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Query: UMLS:C0022116 (ischemia)
 91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The brain cyclic AMP generation was studied in rats subjected to 15 min of cardiac arrest. We have used a particulate, synaptoneurosomal fraction to demonstrate the effect of ischemia in vivo on the responsiveness of adenylate cyclase (AC) system. It has been shown that, although there is a slight decrease in AC activity after ischemia, the in vitro fractions produce more cAMP in response to a variety of stimuli, suggesting an indirect, nonadenylate cyclase activation mechanism. For elucidation of this mechanism we have probed phorbol-12,13-dibutyrate (PDBu) as a direct PKC activator, forskolin to activate the catalytic subunit of AC, and cholera toxin (CT) for stabilizing the active, GTP-bound form of stimulatory guanine nucleotide binding protein (Gs). All these postreceptor AC modulators as well as the receptor activators such as adenosine and alpha 1-adrenergic agonists markedly enhanced cAMP production in the rat brain particulate fraction, although the postischemic hyperactive response to these stimuli was still present. However, when AC was stimulated by the combination of CT and PDBu, cAMP responses were identical in both control and postischemic fractions. The data, taken together, support the hypothesis that ischemia increases cAMP accumulation by facilitating the postreceptor AC activation through a PKC-involving pathway and by promoting the stronger coupling of membrane AC receptors with G-protein. Protein kinase C (PKC) activity during cerebral ischemia was also investigated. In contradistinction to our expectation PKC decreased significantly in the ischemic brain to 85% of the control activity in the cytosol and 72% in the membranes. However, in the incubated post-ischemic brain particulate fraction a relative increase in the membrane-bound form of the enzyme, from 30% for control to 53% for ischemia, was observed. This may suggest that ischemia-induced membrane changes could promote the enzyme translocation/activation during recovery, resulting in the sensitization of cAMP producing system.
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PMID:Postreceptor modulation of cAMP accumulation in rat brain particulate fraction after ischemia--involvement of protein kinase C. 135 40

Although hypothermic cardioplegic arrest is a basic method of myocardial protection in cardiac surgery, the beta-adrenergic receptor (BAR) system has been little investigated in the heart subjected to hypothermic ischemia. Additionally, although the hypothermic arrest is often induced in hearts with preischemic desensitization of the BAR system by preceding congestive heart failure, the functional state of the BAR system after ischemia has not been studied in these hearts. We investigated alterations in the BAR system after hypothermic ischemia in normal rat hearts and in those with preischemic desensitization of the BAR system produced with isoproterenol (ISP: 400 micrograms/kg/hr for 24 hr). Both normal and BAR-desensitized hearts were isolated and subjected either to 40 min of hypothermic (10 degrees C) global ischemia followed by 40 min of reperfusion or subjected to time-matched aerobic perfusion with modified Krebs-Henseleit solution. At the end of perfusion (1) BAR binding properties with [3H]CGP-12177 and adenylate cyclase activity were measured in crude membrane fraction and (2) the inotropic response to ISP (delta LV + dP/dtmax) was evaluated in an isovolumetric contracting heart preparation. Following reperfusion, normal hearts without desensitized BAR showed a higher Bmax value than those of nonischemic time-matched hearts (41.8 +/- 3.1 vs 35.4 +/- 2.4 fmole/mg protein, P less than 0.05), whereas the Kd value was in a similar range in the two groups.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Alterations in the beta-adrenergic receptor system after hypothermic ischemia in hearts with preischemic beta-receptor desensitization. 135 34

