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)

This experiment was designed to determine mechanisms of change in nonadrenergic, noncholinergic (NANC) inhibitory neurons in the ileum after small bowel transplantation (SBT) in the rat and whether nitric oxide (NO) serves as an important NANC inhibitory neurotransmitter in the rat ileum. Eight groups of rats (N > or =8 rats/group) were studied: neurally intact unoperated controls; rats one week after anesthesia and sham celiotomy; and separate groups one and eight weeks after either 40 min of cold ischemia of the jejunoileum, combined jejunal and ileal intestinal transection/reanastomosis, or orthotopic SBT of the entire jejunoileum. Contractile activity was evaluated in full-thickness ileal circular muscle strips under isometric conditions. Spontaneous activity did not differ among groups. In all groups, exogenous NO, NG-monomethyl-L-arginine (L-NMMA, an NO synthase inhibitor), and methylene blue (soluble guanylate cyclase inhibitor) had no effect on spontaneous activity, while 8-bromocyclic guanosine monophosphate (8Br-cGMP) inhibited contractile activity in all groups. Low frequency (2-10 Hz) electrical field stimulation (EFS) inhibited contractile activity only in control and SBT groups; L-NMMA and methylene blue did not alter the response to EFS in any group. These results suggest that each aspect of the SBT procedure, ischemia/reperfusion injury, disruption of enteric neural continuity by intestinal transection, and extrinsic denervation, alter function of enteric ileal inhibitory neurons separately early (one week) after operation. NO, a known inhibitory neurotransmitter in other gut regions, does not affect ileal circular muscle in neurally intact tissue nor mediate functional changes in inhibitory nerve function nor smooth muscle contractility after SBT.
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PMID:Functional changes in nonadrenergic, noncholinergic inhibitory neurons in ileal circular smooth muscle after small bowel transplantation in rats. 982 32

Brain ischemia stimulates release from astrocytes of adenine-based purines, particularly adenosine, which is neuroprotective. Guanosine, which has trophic properties that may aid recovery following neurological damage, is present in high local concentrations for several days after focal cerebral ischemia. We investigated whether guanine-based purines, like their adenine-based counterparts, were released from astrocytes and whether their release increased following hypoxia/hypoglycemia. HPLC analysis of culture medium of rat astrocytes showed spontaneous release of endogenous guanine-based purines at a higher rate than their adenine-based counterparts. The concentration of guanosine (approximately 120 nM) and adenosine (approximately 43 nM) in the culture medium remained constant, whereas concentrations of adenine and guanine nucleotides, particularly GMP, and their metabolites increased with time. Exposure of the cultures to hypoxia/hypoglycemia for 30 min increased the extracellular concentration of adenine-based purines by 2.5-fold and of guanine-based purines by 3.5-fold. Following hypoxia/hypoglycemia extracellular adenine nucleotide levels increased further. Adenosine concentration increased, but not proportionally to nucleotide levels. Accumulation of adenosine metabolites indicated it was rapidly metabolized. Conversely, the concentrations of extracellular guanine-based nucleotides remained elevated and the concentration of guanosine continued to increase. These data indicate that astrocytes are a major source of guanine-based purines, the release of which is markedly increased following hypoxia/hypoglycemia, permitting them to exert neurotrophic effects.
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PMID:Rat cultured astrocytes release guanine-based purines in basal conditions and after hypoxia/hypoglycemia. 988 1

Adenosine increases blood flow and decreases excitatory nerve firing. In the heart, it reduces rate and force of contraction and preconditions the heart against injury by prolonged ischemia. Based on indirect kinetic arguments, an AMP-selective cytosolic 5'-nucleotidase designated cN-I has been implicated in adenosine formation during ATP breakdown. The molecular identity of cN-I is unknown, although an IMP/GMP-selective cytosolic 5'-nucleotidase (cN-II) and an ecto-5'-nucleotidase (e-N) have been cloned. We utilized the high abundance of cN-I in pigeon heart to purify a 40-kDa subunit for partial protein sequencing and subsequent cDNA cloning. We obtained a full-length clone encoding a novel 40-kDa peptide, unrelated to cN-II or e-N, that was most abundant in heart, brain, and breast muscle. Immunolocalization in heart showed a striated cytoplasmic location, suggesting association with contractile elements. Transient expression in COS-7 cells, generated a 5'-nucleotidase that catalyzed adenosine formation from AMP, which was increased during ATP catabolism. In conclusion, the cloning and expression of cN-I provides definitive evidence of its ability to produce adenosine during ATP breakdown.
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PMID:The mechanism of adenosine formation in cells. Cloning of cytosolic 5'-nucleotidase-I. 1036 22

