Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0036572 (seizures)
 80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study examines the possibility that changes of cerebral extracellular pH (PH e) or adenosine concentration may provide coupling mechanisms of a general nautre, adjusting cerebral blood flow (CBF) to metabolic demands. Although there is considerable indirect evidence that CBF varies inversely with pHe, results obtained during the last few years indicate that large increases in flow may occur in the absence of a fall in pHe. Thus, induction of hypoxia or epileptic seizures leads to maximal increase in CBF before pHe falls or even when there is initial alkalosis due to concomitant hypocapnia. Furthermore, CBF increases in hypoglycaemia and after administration of amphetamine, two conditions unassociated with tissue acidosis. The possibility that adenosine may be a coupling factor was examined in hypoxia and during epileptic seizures in rats. In both conditions a four- to fivefold increase in CBF occurs in spite of the fact that tissue adenosine concentrations remain at or below 1 mumolkg-u. It is concluded that adenosine accumulates first when there is a perturbation of cerebral energy state with a rise in AMP concentration. It seems unlikely that adenosine, formed by breakdown of AMP, acts as a general coupling factor.
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PMID:Coupling of cerebral metabolism and blood flow in epileptic seizures, hypoxia and hypoglycaemia. 2 37

Veratridine causes deplorization of excitable cells and produces marked elevation of adenosine 3',5'-monophosphate (cyclic AMP) and guanosine 3',5'-monophosphate (cyclic GMP) levels in incubated slices of mouse cerebral cortex. Phenytoin, carbamazepine, phenobarbital, primidone, phensuximide, methsuximide, alpha-methyl-alpha-phenylsuccinimide, and high concentrations of clonazepam are anticonvulsant drugs that preferentially prevent maximal electroshock seizures (MES) and generalized tonic-clonic convulsions; all these agents inhibit veratridine-induced accumulation of both cyclic AMP and cyclic GMP. In contrast, ethosuximide, trimethadione, valproic acid, and low concentrations of clonazepam are anticonvulsant drugs that act predominantly against Metrazol and absence seizures; these agents are ineffective or inhibit accumulation of only cyclic GMP. The results suggest that inhibition of cyclic AMP and cyclic GMP accumulation in depolarized brain tissue is a molecular neuropharmacological action characteristic of anticonvulsant drugs that have direct effects on cellular membrane function and prevent MES. Anticonvulsant drugs that do not inhibit accumulation of both cyclic AMP and cyclic GMP in depolarized brain tissue preferentially prevent Metrazol and absence seizures and probably exert their effects by altering neurotransmission mechanisms.
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PMID:Inhibitory effects of anticonvulsant drugs on cyclic nucleotide accumulation in brain. 3 36

The survival and clonogenic growth (measured in terms of colony forming efficiency (CFE) of intravenously injected (i.v.) Walker (W256) tumour cells in the lungs of rats was greatly enhanced by states of topical and systemic stress induced by the intraperitoneal (i.p.) injection of rats with a single dose of 10(-5)-10(-3) mmol g-1 body weight of adrenaline and other beta-adrenergic agonists, inflammatory agents (including local x-irradiation), convulsive seizures, "tumbling" or physical restraint. Lowering of innate resistance of the host to growth of seeded tumour cells induced by states of topical and systemic stress, and by the addition of an excess of lethally irradiated (LI) tumour cells to i.v. injected intact tumour cells, were all potentiated by treatment of rats with aminophylline, an inhibitor of cyclic AMP phosphodiesterase. Enhancement of tumour growth by systemic stress was inhibited by bilateral total or medullary adrenalectomy and is attributed to the release and actions of endogenous adreno-medullary hormones. Alpha-adrenergic and most non-adrenergic agents administered in maximum tolerated doses did not significantly affect host resistance to tumour growth in the lungs. These findings, correlated with measurements of cyclic AMP in the lungs of normal and stressed rats, suggest that changes in the resistance of the host to tumour growth involve changes in cyclic nucleotide metabolism in the target tissues (tumour bed); possible mechanisms of action of cyclic nucleotides in this respect are discussed.
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PMID:Lowering of innate resistance of the lungs to the growth of blood-borne cancer cells in states of topical and systemic stress. 17 20