The alterations of second-messenger ligand binding and cerebral blood flow (CBF) were evaluated in the gerbil brain after 2-h unilateral common carotid artery occlusion. [3H]Forskolin (FK) and [3H]phorbol-12,13-dibutyrate (PDBu) were used as specific ligands for adenylate cyclase (AC) and protein kinase C (PKC) activity estimation, respectively. CBF was determined at the end of the experiment by the [14C]iodoantipyrine method. A quantitative autoradiographic method permitted simultaneous measurement of the three parameters in the same brain. The levels in the caudate-putamen, globus pallidus, and hippocampus were analyzed. The animals were divided into three groups: Group 1 with severe ischemia (CBF in the lateral nuclei of the thalamus (CBFt) less than 50 ml/100 g/min), Group 2 with mild ischemia (CBFt greater than or equal to 50 ml/100 g/min), and the Sham Group. The PDBu binding revealed a statistically significant increase in the caudate-putamen, lateral nuclei of the thalamus and hippocampus (CA1 and CA3 regions and dentate gyrus) on the ischemic side in Group 1 as compared to that in Group 2 and the Sham Group. In contrast, the FK binding did not show any significant changes in any of the regions. These data and our previous findings for 6-h ischemia suggest that (1) PKC translocation to the cell membrane may occur at the early ischemic phase in particular regions including the caudate-putamen, lateral nuclei of the thalamus and hippocampus, with the translocated PKC gradually diminishing during the subsequent ischemic period; and (2) the suppression of the AC system observed in 6-h ischemia may not appear in the early ischemic phase.
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PMID:Alteration of second-messenger ligand binding following 2-hr hemispheric ischemia in the gerbil brain. 139 61

To clarify the role of muscarinic acetylcholine receptors in the hypoxia/hypoglycemia (ischemia)-induced functional deficit in hippocampal neurons, we examined the effect of cholinergic drugs on ischemia-induced impairments of glucose uptake and CA1 field potentials in hippocampus slices. Muscarinic receptors were subdivided into M1 (high affinity for pirenzepine) and M2 (low affinity for pirenzepine) subtypes. The M1 receptor subtype is coupled to an increase in phosphoinositide hydrolysis and the M2 receptor subtype is associated with inhibition of adenylate cyclase. The greater potency of carbachol in stimulating phosphoinositide hydrolysis resulted in exacerbated ischemia-induced deficits. Treatment with the muscarinic receptor antagonists scopolamine and pirenzepine (M1 receptor-selective antagonist) had a strong dose-dependent protective effect against ischemia-induced deficits. Oxotremorine and McN-A-343, weak stimulators of phosphoinositide hydrolysis and strong inhibitors of adenylate cyclase, had a weak neuroprotective action against ischemia-induced deficits. These results suggest that stimulation of M1 muscarinic receptors coupled with an increase in phosphoinositide hydrolysis may play a facilitatory role in ischemia-induced deficits. Stimulation of M2 muscarinic receptors may play an inhibitory role in ischemia-induced neuronal deficits.
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PMID:Effect of muscarinic cholinergic drugs on ischemia-induced decreases in glucose uptake and CA1 field potentials in rat hippocampus slices. 145 86

Recent experimental data indicate a probable role of adenosine as an endogenous neuroprotective substance in brain ischemia. This nucleoside is rapidly formed during ischemia as a result of intracellular breakdown of ATP and it is subsequently transported into the extracellular space. With use of microdialysis and other techniques, a massive increase of interstitial adenosine has been measured during ischemia in different brain areas. Adenosine acts through two subtypes of receptors, A1 and A2, which are located on neurons, glial cells, blood vessels, platelets, and leukocytes and are linked via G-proteins to different effector systems such as adenylate cyclase and membrane ion channels. There is a very high density of A1-receptors in the hippocampus, an area with specific vulnerability to ischemia. In different in vivo and in vitro models of brain ischemia, the pharmacological manipulation of the adenosine system by adenosine receptor antagonists tended to aggravate ischemic brain damage, whereas the reinforcement of adenosine action by receptor agonists or inhibitors of cellular reuptake and inactivation showed neuroprotection. The up-regulation of adenosine A1-receptor number and affinity by chronic preadministration of the competitive antagonist caffeine also attenuated ischemic brain damage. The mechanisms underlying the neuroprotective effects of adenosine seem to involve both types of adenosine receptors, A1 and A2, but the A1-mediated pre- and postsynaptic neuromodulation may be of special importance. By inhibiting neuronal Ca2+ influx, adenosine counteracts the presynaptic release of the potentially excitotoxic neurotransmitters glutamate and aspartate, which may impair intracellular Ca2+ homeostasis via metabotrophic glutamate receptors or induce uncontrolled membrane depolarization via ion channel-linked glutamate receptors, especially of the N-methyl-D-aspartate (NMDA) type. In addition, adenosine directly stabilizes the neuronal membrane potential by increasing the conductance for K+ and Cl- ions, thereby counteracting excessive membrane depolarization. The latter triggers a number of pathological events including blockade of voltage-sensitive K+ currents, increase of NMDA receptor-mediated Ca2+ influx, and presumably also impairment of glutamate uptake by astrocytes. In the way of a vicious cycle, all these factors again tend to enhance extracellular glutamate levels and membrane depolarization, finally leading to cytotoxic calcium loading and neuronal cell death. In addition to its important neuromodulatory effects, which tend to reduce energy demand of the brain, adenosine acting via A2-receptors in brain vessels, platelets, and neutrophilic granulocytes may improve the cerebral microcirculation and thus oxygen and substrate supply to the tissue. There is evidence that the functional state of adenosine receptors is impaired during ischemia, limiting the time window of the adenosine action.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Adenosine and brain ischemia. 148 19

