five experiments, the blockade of dilation unmasked a slow acetylcholine-mediated vasoconstriction (14.40+/-3.85mmHg) that was antagonized by atropine.The results demonstrate that acetylcholine exerts two simultaneous and opposite effects on guinea-pig cerebral vessels, characterized by a slow direct constriction concealed in physiological conditions by a fast vasodilation mediated through the release of nitric oxide by endothelial cells. Acetylcholine-mediated increase in vascular tone may play a role in aggravating cerebral perfusion when endothelial cell damage occurs during brain ischemia.
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PMID:Nitric oxide synthase inhibitors unmask acetylcholine-mediated constriction of cerebral vessels in the in vitro isolated guinea-pig brain. 1107 51

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