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

Disulfiram prolonged the latency to clonic seizure caused by pentylenetetrazol (PTZ, 100 mg/kg SC). The effect of disulfiram was augmented by combination with tryptophan plus lithium, although neither tryptophan or lithium prolonged the latency to clonic seizure. The latency to tonic seizure was also prolonged in disulfiram-treated animals in parallel with the prolongation of the latency to clonic seizure. Lithium treatment completely prevented the incidence of tonic seizure, while this effect was cancelled in disulfiram-treated animals. Disulfiram acts on the clonic and tonic seizures in different ways.
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PMID:Effect of disulfiram in combination with L-tryptophan and lithium on pentylenetetrazol-induced seizure. 681 52

Lithium intoxication may present as seizures, which have been observed when plasma lithium concentrations were decreasing. The neurotoxic effect of lithium could be due to a rise in intra-/extra-cellular lithium ratio. Intracellular retention of lithium reflected in rapid fall of plasma concentrations during treatment would modify cell membrane properties and increase neuronal excitability. Such a mechanism would explain the occurrence of seizures despite therapeutic plasma lithium concentrations.
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PMID:[Seizures due to lithium intoxication (author's transl)]. 731 7

Lithium (Li) reduces brain inositol levels. Berridge has suggested that this effect is related to Li's mechanism of action. It had previously been shown that pilocarpine causes a limbic seizure syndrome in lithium treated rats, and that these lithium-pilocarpine seizures are reversible by intracerebroventricular inositol administration to rats. We now show that although inositol passes the blood-brain barrier poorly, large doses of intraperitoneal (IP) inositol can also reverse Li-pilocarpine seizures. Using gas chromatography, IP inositol can raise brain inositol levels. Demonstration that inositol enters brain after peripheral administration provides a basis for possible pharmacological intervention in psychiatric disorders at the level of second messengers linked to the phosphatidylinositol cycle.
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PMID:High-dose peripheral inositol raises brain inositol levels and reverses behavioral effects of inositol depletion by lithium. 782 47

Lithium pretreatment in rats potentiates the epileptogenic effects of pilocarpine and other cholinergic agonists. In order to determine if this effect of lithium could be reversed by myo-inositol, rats were pretreated with intracerebroventricular (ICV) injections of myoinositol, artificial CSF or L-chiro-inositol. Lithium chloride, 3 meq/kg was administered intraperitoneally 20-24 h prior to the subcutaneous injection of pilocarpine, 20 or 30 mg/kg. In both experiments, myo-inositol significantly prolonged the latency to the appearance of clonic seizures and lowered the pilocarpine seizure score. myo-Inositol prevented the development of clonic seizures in 50% of the rats receiving pilocarpine, 20 mg/kg. The levels of cortical myo-inositol in rats injected with myo-inositol were approximately double those of the CSF and L-chiro-inositol groups.
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PMID:Restoration of brain myo-inositol levels in rats increases latency to lithium-pilocarpine seizures. 787 Aug 90

Lithium reduces brain inositol levels by inhibiting inositol monophosphatase. In a previous study it was found that administration of pilocarpine to Li-treated rats causes limbic seizure behavior which can be reversed by i.c.v. myo-inositol but not chiro-inositol, suggesting that this behavior is related to inositol depletion in the PI cycle. Hyponatremia can lower brain inositol and hypernatremia can raise brain inositol. We now report that induction of low brain inositol by hyponatremia followed by pilocarpine did not cause limbic seizures. Induction of high brain inositol using hypernatremia followed by Li-pilocarpine administration did not reverse limbic seizures. These data support the concept that inositol available for P1 synthesis and inositol for osmotic function are sequestered in different cellular pools.
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PMID:Behavioral evidence for the existence of two pools of cellular inositol. 789 56

The mRNA levels of four immediate early genes (IEG) were measured in rat brain regions 60 min after administration of pilocarpine (30 mg/kg) to lithium-treated (3 mmol/kg) rats, during generalized convulsive status epilepticus. Northern blots demonstrated induction of the genes in the order of c-fos = jun-B > c-jun > jun-D with large increases in the cerebral cortex, hippocampus, and striatum, a smaller increase in the cerebellum, and less in the brainstem. The mRNA levels of these four IEG were measured in rat cerebral cortex and hippocampus at several times after administration of the cholinergic agonist pilocarpine (5 or 30 mg/kg) with or without lithium pretreatment (3 mmol/kg, 16 h prior, or chronic 4 week dietary administration). Treatment with pilocarpine (30 mg/kg) alone increased mRNA levels in the order of c-fos > jun-B > c-jun but did not change the jun-D mRNA level, and maximal c-fos and jun-B mRNA levels occurred earlier (30 min) in the cortex than in the hippocampus. Treatment with the lower dose of pilocarpine (5 mg/kg) alone caused only small increases in c-fos and jun-B mRNA levels and these responses were unaffected by lithium pretreatment. Lithium pretreatment potentiated IEG expression induced by 30 mg/kg pilocarpine, likely as a result of the seizures caused by this combination of drugs because pretreatment with anticonvulsants (diazepam or MK-801) blocked seizures and the enhanced IEG mRNA levels. The mRNA levels were increased during seizures in the order of c-fos > jun-B > c-jun > jun-D in the hippocampus and jun-B > c-fos > c-jun > jun-D in the cortex, and were increased for a longer duration as well as to a greater extent than after administration of pilocarpine alone. Administration of pilocarpine (30 mg/kg) to rats treated chronically with lithium caused increases similar to those measured with acute lithium pretreatment. Thus the induction of IEG by cholinergic stimulation varied with dose, time, and brain region, and unique responses were observed for each of the IEG. Lithium pretreatment did not impair IEG expression induced by the lower dose of pilocarpine and greatly enhanced expression of IEG after administration of the higher dose of pilocarpine concomitant with seizure activity.
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PMID:Distinctive rat brain immediate early gene responses to seizures induced by lithium plus pilocarpine. 798 56

