UMLS:C0036572 - FACTA Search

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Query: UMLS:C0036572 (seizures)
80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The inhibitory neuromodulator adenosine is an endogenous anticonvulsant that terminates brief seizures in the brain and it has been proposed that loss of adenosine or adenosine-mediating systems may play a major role in the development of status epilepticus, a seizure condition characterized by prolonged and/or recurrent seizures that last by definition, at least 20 min. In this study, the effect of specific A1-adenosine agonists and antagonists were tested for their ability to prevent and cause status epilepticus in two electrical stimulation models in rats. In a recurrent electrical stimulation model, whereas no vehicle-treated animals developed status epilepticus after 20 recurrent electrical stimulations, rats injected with 10 mg/kg of the specific A1-adenosine antagonist 8-cyclopentyl-1,3-dimethylxanthine intraperitoneally developed status epilepticus after stimulation. 8-(p-Sulphophenyl)-theophylline, which has limited penetrability into the brain when administered peripherally, did not cause status epilepticus when injected intraperitoneally. However, when 200 micrograms of 8-(p-sulphophenyl)-theophylline were administered intracerebroventricularly, status epilepticus developed in all animals, suggesting status epilepticus developed as a result of central adenosine receptor antagonism. In the second study, whereas all vehicle-treated animals developed status epilepticus after constant electrical stimulation, administration of N6-cyclohexyladenosine and N6-cyclopentyladenosine prior to stimulation suppressed the development of status epilepticus. N6-Cyclohexyladenosine was also effective in terminating status epilepticus after it had progressed for 20 min. The effects of a selective A2-agonist was also tested on both stimulation models and had no anticonvulsant effects. An electrical stimulus given to rats pretreated three days prior to stimulation with pertussis toxin, a compound which inactivates Gi-proteins, also resulted in generalized status epilepticus, suggesting that impairment of G-protein-linked receptors is involved in the development of status epilepticus. The effects of a GABAB antagonist, phaclofen, and a GABAB agonist, baclofen, were also tested in the recurrent stimulation model, as GABAB receptors are also coupled to the same subset of K+ channels as the A1-receptor. Rats given phaclofen did not develop status epilepticus after recurrent electrical stimulation, although baclofen was effective at preventing the induction of status epilepticus in the constant stimulation model. These results, together with some preliminary data obtained showing that the GABAA antagonist picrotoxin did not cause status epilepticus after recurrent stimulation, suggest that loss of GABAergic inhibition only has a minor role in status epilepticus development in our models. Brains from all animals were also assessed for brain injury.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Status epilepticus may be caused by loss of adenosine anticonvulsant mechanisms. 815 37

The present study in rats was designed to identify the respective roles of A1 and A2 adenosine receptor activation in the anticonvulsant and behavioral actions of adenosine. Intracaudate injections of the highly selective A2 agonist, CGS 21680, did not affect caudate seizures. However, seizure threshold was increased in the presence of CGS 21680 after blockade of the A1 receptor with CPX, or following activation of the A1 receptor with R-PIA or NECA. Additionally, CGS 21680 led to a dose-related inhibition of locomotor activity when injected into the caudate. These results implicate the involvement of the A2 adenosine receptor in the locomotor depressant actions of adenosine and also suggest possible A2 anticonvulsant effects may depend upon the activation of the A1 receptor.
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PMID:Adenosinergic modulation of the EEG and locomotor effects of the A2 agonist, CGS 21680. 841 30