We explored the effects of two components of ischemia, hypoxia and glucose deprivation, on the beta-adrenergic receptor (beta AR)-adenylate cyclase system in a model of hypoxic injury in cultured neonatal rat ventricular myocytes. After 2 h of hypoxia in the presence of 5 mM glucose, cell surface beta AR density (3H-CGP-12177) decreased from 54.8 +/- 8.4 to 39 +/- 6.3 (SE) fmol/mg protein (n = 10, P less than 0.025), while cytosolic beta AR density (125I-iodocyanopindolol [ICYP]) increased by 74% (n = 5, P less than 0.05). Upon reexposure to oxygen cell surface beta AR density returned toward control levels. Cells exposed to hypoxia and reoxygenation without glucose exhibited similar alterations in beta AR density. In hypoxic cells incubated with 5 mM glucose, the addition of 1 microM (-)-norepinephrine (NE) increased cAMP generation from 29.3 +/- 10.6 to 54.2 +/- 16.1 pmol/35 mm plate (n = 5, P less than 0.025); upon reoxygenation cAMP levels remained elevated above control (n = 5, P less than 0.05). In contrast, NE-stimulated cAMP content in glucose-deprived hypoxic myocytes fell by 31% (n = 5, P less than 0.05) and did not return to control levels with reoxygenation. beta AR-agonist affinity assessed by (-)-isoproterenol displacement curves was unaltered after 2 h of hypoxia irrespective of glucose content. Addition of forskolin (100 microM) to glucose-supplemented hypoxic cells increased cAMP generation by 60% (n = 5; P less than 0.05), but in the absence of glucose this effect was not seen. In cells incubated in glucose-containing medium, the decline in intracellular ATP levels was attenuated after 2 h of hypoxia (21 vs. 40%, P less than 0.05). Similarly, glucose supplementation prevented LDH release in hypoxic myocytes. We conclude that (a) oxygen and glucose independently regulate beta AR density and agonist-stimulated cAMP accumulation; (b) hypoxia has no effect on beta AR-agonist or antagonist affinity; (c) 5 mM glucose attenuates the rate of decline in cellular ATP levels during both hypoxia and reoxygenation; and (d) glucose prevents hypoxia-induced LDH release, a marker of cell injury.
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PMID:Hypoxia and glucose independently regulate the beta-adrenergic receptor-adenylate cyclase system in cardiac myocytes. 164 15