The therapeutic effect of lithium in manic-depressive illness may involve alterations in the activity of the phosphoinositide second messenger system. Lithium administration to rats potentiates responses to cholinergic agonists, as evidenced by the production of seizures in lithium-treated rats after normally nonconvulsant doses of cholinergic agonists. We now report that lithium also potentiates the response to a serotonin (5-HT) agonist, DOI, that activates 5-HT2/5-HT1C receptors coupled to phosphoinositide hydrolysis. EEG recordings showed that administration of DOI (8 mg kg-1) to lithium-treated, but not to lithium-naive, rats caused seizures which were blocked by ritanserin pretreatment. These results demonstrate that lithium pretreatment causes a normally subconvulsive dose of serotonergic, in addition to cholinergic, agonists to induce seizures. Since DOI, like cholinergic agonists, activates receptors coupled with phosphoinositide hydrolysis and lithium potentiates responses to each, this second messenger system is likely to be involved in this effect of lithium.
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PMID:Lithium potentiates phosphoinositide-linked 5-HT receptor stimulation in vivo. 808 Sep 69

Lithium (Li) reduces brain inositol levels by inhibiting the enzyme inositol monophosphatase. The enzyme inositol-1-phosphatase was measured in human red blood cells of controls, Li-free bipolar patients, and Li-treated bipolar patients and was found to be reduced by 80% in Li-treated bipolars, thus supporting the concept that chronic Li at therapeutic concentrations inhibits this enzyme. Two behaviors in rats caused by Li, reduction of rearing, and Li-pilocarpine seizures, are reversed by intracerebroventricular replenishment of inositol. The reversal is stereospecific to the naturally occurring myo-inositol; whereas the stereoisomer L-chiro-inositol is ineffective. The reversal is dose-dependent, requiring a dose consistent with known quantities of brain inositol depletion; and is time-dependent, as inositol must be given 1-8 h before stimulation. High-dose peripheral inositol also reverses the limbic seizures induced by Li-pilocarpine, and using gas chromatography was shown to increase brain inositol levels that had been reduced by Li treatment. Low-dose inositol could be shown to reverse a peripheral Li-induced side effect, polyuria/polydipsia, in rats and in patients treated with Li. A higher dose of inositol markedly reduced Hamilton Depression Ratings in 9 of 11 unipolar major depressive disorder patients previously unresponsive to tricyclics, in an open design, but had no effect on chronic schizophrenics in a controlled double-blind randomized crossover trial. A new inositol monophosphatase inhibitor, a fungal product originally discovered as a complement inhibitor, was found to act like Li and lower the seizure threshold for subconvulsant doses of pilocarpine. These data suggest that inositol monophosphatase inhibition is a key mechanism of Li's therapeutic action and that design of new inositol monophosphatase inhibitors may be a practical strategy to create new compounds with Li-like therapeutic effects.
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PMID:Ziskind-Somerfeld Research Award 1993. Biochemical, behavioral, and clinical studies of the role of inositol in lithium treatment and depression. 811 Sep 11

Lithium (Li) has often been compared to ECT in therapeutic spectrum and mechanism. Inhibition of inositol monophosphatase and reduction of brain inositol are major mechanisms of Li action. Many Li effects in animals and humans are reversible by inositol. We therefore studied interactions of ECS and inositol. ECS in rats did not reduce brain inositol monophosphatase activity or brain inositol levels. Intracerebroventricular injection of 10 mg inositol, a dose that reverses Li effects, had no effect on seizure length or post-ictal length.
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PMID:Lack of effect of ECS on rat brain inositol monophosphatase activity and inositol levels and of i.c.v. inositol on ictal and post-ictal length. 873 65

Lithium inhibits the enzyme inositol monophosphatase and thus obstructs the enzymatic degradation of inositol triphosphate (IP3) to inositol in the phosphate-phosphoinositide (PIP) cycle. This inhibition may result in reduced availability of the second messengers IP3 and DAG that are derivates of the PIP cycle, and this action is currently a leading hypothesis regarding lithium's therapeutic and prophylactic effect in affective disorders. Inositol is also available to the cell by uptake from the intercellular matrix, and therefore it is possible that compounds that block the uptake may have lithium-like effects. To test this hypothesis, the present study evaluates the effects of two inositol uptake inhibitors, the carbohydrate L-fucose and the cyclodepsipeptide nordidemnin, in a behavioral model of pilocarpine-induced seizures known to be enhanced by lithium. We tested the possibility that L-fucose produces lithium-like effects, or that L-fucose or nordidemnin augment lithium's behavioral effects. Results indicate that acute ICV treatment with L-fucose did not by itself have a lithium-like effect in the behavioral model, but significantly augmented lithium's effect when combined with lithium treatment. Nordidemnin treatment showed similar effects. The results suggest that when inositol monophosphatase is inhibited by lithium, further restriction of cellular inositol availability may result in an augmentation of lithium's behavioral effects. It is possible that such manipulations may be applicable in the treatment of patients with affective disorders, especially patients who are poor responders to lithium monotherapy.
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PMID:Augmentation of lithium's behavioral effect by inositol uptake inhibitors. 958 58


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