Recent investigations have suggested that abnormal increases in brain cyclic 3',5'-adenosine monophosphate (cAMP) may play a role in epileptogenesis. Therefore, the effect of three commonly used antiepileptic drugs on cAMP accumulation in rat cortex slices was investigated. Ouabain, a depolarizing agent which produces seizures when applied to rat cortex, produced a five- to sevenfold increase in cAMP accumulation, and both carbamazepine and and phenytoin inhibited this increase. Ouabain stimulation may be mediated by the release of endogenous adenosine, and carbamazepine antagonized adenosine stimulation of cAMP accumulation whereas phenytoin did not. Carbamazepine had no effect on adenosine efflux. The augmentation of cAMP accumulation by norepinephrine was inhibited by carbamazepine and phenobarbital but slightly increased by phenytoin. If increases in brain cAMP are involved in epileptogenesis, the antagonism of cAMP accumulation by antiepileptic drugs may play a role in their anticonvulsant action.
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PMID:Cyclic AMP accumulation in cerebral cortical slices: effect of carbamazepine, phenobarbital, and phenytoin. 19 71

Epilepsy-like convulsive seizures have been induced by cholera toxin administration into the rat amygdaloid complex. Between the 8th and 48th hr after the administration, rhythmic spike discharges (1--3 spikes/sec) were electroencephalographically observed bilaterally in the amygdaloid complexes, and rats exhibited abnormal behaviors such as running, jumping, tail lifting, rearing, vocalization aggressive behavior, facial twitching and increased salivation. During these stages, high voltage spikes were intermittently observed with generalized convulsive seizures. Duration of the seizure was 1--2 min and the incidence was 0--6 times/hr. At 48 hrs after the administration or thereafter, convulsive seizures disappeared and electroencephalographic abnormalities were gradually normalized. Occasional rhythmic spike discharges, however, were observed more than 168 hrs after the administration. Since autoradiographic observations with 125I-labeled cholera toxin revealed that the injected toxin does not spread out at all from the injected site, the use of this toxin seems to be an ideal procedure to produce micro-epileptogenic foci. Cyclic AMP content as well as adenylate cyclase activity in the ipsilateral amygdaloid complex was significantly increased during preconvulsive and convulsive states. The administration of 5 x 10(-8) moles of dibutyryl cyclic AMP through the cannula implanted into the amygdaloid complex also induced behavioral and electroencephalographic abnormalities similar to those found in the cholera toxin-treated animals. These results suggest that cyclic AMP and/or cyclic AMP dependent neuronal mechanisms may play a significant role in the establishment of epileptogenic focus. Possible use of this animal model for the study of anti-epileptic drugs are also suggested.
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PMID:[Cholera toxin induced epileptogenic focus--special reference to cyclic AMP metabolism and epileptogenic focus (author's transl)]. 23 Aug 51

The effects of dibutyryl cyclic AMP were studied with the combined EEG-intracerebral microdialysis technique in the hippocampus of freely behaving rats. It was found that intrahippocampal microdialysis with this drug produced epileptiform EEG events associated with limbic type behavioral seizures. The dibutyryl cyclic AMP-induced seizures developed with a long latency, and persisted for a prolonged period even after the removal of the drug from the microdialysis fluid. Similar EEG or behavioral manifestations did not occur during intrahippocampal microdialysis with artificial cerebrospinal fluid or ATP solutions. These data suggest that in the hippocampus, in vivo, the cyclic AMP second messenger system may be involved in potentially epileptogenic excitatory processes.
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PMID:Dibutyryl cyclic AMP has epileptogenic potential in the hippocampus of freely behaving rats: a combined EEG-intracerebral microdialysis study. 133 98