This study was done to examine the protective effects of cyclic guanosine monophosphate (cGMP), a second messenger of nitric oxide, for ischemia/reperfusion injury of the liver, since it is known to induce vasodilatation and to inhibit platelet aggregation. Using an experimental model of porcine liver ischemia, 8-bromoguanosine 3',5' monophosphate, a cGMP analog, was continuously administered into the portal vein before ischemia and after reperfusion 30 min for each in the cGMP group (n = 6). Saline water was administered in the same way in the control group (n = 6). The cardiac output (CO), mean arterial blood pressure (MAP), portal venous flow (PVF), hepatic arterial flow (HAF), hepatic tissue blood flow (HTBF), and hepatic tissue cGMP level were determined. Hepatic enzymes and the bile discharge were also assessed as indicators of hepatic function. The hepatic tissue cGMP level was significantly higher, and PVF, HTBF, and the bile discharge were significantly greater in the cGMP group, while there were no remarkable differences between the groups with CO, MAP, HAF, and hepatic enzymes. In conclusion, the continuous supplementation of cGMP into the portal vein was found to be beneficial for preserving both the hepatic circulation and, consequently, the hepatic function after warm ischemia of porcine liver.
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PMID:Experimental evaluation of the effects of the intraportal administration of cyclic guanosine monophosphate on ischemia/reperfusion in the porcine liver. 1055 34

A pathological glia activation, stimulated by inflammatory proteins, beta-amyloid, or brain ischemia, is discussed as a common pathogenic factor for progressive nerve cell damage in vascular and Alzheimer dementia. A critical point seems to be reached, if the cytokine-controlled microglial upregulation causes a secondary activation of astrocytes which loose the negative feedback control, are forced to give up their physiological buffering function, and may add to neuronal damage by the release of nitric oxide (NO) and by promoting toxic beta-amyloid formation. A strengthening of the cyclic adenosine-5',3'-monophosphate (cAMP) signaling exerted a differential inhibition of the stimulatory cytokines tumor necrosis factor-alpha (TNF-alpha) and interleukin-1 beta (IL-1 beta) released from cultured rat microglia, but maintained the negative feedback signal IL-6; cAMP inhibited also the release of free oxygen radicals (OR) but not of NO. Reinforcement of the NO-induced cyclic guanosine monophosphate (cGMP) increase by blockade of the phosphodiesterase (PDE) subtype-5 with propentofylline counterbalanced the toxic NO action that causes with OR neuronal damage by peroxynitrate formation. In rat cultured astrocytes, a prolonged cAMP elevation favored cell differentiation, the expression of a mature ion channel patter, and an improvement of the extracellular glutamate uptake. Cyclic AMP signaling could be strengthened by PDE blockade and by raising extracellular adenosine, which stimulates A2 receptor-mediated cAMP synthesis. Via an A1 receptor-mediated effect, elevated adenosine was found to overcome a deficient intracellular calcium mobilization resulting from an impaired muscarinic signaling at pathologically decreased acetylcholine concentrations. We suggest that pharmaca, which elevate extracellular adenosine and/or block the degradation of cyclic nucleotides, may be used to counteract glia-related neuronal damage in dementing processes.
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PMID:Cascading glia reactions: a common pathomechanism and its differentiated control by cyclic nucleotide signaling. 1081 85

