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 influence of drugs affecting the turnover and levels of histamine in brain and histamine antagonists on pentetrazole (PTZ)-induced and electroconvulsive seizure threshold in mice was studied. A 1.5-2-fold rise in histamine brain concentration (induced by treatment with histidine or metoprine), led to a concomitant increase of PTZ-induced seizure threshold. A histidine decarboxylase inhibitor (brocresine) induced a depletion of brain histamine by about 75% for at least 8 h, the seizure threshold was, however, only reduced at 6 and 8 h after the injection. At shorter intervals, the seizure threshold was substantially increased. Treatment with centrally acting H1 antagonists (dimethindene and promethazine) in non-sedative dosage diminished the PTZ seizure threshold significantly; no changes were seen after treatment with H2 and H3 antagonists (oxmetidine, ranitidine, zolantidine or thioperamide) and a H3 agonist (R-alpha-methylhistamine). The electroconvulsive threshold was hardly influenced. It is concluded that histamine has a certain anticonvulsant effect which is mediated through H1 receptors.
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PMID:Histamine in brain--its role in regulation of seizure susceptibility. 181 52

The effect of clobenpropit (VUF-9153), a new histamine H3 receptor antagonist, on electrically induced convulsions was studied in mice. Clobenpropit significantly and dose dependently decreased the duration of each convulsive phase. Its anticonvulsant effects were prevented by pretreatment with (R)-alpha-methylhistamine and imetit (VUF-8325), histamine H3 receptor agonists. These findings suggest that the effect of clobenpropit on electrically induced convulsions is due to an increase in endogenous histamine release in the brain, which is consistent with biochemical results that clobenpropit increased brain histidine decarboxylase activity dose dependently. The anticonvulsive effect of clobenpropit was antagonized by mepyramine, a histamine H1 receptor antagonist, but not by zolantidine, a histamine H2 receptor antagonist, indicating that histamine released by the anticonvulsant effect of clobenpropit interacts with histamine H1 receptors of postsynaptic neurons. The present findings of the effect of clobenpropit on electrically induced convulsions are fully consistent with those of thioperamide as described previously (Yokoyama et al., 1993, Eur. J. Pharmacol. 234, 129), supporting the hypothesis that the central histaminergic neuron system is involved in the inhibition of seizures.
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PMID:Clobenpropit (VUF-9153), a new histamine H3 receptor antagonist, inhibits electrically induced convulsions in mice. 795 22

This study was conducted to elucidate the role of central histamine (HA) in seizure susceptibility. We stimulated the left amygdala of rats to produce amygdaloid kindling. We sacrificed rats 1 h, 1 week and 1 month after the last kindled seizure, and measured the histamine contents and the histidine decarboxylase (HDC) activities of various brain regions. One hour after the last kindled seizure, we found significant decreases in HA levels in the bilateral amygdala, hippocampus and diencephalon in the kindled group. The HDC activities of the bilateral amygdala and diencephalon were lower in the kindled group than in the control group. One week after the last kindled seizure, we also found a significant decrease in the HA level in the bilateral amygdala. No significant change was found in HA content or HDC activity 1 month after the last kindled seizure. These results suggest that kindling suppresses HA synthesis and that the reduced HA content is maintained until 1 week after the last kindled seizure. The reduced HA may play a role in the acquired kindled seizure susceptibility.
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PMID:Decreased central histamine in the amygdaloid kindling rats. 974 4

Histamine is implicated in the regulation of brain functions through three distinct receptors. Endogenous histamine in the brain is derived from mast cells and neurons, but the importance of these two pools during early postnatal development is still unknown. The expression of histamine H1-receptor in the rat brain was examined using in situ hybridization during postnatal development and in adults. For comparison, the expression of L-histidine decarboxylase (HDC) in the two pools was revealed. H1-receptor was evenly expressed throughout the brain on the first postnatal days, but resembled the adult, uneven pattern already on postnatal day 5 (P5). HDC was expressed in both mast cells and tuberomammillary neurons from birth until P5, after which the mast cell expression was no more detectable. In adult rat brain, high or moderate levels of H1-receptor expression were found in the hippocampus, zona incerta, medial amygdaloid nucleus and reticular thalamic nucleus. In most areas of the adult brain the expression of H1-receptor mRNA correlates well with binding data and histaminergic innervation. A notable exception is the hypothalamus, with high fibre density but moderate or low H1-receptor expression. Systemic kainic acid administration induced increased expression of H1-receptor mRNA in the caudate-putamen and dentate gyrus, whereas no change was seen in the hippocampal subfields CA1-CA3 or in the entorhinal cortex 6 h after kainic acid injections. This significant increase supports the concept that histaminergic transmission, through H1-receptor, is involved in the regulation of seizure activity in the brain.
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PMID:Postnatal expression of H1-receptor mRNA in the rat brain: correlation to L-histidine decarboxylase expression and local upregulation in limbic seizures. 974 57

