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)

When keratome-sliced pig epidermis was floated on Hank's balanced salt solution, we observed a rapid decrease in the intracellular level of cyclic GMP. A portion of the lost cyclic GMP was detected in the incubation medium. When the epidermis was kept in air at room temperature, the cyclic GMP level also decreased rapidly but to a lesser degree. Incubating the epidermal slice at 37 degrees C in Hank's balanced salt solution with the addition of 3-isobutyl-1-methyl xanthine (IBMX) prevented the decrease. Also, after the cyclic GMP level had fallen, it could be raised to be the in vitro level by the addition of IBMX. Increased amounts of cyclic GMP were detectable in the medium in this case. These data indicate that the decrease in cyclic GMP in ischemic epidermis is due to sudden activation of epidermal cyclic GMP-phosphodiesterase and also in part due to leakage of cyclic GMP extracellularly. In contrast to the rapid decline in the cyclic GMP level, ischemia caused a rapid and transient increase in epidermal cyclic AMP. This confirms previous data by ourselves and by others (Br J Dermatol 92: 249-254, 1975; J Invest Dermatol 68:125-127, 1977). These "ischemic effects" must be avoided in order to measure the "in vivo level" of cyclic nucleotides in epidermis.
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PMID:Cyclic GMP System in epidermis: I. Effect of ischemia. 8 73

Although corticosteroids have been shown to stabilize lysosomal membranes and prevent release of hydrolytic enzymes, the mechanism of membrane stabilization remains obscure. The few reports regarding the use of steroids in myocardial ischemia have been conflicting. This study was undertaken to determine if a pharmacologic dose of the glucocorticoid methylprednisolone would protect the heart during ischemic cardiac arrest. A randomized double-blind study was performed in 25 dogs. Biochemical and hemodynamic parameters were assessed during and after cardiopulmonary bypass and after 30 minutes of ischemic cardiac arrest. Animals were divided into two groups. Group I served as controls and consisted of dogs injected intravenously with the vehicle of methylprednisolone 18 hours and 1 hour prior to experiment. Group II comprised dogs injected with methylprednisolone, 30 mg. per kilogram, IV, at the same time periods. Blood pH, gases, and electrolytes were measured; aortic, left atrial, and left ventricular pressures were monitored; the first derivative of the left ventricular pressure (dp/dt max.) was also determined. Arterial and coronary sinus blood samples were assayed for lactate levels and activity of the lysosomal enzyme, beta-glucuronidase. Left ventricular muscle was assayed for the nucleotides cyclic adenosine 3',5' monophosphate (AMP) and cyclic guanosine 3',5' monophosphate (GMP). Following restoration of coronary flow, mean aortic and left ventricular systolic pressures and left ventricular contractility as determined by dp/dt max. and dp/dt max./IP were depressed in both groups as expected but were significantly higher in Group II than in Group I (p less than 0.05). An increase in levels of both cyclic nucleotides occurred in each group during ischemia, but this increase in cyclic GMP was significantly greater in Group I (p less than 0.05). beta-glucuronidase activity and myocardial potassium loss as determined in coronary sinus blood were both significantly greater in Group I than in Group II (p less than 0.05). Results of this study demonstrate that pretreatment with a pharmacologic dose of methylprednisolone significantly enhances cardiac recovery after ischemia. Lysosomal membrane stability and modulation of cyclic GMP levels may be critical determinants in the mechanism of cardiac ischemia.
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PMID:Protective effect of methylprednisolone on the heart during ischemic arrest. 17 23

The effects of dexamethasone sodium phosphate (DSP), 5 mg/kg, administration on the biochemical alterations in hepatic tissue subsequent to the production os splanchnic artery occlusion (SAO) shock was investigated. Following the induction of SAO shock, DSP-treated dogs exhibited a significantly improved cardiovascular status compared to placebo-treated shocked dogs, 2 hr after release of the occlusion, biopsies of the liver were taken and analyzed for beta-glucuronidase (BG), adenosine-3',5'-cyclic monophosphate (cAMP) and guanosine-3',5'-cyclic monophosphate (cGMP) content. SAO shock produced a significant increase in hepatic free BG activity which was reversed by DSP pretreatment. Additionally, SAO shock decreased hepatic cAMP levels, increased cGMP levels and significantly lowered the hepatic ratio of cAMP/cGMP. These changes in cyclic nucleotide levels were reversed by DSP administration and were found to be inversely related to changes in hepatic free BG activity. Thus, the ratio of cellular cAMP/cGMP may function as a regulatory mechanism for lysosomal enzyme release secondary to ischemia and hypoxia. Further, DSP may act to maintain lysosomal integrity in ischemic tissues by preservation of cAMP/cGMP ratios.
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PMID:Alterations in splanchnic cyclic nucleotide levels in splanchnic artery occlusion shock and their modification by dexamethasone. 17 27