Changes in second messenger and neurotransmitter system receptor ligand binding induced by transient forebrain ischemia were studied in the gerbil hippocampus. The animals were allowed variable periods of recovery ranging from 2 h to 7 days after 5-min bilateral carotid artery occlusion. The binding of second messenger systems ([3H]inositol 1,4,5-trisphosphate ([3H]IP3)to inositol 1,4,5-triphosphate, [3H]forskolin to adenylate cyclase and [3H]phorbol 12,13-dibutylate to protein kinase C) and neurotransmitter receptor systems ([3H]PN200-110 to L-type calcium channels. [3H]N6-cyclohexyl-adenosine to adenosine A1 and [3H]quinuclidinyl benzilate to muscarinic cholinergic receptor) were assayed using quantitative autoradiography. In the CA1 subfield, 2 h after ischemia, [3H]IP3, [3H]forskolin, and [3H]quinuclidinyl benzilate binding activities significantly decreased by 25, 17 and 13%, respectively, though no morphological abnormalities were obvious. Six hours after ischemia, the [3H]phorbol 12,13-dibutylate binding activity in the stratum oriens of the CA1 subfield increased by 15%. One day after ischemia, [3H]PN200-110 binding activity in this subfield decreased by 26%, and 7 days after ischemia, [3H]phorbol 12,13-dibutylate and [3H]N6-cyclohexyl-adenosine receptor binding activities decreased in this subfield. In particular, at 7 days after ischemia, [3H]IP3 binding activity in the CA1 subfield showed a complete decline. In the CA3 subfield, [3H]PN200-110 binding activity decreased 2 days after ischemia, and [3H]IP3 and [3H]N6-cyclohexyl-adenosine binding activities decreased 7 days after ischemia. In the dentate gyrus, the structure of which remained histologically intact after ischemic insult, [3H]IP3 and [3H]forskolin binding activities decreased 7 days after ischemia. In contrast, the [3H]phorbol 12,13-dibutylate binding activity increased in the molecular layer of the dentate gyrus 7 days after ischemia. These results indicate that marked alteration of intracellular signal transduction precedes neuronal damage in the hippocampal CA1 subfield and that the histologically intact CA3 and dentate gyrus also shows modulated neuronal transmission after ischemia.
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PMID:Autoradiographic analysis of second messenger and neurotransmitter system receptors in the gerbil hippocampus following transient forebrain ischemia. 165 Feb 82

The response of the beta-adrenoceptor transduction system to global ischemia for 40 min was investigated in isolated working heart of rat. The enhancement of beta-adrenoceptors was not observed in the ischemic myocardium. A depression of forskolin-stimulated adenylate cyclase enzyme occurred with global ischemia, but no change in Gs or Gi2 was detected. Thus, the present in vitro ischemic heart model may not necessarily reflect the identical milieu induced by the in vivo myocardial ischemia.
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PMID:Prolonged period of global ischemia causes no change in the GTP-binding proteins in the isolated perfused rat heart. 166 54

We investigated alterations in a beta-adrenoceptor (BAR) system after reperfusion following hypothermic ischemia induced by a high-potassium (18 meq/liter) cardioplegic solution in isolated rat hearts. Materials were divided into two groups: the reperfusion group (Gr-R, n = 5) with 40 min reperfusion following 40 min cardioplegic arrest (10 degrees C) and the control group (Gr-C, n = 5) with no ischemia as time-matched perfused control. BAR and adenylate cyclase activities in crude membrane fractions were compared. Results showed that basal, NaF-, and forskolin-stimulated adenylate cyclase activity did not differ between the two groups. The maximal enzyme activity in the presence of 10(-4) M (-)-isoproterenol was higher in Gr-R than in Gr-C, while the net activity stimulated by (-)-isoproterenol was 74% higher in Gr-R than in Gr-C. The [125I]Iodocyanopindolol [( 125I]CYP) binding assay showed that BAR density was 14% higher in Gr-R than in Gr-C, while the affinity was not significantly different. The IC50 values of (-)-isoproterenol for [125I]CYP binding were lower in Gr-R than in Gr-C and the proportion of high-affinity binding sites was higher in Gr-R than in Gr-C. These data showed that 40 min reperfusion following hypothermic cardioplegic arrest (40 min) resulted in significant increases in myocardial BAR density and maximal (-)-isoproterenol-stimulated adenylate cyclase activity, and enhancement of BAR affinity for beta-adrenergic agonists due to the increase in the proportion of high-affinity binding sites.
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PMID:Enhancement of beta-adrenoceptor function after reperfusion following cardioplegic arrest in rat hearts. 167 75

A stimulated autotransplantation of the rectus femoris muscle in the rabbit was performed by clamping of the blood vessels for 2 h and cutting and suturing of the nerve. Four months after this operation, isometric contractions of the reinnervated muscle were recorded. Comparing controls and postoperation cases, the recovered strength measured about 65%. Due to operation stress, the epinephrine content in plasma was about 420 pg/ml; in plasma of the ischemic muscle it was enhanced to more than 600 pg/ml. During or immediately after ischemia, conjugated epinephrine is assumed to be converted to the free hormone. In systemic blood additionally about 200 pg/ml epinephrine were identified as glucuronides. The activity of adenylate cyclase increased, while the acetylcholine esterase decreased to one-half after nerve cutting.
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PMID:Free epinephrine in the ischemic blood of muscle transplants in the rabbit. 183 55


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