A1 adenosine receptors in the rat prepiriform cortex play an important role in the inhibition of bicuculline methiodide-induced convulsions. In the present study we evaluated manipulation of endogenous adenosine in this brain area as a strategy to effect seizure suppression. All compounds evaluated were unilaterally microinjected into the rat prepiriform cortex. Administration of exogenous adenosine afforded a dose-dependent protection (ED50 = 48.1 +/- 8.4 nmol) against bicuculline methiodide-induced seizures, and these anticonvulsant effects were significantly potentiated by treatment with an adenosine kinase inhibitor, 5'-amino-5'-deoxyadenosine; by the adenosine transport blockers, dilazep or nitrobenzylthioinosine 5'-monophosphate; and by an adenosine deaminase inhibitor, 2'-deoxycoformycin. When administered alone, 5'-amino-5'-deoxyadenosine, 5'-iodotubercidin and dilazep were found to be highly efficacious as anticonvulsants with respective ED50 values of 2.6 +/- 0.8, 4.0 +/- 2.7 and 5.6 +/- 1.5 nmol. In contrast, 2'-deoxycoformycin was both less potent and less efficacious. These results suggest that accumulation of endogenous adenosine may contribute to seizure suppression, and that adenosine kinase and adenosine transport may play a pivotal role in the regulation of extracellular levels of adenosine in the central nervous system. The adenosine antagonist, 8-(p-sulfophenyl)theophylline, increased markedly the severity of bicuculline methiodide-induced seizures. Moreover, reduction of extracellular adenosine formation by a focal injection of an ecto-5'-nucleotidase inhibitor, alpha, beta-methyleneadenosine diphosphate, produced generalized seizures (ED50 = 37.3 +/- 22.7 nmol). Together the proconvulsant effect of an adenosine receptor antagonist and the convulsant action of an ecto-5'-nucleotidase inhibitor further support the role of endogenous adenosine as a tonically active antiepileptogenic substance in the rat prepiriform cortex.
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PMID:Manipulation of endogenous adenosine in the rat prepiriform cortex modulates seizure susceptibility. 845 Apr 75

Benzodiazepine drugs (BZ) are used for anxiety, insomnia, and seizures. They worsen memory, especially in large doses, but the mechanism of this action is uncertain. In micromolar concentrations, benzodiazepines have been shown to reduce long-term potentiation (LTP), which could be a cellular basis for their amnesic action. We have found that the LTP-inhibiting effects of BZ occur in the nanomolar concentrations attained in humans, and that this effect occurs through modulation of GABAA receptor function. We recorded extracellular synaptic input/output (I/O) curves for population spikes (PS) and EPSPs in rat hippocampal slices before and after induction of LTP. LTP increased maximal PS and EPSPs and shifted I/O curves for PS and EPSPs to the left, reflecting increased synaptic responsiveness after LTP. Curves relating EPSPs to PS were also shifted, so that after LTP larger PS were elicited for the same size EPSP (E-S potentiation). Midazolam (0.5 microM) markedly inhibited the left-shift in PS I/O curves due to E-S potentiation but did not significantly affect other parameters. 8-Phenyltheophylline (10 microM), an adenosine receptor antagonist, did not prevent midazolam inhibition of LTP. Bicuculline, a GABAA receptor antagonist, caused a dose-dependent antagonism of midazolam's LTP inhibition. Our results suggest that benzodiazepines reduce LTP primarily through reduction of E-S potentiation, and that this effect occurs through modulation of GABAA receptor function. This could in part account for the ability of benzodiazepines to disturb new memory formation.
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PMID:Midazolam inhibits long-term potentiation through modulation of GABAA receptors. 878 10

The effects of pretreatment with pertussis toxin on pentylenetetrazole-, bicuculline-, aminophylline- and pilocarpine-induced seizures were investigated in mice. In animals treated intracerebroventricularly with pertussis toxin (0.5 microgram animal-1 120 h prior to testing), the CD50 (convulsive dose in 50%) values were considerably decreased in comparison with the CD50 in sham-treated animals. CD50 values of pentylenetetrazole, bicuculline, pilocarpine and aminophylline were calculated to be 39.9, 2.0, 262 and 141 mg kg-1, whereas they were calculated to be 57.7, 2.7, 324 and 230 mg kg-1 in sham-treated animals. The observations suggest that the enhanced sensitivity to a number of chemical convulsants irrespective of their mode of action possibly results from a functional suppression of inhibitory transmission at receptors coupled to pertussis toxin sensitive G proteins, rather than a direct action on G protein linked excitatory neurotransmission. Pertussis toxin significantly decreased the protective action of carbamazepine, increasing its ED50 (effective dose in 50%) from 14.8 to 20.1 mg kg-1 in a maximal electroshock convulsive test. It influenced the ED50 of neither diphenylhydantoin nor diazepam. The diminution of carbamazepine's efficacy might result from a summation effect of adenosine receptor antagonist properties of the drug and a suppression of transmission at adenosine receptors coupled to G proteins sensitive to pertussis toxin. Pertussis toxin pretreatment remained without any significant influence on the total plasma levels of carbamazepine, diphenylhydantoin and diazepam. This may lead to the conclusion that the interaction between pertussis toxin and carbamazepine does not seem to be of a pharmacokinetic nature and occurs probably at neuronal level.
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PMID:Intracerebroventricular pertussis toxin enhances sensitivity to chemical convulsants and decreases the protective efficacy of carbamazepine in mice. 888 Aug 93