By use of highly sensitive radioimmunoassays, 3':5'-cyclic AMP (cAMP) and 3':5'-cyclic GMP (cGMP) were measured in individual layers of light- and dark-adapted rabbit retinas, and the effects of ischemia were determined. In light-adapted retinas, cGMP levels ranged 50-fold, with over 90% of the total concentrated in the photoreceptor cells. The layer of outer segments contained 95 mumol/kg of dry weight, or three times the concentration present in the remainder of the photoreceptor cell layers. By contrast, levels of cAMP varied only 4-fold; the lowest level (6 mumol/kg of dry weight) was found in the outer segment layer and the highest level (22 mumol/kg of dry weight) in the inner segment layer of the photoreceptor cells. Dark adaptation elevated cGMP levels only in retinal layers containing photoreceptor cells, and the greatest proportional increase was observed in the synaptic layer of photoreceptor cells. Dark adaptation also caused increases of cAMP that were restricted to the outer plexiform and outer nuclear layers. Ischemia lowered cGMP levels, but only in retinal layers containing photoreceptor cells, and elevated cAMP levels, primarily in the inner layers of the retina. The effects of ischemia were greater in the dark-adapted than in light-adapted retinas. These results indicate that cGMP and cAMP levels in retina are influenced by the light adaptational state, that ischemia markedly modifies these processes, and that the effects of both light exposure and ischemia are regionally selective.
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PMID:Distribution of 3':5'-cyclic AMP and 3':5'-cyclic GMP in rabbit retina in vivo: selective effects of dark and light adaptation and ischemia. 18 39

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

The potential role of nitric oxide (NO) and its reaction product with superoxide, peroxynitrite, was investigated in a model of hepatic ischemia-reperfusion injury in male Fischer rats in vivo. Pretreatment with the NO synthase inhibitor nitro-L-arginine (10 mg/kg) did neither affect the post-ischemic oxidant stress and liver injury during the initial reperfusion phase nor the subsequent infiltration of neutrophils into the liver and the later, neutrophil-induced injury phase. Furthermore, no evidence was found for a postischemic increase of the urinary excretion of nitrite, a stable oxidation metabolite of NO. In contrast, the administration of Salmonella enteritidis endotoxin (1 mg/kg) induced a significant diuresis in Fischer rats and an 800-fold enhancement of the urinary nitrite excretion. Nitro-L-arginine pretreatment inhibited the endotoxin-induced nitrite formation by 97%. Hepatic cGMP levels, as index of NO formation in the liver, were only increased significantly after endotoxin administration but not after ischemia and reperfusion. Our results provide no evidence for any enhanced generation of NO or peroxynitrite either systemically or locally during reperfusion and therefore it is unlikely that any of these metabolites are involved in the oxidant stress and liver injury during reperfusion after hepatic ischemia.
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PMID:Role of nitric oxide in the oxidant stress during ischemia/reperfusion injury of the liver. 137 73

Neural injury due to ischemia and related insults is thought to involve the action of excitatory amino acids at N-methyl-D-aspartate receptors, which results in the influx of extracellular Ca2+ and the generation of nitric oxide. Because ethanol inhibits physiologic responses to excitatory amino acids, we examined its effect on toxicity induced by N-methyl-D-aspartate and by the nitric oxide donor sodium nitroprusside in neuron-enriched cultures prepared from rat cerebral cortex. Both N-methyl-D-aspartate and sodium nitroprusside were cytotoxic, as measured by the release of lactate dehydrogenase and by microfluorescent determination of cell viability. Ethanol (3-1,000 mM) protected cultures from N-methyl-D-aspartate but not sodium nitroprusside toxicity, and the ability of a series of n-alkanols to reproduce the effect of ethanol was related to carbon-chain length. Neuroprotection by ethanol was accompanied by a decrease in the N-methyl-D-aspartate-evoked elevation of free intracellular Ca2+ and did not appear to involve gamma-aminobutyric acid- or cyclic GMP-mediated mechanisms. These findings suggest that ethanol inhibits excitotoxicity at an early step in the N-methyl-D-aspartate signaling pathway, probably by reducing Ca2+ influx, and not by interfering with the action of nitric oxide.
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PMID:Ethanol and excitotoxicity in cultured cortical neurons: differential sensitivity of N-methyl-D-aspartate and sodium nitroprusside toxicity. 143