Authors evaluated the activity of c-AMP in the CSF as the biochemical marker for evaluation of epileptic seizure activity in patients with epilepsy. The impact of monitored phenytoin treatment on c-AMP activity in CSF was investigated. It was shown that the general tonic-clonic seizures cause a significant concentration increase of c-AMP in CSF. Monitored phenytoin treatment had a stabilizing effect on c-AMP activity in CSF.
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PMID:[Changes in the cerebrospinal fluid levels of adenosine cyclic- 3',5'-monophosphate (c-AMP) in patients with generalized tonic-clonic epileptic seizures]. 166 Jan 10

Adenosine monophosphate, inosine monophosphate, inosine, adenosine, guanosine, adenine, guanine, hypoxanthine, xanthine, uric acid and pyrimidine bases were determined in the CSF of 18 children after simple febrile seizures and in a control group. There was no statistically significant difference between the two groups for any of these metabolites. This suggests that simple febrile seizures neither significantly disturb the metabolism of nucleotides, nucleosides or bases, nor significantly deplete neuron adenosine triphosphate ATP levels.
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PMID:Purine metabolites and pyrimidine bases in cerebrospinal fluid of children with simple febrile seizures. 174 15

The cerebral protective effect of eptazocine, an opioid mu-antagonist-kappa-agonist, was investigated using mice and rats subjected to ischemia. 1) Decapitation or concussive head injury (20 g, 30 cm)-induced ischemia in mice: Eptazocine (3,10 mg/kg) prolonged the gasping duration or the survival time in a dose-dependent manner. 2) Ischemic brain edema induced by bilateral carotid arterial occlusion (BLCO) in rats: Administration of eptazocine just after BLCO treatment significantly prevented the incidence of ischemic seizures, lethality and an increase in cerebral water content. 3) Acute ischemic changes in cerebral energy metabolism in mice: 2-min BLCO treatment decreased the cerebral contents of phosphocreatine and ATP, and it increased the contents of AMP and lactate, resulting in a 34% decrease in energy charge potential and an increase in lactate/pyruvate ratio. Such changes were improved by eptazocine (3, 10 mg/kg) and ethylketocyclazocine (3 mg/kg), a kappa-agonist. 4) Respiratory function in mouse brain mitochondria preparations: Eptazocine increased the State 3 respiration and respiratory control index (RCI:State 3/State 4), and it prevented a decrease in RCI induced by 3-min ischemia. These results suggest that eptazocine may improve cerebral ischemic disorders through an activation and/or protection of mitochondrial energy-producing systems.
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PMID:[Protective effect of eptazocine, a novel analgesic, against cerebral ischemia in mice and rats]. 205 80

In order to clarify its role in the provocation of seizure activity, the effects of cyclic AMP were examined on the intracellular calcium concentration of pentylenetetrazol (PTZ)-sensitive neurons as well as of PTZ-non-sensitive neurons of the Japanese land snail, Euhadra peliomphala. Extracellular application of isobutylmethylxanthine (IBMX) and dibutyryl cyclic AMP showed bursting activity-like firing in the PTZ-sensitive neurons. When 5'-guanylylimidodiphosphate (GNP-PNP) was injected into PTZ-sensitive neurons in the extracellular presence of IBMX and dibutyryl cyclic AMP, bursting activity followed by long-lasting hyperpolarization occurred. Intracellular injection of cyclic AMP into PTZ-sensitive neurons caused hyperpolarization coincident with an increase in intracellular calcium concentration. This increase in intracellular calcium concentration was the same under conditions in which the calcium influx was inhibited by the substitution of extracellular calcium chloride by cobalt chloride. In PTZ-non-sensitive neurons, cyclic AMP-induced bursting activity was not observed. These results suggest that an increase in cyclic AMP provoked bursting activity via an increase in intracellular calcium concentration.
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PMID:Action of cyclic AMP on intracellular calcium concentration and bursting activity. 246 57


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