Adenosine receptors have been the target of intense research with respect to potential use of selective ligands in a variety of therapeutic areas. Caffeine and theophylline are adenosine receptor antagonists, and over the past three decades a wide range of selective agonists and antagonists for adenosine receptor subtypes have been developed. A complication to the therapeutic use of adenosine receptor ligands is the observation that the effects of acute administration of a particular ligand can be diametrically opposite to the chronic effects of the same ligand. This 'effect inversion' is discussed here by Ken Jacobson and colleagues, and has been observed for effects on cognitive processes, seizures and ischaemic damage.
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PMID:Adenosine receptor ligands: differences with acute versus chronic treatment. 893 47

The effects of long-term oral administration of low doses of caffeine (0.3 g/l) and its metabolites theophylline, theobromine and paraxanthine (each at 0.5 g/l in drinking water) on bicuculline- and pentylenetetrazol (PTZ)-induced seizures and c-fos expression were studied in mice. In addition, adenosine and benzodiazepine receptor density was examined. The plasma levels of the methylxanthines were much higher during the active period at night than during the day. The maximal level of caffeine was 14 microM. Brain theophylline levels (8-13 nmol/g) tended to be higher and more constant than brain caffeine levels in caffeine-consuming mice. Clonic seizures induced by bicuculline (4 mg/kg i.p.) were significantly reduced in severity by 14 day caffeine treatment and mortality was also reduced. Long-term treatment with caffeine metabolites was less effective. The seizures induced by PTZ (60 mg/kg i.p.) were also significantly reduced by long-term caffeine treatment. After bicuculline or PTZ treatment, c-fos mRNA expression was weaker in the cerebral cortex in animals receiving caffeine, irrespective of whether the animals had seizures or not. No significant changes in the binding of adenosine receptor ligands or benzodiazepines were seen after long-term caffeine treatment. These results show that long-term treatment with caffeine in a dose that is commonly seen in humans decreases the seizures induced by bicuculline, and to a lesser extent, those induced by PTZ. This may be related to a decreased neuronal excitability. The effect is due to the combined effects of theophylline, to which caffeine is metabolized in brain, and caffeine itself, but could not be ascribed to changes in A1 and A2A adenosine or benzodiazepine receptors.
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PMID:Long-term treatment with some methylxanthines decreases the susceptibility to bicuculline- and pentylenetetrazol-induced seizures in mice. Relationship to c-fos expression and receptor binding. 899 94

The influence of adenosine, its analogs: (-)N6-(R-phenylisopropyl)-adenosine (R-PIA), N6-cyclohexyladenosine (CHA), 5-(N-ethylcarboxamido)-adenosine (NECA), adenosine uptake inhibitor-dipyridamole, and theophylline and caffeine (adenosine receptor antagonists) on ethanol withdrawal syndrome was investigated in rats. Adenosine (100 mg/kg ip), all adenosine analogs and dipyridamole (30 mg/kg ip) reduced the number of rats in which audiogenic convulsions appeared. Caffeine and theophylline (5-25 mg/kg ip) did not influence significantly the audiogenic seizures, but they antagonized the depressing effects of adenosine analogs on these withdrawal symptoms. The results suggest that adenosine mechanisms in the brain may be implicated in the development of ethanol withdrawal syndrome.
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PMID:Influence of adenosinergic drugs on ethanol withdrawal syndrome in rats. 911 97