In view of the use of synthetic propentofylline (PPF) as a protective agent in brain ischemia, its possible side effects on vision capacities have been explored by electroretinography in comparative experiments with theophylline. We used eyecup preparations of small-spotted dogfish sharks and of European eels, particularly suitable for long-lasting experiments. The drug exerted profound but reversible modifications of ERG records: (1) a dose-dependent increase of the amplitude and duration of the chemically isolated late receptor potential (LRP), (2) a partial unmasking of LRP, (3) a strong potentiation of the LRP-unmasking effect of low temperature, (4) a potentiation of light adaptation effects, and (5) a strong potentiation of the post-illumination hyperexcitability. The effects were explicable as due to a strong phosphodiesterase (PDE) inhibiting, cyclic guanosine monophosphate (cGMP) promoting, action of the drug. The effects were considerably stronger, or even of opposite sign, in comparison to those of the chemically related theophylline. PPF did not seriously affect the ERG c-wave originating in the pigment epithelium. The results suggested that the effects of PPF on vision may not seriously hamper the therapeutic use of the drug. They indicated, on the other hand, that PPF was a retinoactive drug of potential usefulness in the exploration of the complex biochemical events underlying visual transduction.
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PMID:Effects of xanthine derivatives on electroretinographic responsiveness. 1085 70

Erectile dysfunction (ED) is common in men with cardiovascular disease. The introduction of sildenafil citrate, the first oral agent for the treatment of this disorder, has increased awareness about the risks of sexual activity in cardiac patients and raised concerns about the safety of sildenafil in patients being treated for coronary disease. Sildenafil is a potent and selective inhibitor of phosphodiesterase type 5 (PDE5), the enzyme responsible for the degradation of cyclic guanosine monophosphate (cGMP). Sildenafil acts along the same general pathway as nitric oxide donors to increase cGMP levels and enhance erections. Sildenafil is a modest vasodilator that causes small decreases in systemic arterial pressure and mild preload and afterload reductions. It does not cause major decreases in blood pressure when administered with one or more standard antihypertensive agents. Because PDE5 is also present in small amounts in the systemic vasculature, sildenafil can cause a synergistic and major decrease in pressure when combined with organic nitrates. Use of organic nitrates is the only contraindication to sildenafil use. Data on sildenafil in patients with recent (less than 6 months) myocardial infarction (MI), unstable angina, stroke, and recent life-threatening arrhythmias are not available, so the drug should be used with caution in patients with unstable cardiac conditions. Placebo-controlled and open-label phase 2/3 trials including men with ischemic heart disease did not show an increase in MI or serious cardiovascular events in patients treated with sildenafil versus placebo. None of the serious cardiovascular events reported in these trials were considered treatment related by the investigators. There is a small but finite increased risk of developing ischemia or infarction with sexual activity. Therefore, before prescribing sildenafil or any current or future treatment for ED to patients with known cardiac disease or multiple cardiovascular risk factors, physicians should discuss the potential cardiac risk of sexual activity and perform a complete medical assessment, including an exercise stress test if appropriate.
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PMID:Sex and the patient with cardiovascular risk factors: focus on sildenafil. 1113 98

Nitric oxide (NO) donors given during ischemia possibly protect the myocardium by increasing tissue cyclic guanosine monophosphate (cGMP) and decreasing cytosolic Ca2+ levels. However, NO donors also elevate ischemic cyclic adenosine monophosphate (cAMP) levels, which exacerbates ischemic-reperfusion injury. The authors propose that suppression of this NO donor-induced increase in cAMP would improve the cardioprotective properties of these compounds. Langendorff perfused rat hearts were treated with sodium nitroprusside (SNP, 0.1 mM ) or glyceryl trinitrate (GTN, 1.0 microM ) and/or adenylyl cyclase (SQ, 50 microM ) or guanylyl cyclase (ODQ, 30-300 microM ) inhibitors during 40-min low-flow (0.2 ml/min) ischemia. Control reperfusion rate-pressure product (RPP) recoveries were 47 +/- 3% (n = 9) and improved to 59 +/- 1% (n = 11) (p < 0.05) with SNP treatment. Ischemic ODQ treatment decreased RPP recovery to 33 +/- 3% (n = 10) (p < 0.05). ODQ eliminated the cardioprotective effects of SNP (RPP recovery: 40 +/- 5% [n = 7] vs. 59 +/- 1% [p < 0.05]). Adenylyl cyclase inhibition improved RPP recovery from 59 +/- 1% (SNP) to 72 +/- 4% (SNP + SQ) (n = 11) (p < 0.05). The authors conclude that (a) suppression of the NO donor-induced elevations in ischemic cGMP levels (ODQ) worsened reperfusion RPP, (b) suppression of the NO donor-induced elevation in ischemic cAMP levels (SQ) further improved reperfusion RPP in NO donor-treated hearts, and (c) the severity of ischemic-reperfusion injury in the NO donor-treated heart was inversely related to ischemic-tissue cGMP levels and often directly related to the ischemic-tissue cAMP-to-cGMP ratio.
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PMID:Relation of cyclic nucleotide ratios to ischemic and reperfusion injury in nitric oxide-donor treated rat hearts. 1158 23