Fifty healthy males aged from 19 to 34 years were examined. Experiments were conducted on 30 male mice weighing 200-250 g. After 10- and 20-minute ischemia of the upper limb the concentration of cAMP and cGMP in its venous blood increases in direct proportion to the duration of ischemia. Increase of the level of cyclic nucleotides (CN) in the blood does not depend on hypersecretion of catecholamines. Increase of the CN level coincides in time with increase of blood CPK. The mechanisms of changes in the blood CN level in ischemia are discussed.
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PMID:[Blood cyclic nucleotide content in acute regional ischemia of the extremities]. 162 31

Recent studies revealed a role for dopamine and noradrenaline in the etiology of ischemia-induced neuronal cell death. In the present investigation, the modulation by clozapine, an atypical antipsychotic agent that interacts with adrenergic receptors, of N-methyl-D-aspartate (NMDA) receptor complex-mediated events were studied by examining its effects on levels of cGMP in the cerebellum. Clozapine decreased basal levels of cGMP in the cerebellum and antagonized harmaline-, methamphetamine-, pentylenetetrazol- and D-serine-induced increases in levels of cGMP with ED50 values of 3.9, 2.36, 2.13 and 2.1 mg/kg (i.p.). However, clozapine (1.25-25 mg/kg) did not attenuate the quisqualate-induced increases in levels of cGMP, indicating a specific modulation of events modulated by the NMDA receptor complex. Antagonists of dopamine (D2), serotonin (5-HT)-5-HT1, 5-HT2 and 5-HT3 [haloperidol, propranolol, ritanserin, ICS 205-930 [(3-tropanyl-indole-3-carboxylate methiodide)] respectively], did not reverse the response to harmaline. However, WB-4101 [(2,6-dimethoxy-phenoxyethyl)aminomethyl-1,4-benzodioxane HCl], and alpha 1-adrenergic antagonist, reversed harmaline-, D-serine-, PTZ- and MA-induced increases in levels of cGMP, indicating an adrenergic modulation of the events mediated by the NMDA receptor complex. Intracerebellar and intracerebroventricular administration of clozapine and intracerebellar administration of WB-4101 reversed the D-serine-induced response, indicating a central locus of action. These results indicated that clozapine modulates levels of cGMP predominantly through its interactions with central adrenergic receptors.
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PMID:Clozapine attenuates N-methyl-D-aspartate receptor complex-mediated responses in vivo: tentative evidence for a functional modulation by a noradrenergic mechanism. 168 42

Oxygen metabolites have been reported to produce vasoconstriction and/or vasodilation in a variety of in vitro or in vivo vascular preparations. Certain basic mechanisms appear to contribute to these responses. Hydrogen peroxide can produce either vasodilation or constriction via stimulation of prostaglandins. The soluble form of guanylate cyclase in vascular smooth muscle, an enzyme which produces the intracellular mediator of relaxation cyclic GMP, is also a site of action of vasoactive O2 metabolites. Guanylate cyclase is directly activated by nanomolar concentrations of nitric oxide (produced by endothelial cells or nitrovasodilator drugs) or H2O2 (via its metabolism by catalase). These cyclic GMP-mediated mechanisms of relaxation are inhibited by superoxide anion, produced from endogenous sources after inhibition of superoxide dismutase or produced by pharmacological agents that undergo redox cycling. In addition, O2 metabolites may modulate vascular tone via the chemical destruction of physiological contractile agents (e.g. norepinephrine) and relaxant agents (e.g. nitric oxide), and via injury to cells important for the regulation of vascular tone (e.g. endothelium). We have found in a variety of preparations that reexposure to O2 after a brief period of severe hypoxia produces vascular responses that appear to be mediated by intracellular H2O2 generation. Thus, active O2 species may contribute to vascular responses in pathophysiological situations associated with their formation (e.g. inflammation, ischemia/reperfusion, etc.) and to the physiological regulation of vascular tone produced by changes in O2 tension (e.g. reactive hyperemia, hypoxic vasoconstriction, etc).
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PMID:Activated oxygen metabolites as regulators of vascular tone. 179 78

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