1. The effects of adenosine, the adenosine analogue, 2-chloroadenosine (2-CADO), the specific adenosine A1 receptor agonist, N6-cyclopentyladenosine (CPA) and A2 receptor agonist 5'-(N-cyclopropyl) carboxamidoadenosine (CPCA), were examined against seizures induced by acute administration of pentylenetetrazole (PTZ), 60 mg kg-1, and PTZ kindled seizures, in rats. 2. Adenosine 1000 mg kg-1, i.p., 5 min pretreatment and CPA 10 mg kg-1 i.p., 60 min pretreatment, showed significant protection against acute PTZ-induced seizures while, CPCA up to 10 mg kg-1 was ineffective. The adenosine analogue 2-CADO in a dose of 5 mg kg-1 was only partially protective and on increasing the dose to 10 mg kg-1, this protection was lost. 3. Theophylline, a non specific adenosine receptor antagonist at 50 mg kg-1 and the specific adenosine A1 receptor antagonist, 8-cyclopentyl-1,3-dipropylxanthine (DPCPX), at 1 mg kg-1, if administered before the maximally protective doses of adenosine and CPA, completely reversed the protection afforded by them against PTZ seizures. While, pretreatment with the adenosine A2 receptor antagonist, 3,7-dimethyl-1-propargylxanthine (DMPX), failed to reverse the protection. 4. Adenosine and the adenosine A1 receptor agonist in doses that protected against seizures after acute PTZ administration, offered only incomplete protection when tested against PTZ kindled seizures. 5. The effects of adenosine and adenosine receptor agonists on mean arterial pressure, heart rate and rectal temperature were studied, to rule out the possibility of their systemic effects mediating the protection of PTZ seizures. All these agents produced a fall in mean arterial pressure, heart rate and hypothermia in the doses exhibiting an anticonvulsant response. While the effect on blood pressure and heart rate was immediate i.e. seen within 5 min and, maintained throughout the observation period, the development of hypothermia lagged behind the onset of hypotension and bradycardia. However, there was no correlation between haemodynamic and hypothermic response and the anticonvulsant effect. 6. The results indicate that the adenosine mediated anticonvulsant effect is via stimulation of A1 receptors. Hypotension and hypothermia do not appear to contribute to the protection observed with adenosine and the adenosine A1 receptor agonists.
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PMID:Effect of adenosine receptor modulation on pentylenetetrazole-induced seizures in rats. 911 21

A history of multiple ethanol withdrawal experiences has been shown to exacerbate the severity of future withdrawal episodes, and this sensitization of the withdrawal response has been hypothesized to represent a 'kindling' phenomenon. Since adenosine functions as an inhibitory modulator of seizure activity and may interact with ethanol to influence neuronal excitability, the present study was conducted to examine the effects of single and repeated episodes of ethanol withdrawal on adenosine A1 and A2A receptors in adult C3H/He mice. Mice were chronically exposed to ethanol vapor in inhalation chambers and tested for withdrawal seizures following multiple withdrawal (MW) experience (four cycles of 16 h ethanol intoxication interrupted by 8 h periods of abstinence), single withdrawal experience following 16 h (SW) or 64 h (CE) continuous ethanol intoxication, or no ethanol exposure (controls). Separate groups of mice from each withdrawal condition were used to generate pooled cortical and striatal tissue for ligand saturation experiments using [3H]cyclohexyladenosine to label A1 receptors and [3H]CGS 21680 to label A2A receptors. Results indicated that withdrawal seizures were significantly more severe in mice with multiple withdrawal experience in comparison to animals that experienced only a single withdrawal episode, even when total amount of ethanol exposure was equated among groups. The density of A1 receptors in cerebral cortex was significantly increased over controls 8 h following final ethanol withdrawal by approximately 35% in SW and CE groups, with the largest increase observed in the MW group (56%). Withdrawal treatment groups did not differ in cortical A1 binding sites immediately upon withdrawal from ethanol, and no significant differences in binding of [3H]CGS 21680 to striatal A2A receptors were observed following ethanol withdrawal. Ethanol exposure and withdrawal did not significantly alter ligand affinity for either adenosine receptor. These results indicate that adenosine A1 receptors are selectively upregulated during ethanol withdrawal and that the degree of upregulation may be enhanced following multiple withdrawal episodes. Further, these observations suggest that the upregulation of brain A1 receptors during ethanol withdrawal may represent a compensatory inhibitory response to increased seizure severity associated with repeated episodes of ethanol withdrawal.
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PMID:Single and repeated episodes of ethanol withdrawal increase adenosine A1, but not A2A, receptor density in mouse brain. 955 62

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