In ischemic preconditioning, nitric oxide (NO) limits the extension of a subsequent infarct and protects against ischemia/reperfusion-induced endothelial dysfunction, arrhythmias and myocardial stunning. The protective activity concerns both the first and the second window of protection. The antiarrhythmic effect is attributed to microvessel dilation and to the production of cyclic guanosine monophosphate in the myocardium. The limitation of the infarct size is likely to depend on the opening of the mitochondrial adenosine triphosphate-sensitive potassium channels, to which NO participates via the activation of a protein kinase C (PKC). The endothelial protection involves an NO-mediated reduction in neutrophil adherence to the coronary endothelium and platelet aggregation and is accompanied by an enhanced response to vasodilator stimuli. During preconditioning ischemia, NO is released from the coronary endothelium as a result of bradykinin-induced activation of B2 endothelial receptors. In addition to the early protection, endothelium-derived NO is also responsible for a signaling cascade which leads to the activation of myocardial inducible NO synthase, which in turn is responsible for the release of NO involved in the delayed protection. The signaling cascade includes the activation of PKC-epsilon, tyrosine kinase and some mitogen-activated protein kinases. It has been suggested that the activation of PKC-epsilon is mediated by peroxynitrite produced by the combination of NO and the superoxide anion, the latter being generated during reperfusion which follows preconditioning ischemia.
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PMID:Involvement of nitric oxide in ischemic preconditioning. 1166 94

Preischemic treatment with atrial natriuretic peptide (ANP) attenuates ischemia-reperfusion injury of the rat liver via cyclic guanosine monophosphate (cGMP). The attenuated activation of nuclear factor kappaB (NF-kappaB) seems to contribute to this effect. The aim of this study was to determine whether heat shock proteins are involved in these molecular pathways. Livers of male Sprague-Dawley rats were continuously perfused with Krebs-Henseleit (KH) buffer with or without ANP or 8-Br-cGMP. In different experiments livers were perfused with or without ANP for 20 minutes, kept in cold storage solution for 24 hours, and reperfused. Activation of heat shock transcription factor (HSF) (by electrophoretic mobility shift assay), heat shock protein 70 (HSP70), and glyceraldehyde phosphate dehydrogenase (GAPDH) mRNA (by reverse transcription polymerase chain reaction [RT-PCR]), as well as HSP70 (by Western blot) were investigated in freeze-clamped liver samples. During continuous perfusion ANP as well as 8-Br-cGMP activated HSF, HSP70 protein concentrations paralleled HSF-activation. ANP pretreated livers exhibited elevated HSF after 24 hours of ischemia and elevated HSP70 mRNA levels during reperfusion. ANP prevented the marked decrease of HSP70 protein during reperfusion. Coimmunoprecipitation studies showed increased binding of HSP70 to inhibitory factor kappaB (IkappaB) in ANP-treated livers. In conclusion, we showed the cGMP-mediated activation of HSF by ANP, which resulted in elevated HSP70 mRNA and protein concentrations and correlated with enhanced binding of HSP70 to IkappaB. This could be an important mechanism of ANP-mediated prevention of hepatic preservation damage.
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PMID:The atrial natriuretic peptide and cGMP: novel activators of the heat shock response in rat livers. 1178 63


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