Since one of us, Takehiko Watanabe (TW), elucidated the location and distribution of the histaminergic neuron system in the brain with antibody raised against L-histidine decarboxylase (a histamine-forming enzyme, HDC) as a marker in 1984 and came to Tohoku University School of Medicine in Sendai, we have been collaborating on the functions of this neuron system by using pharmacological agents, knockout mice of the histamine-related genes, and, in some cases, positron emission tomography (PET). Many of our graduate students and colleagues have been actively involved in histamine research since 1985. Our extensive studies have clarified some of the functions of histamine neurons using methods from molecular techniques to non-invasive human PET imaging. Histamine neurons are involved in many brain functions, such as spontaneous locomotion, arousal in wake-sleep cycle, appetite control, seizures, learning and memory, aggressive behavior and emotion. Particularly, the histaminergic neuron system is one of the most important neuron systems to maintain and stimulate wakefulness. Histamine also functions as a bioprotection system against various noxious and unfavorable stimuli (for examples, convulsion, nociception, drug sensitization, ischemic lesions, and stress). Although activators of histamine neurons have not been clinically available until now, we would like to point out that the activation of the histaminergic neuron system is important to maintain mental health. Here, we summarize the newly-discovered functions of histamine neurons mainly on the basis of results from our research groups.
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PMID:Studies on functional roles of the histaminergic neuron system by using pharmacological agents, knockout mice and positron emission tomography. 1190 22

The role of brain histamine on seizure development of pentylenetetrazol (PTZ)-induced kindling was examined in H(1)-receptor gene knockout (H(1)KO), histidine decarboxylase-deficient (HDC(-/-)) and mast cell-deficient (W/W(v)) mice. All H(1)KO, HDC(-/-) and W/W(v) mice had accelerated seizure development of PTZ-induced kindling when compared to their respective wild-type mice. The daily PTZ-kindling increased histamine content in the cortex and diencephalon of H(1)KO mice, whereas the histamine content in the diencephalon of W/W(v) mice was decreased. The present study indicates that histamine plays a suppressive role in seizure development through H(1)-receptors.
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PMID:Chemical kindling induced by pentylenetetrazol in histamine H(1) receptor gene knockout mice (H(1)KO), histidine decarboxylase-deficient mice (HDC(-/-)) and mast cell-deficient W/W(v) mice. 1264 74

This study was performed to investigate whether or not endogenous histamine can protect seizure development of pentylenetetrazole (PTZ)-induced kindling in rats. An intracerebroventricular (i.c.v.) injection with clobenpropit (5 and 10 microg), a representative H(3)-antagonist, significantly prolonged the onset of kindling and inhibited the seizure stages in a dose-dependent manner. Its action was significantly reversed by both immepip (2 microg, i.c.v.), an H(3)-agonist, and alpha-fluoromethylhistidine (alpha-FMH, 10 microg, i.c.v.), a selective histidine decarboxylase inhibitor. alpha-FMH (20 microg, i.c.v.) and pyrilamine (1 and 5 mg/kg i.p.), a classical H(1)-antagonist, markedly augmented the severity of seizure development of PTZ-induced kindling. Therefore, these results indicate that brain endogenous histamine plays a certain protective role on seizure development of PTZ-induced kindling in rats, and that its protective roles are mediated by H(1)-receptors.
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PMID:Effects of endogenous histamine on seizure development of pentylenetetrazole-induced kindling in rats. 1288 27

The purpose of this study was to investigate whether or not clobenpropit, a selective and potent histamine H(3) receptor antagonist, can protect from pentylenetetrazole (35 mg/kg)-kindled seizures in rats. I.c.v. injection with clobenpropit (10 and 20 microg) significantly delayed the seizure stage and prolonged the latency to the onset of myoclonic jerks and the latency to the clonic generalized seizure in a dose-dependent manner. The protection by clobenpropit (20 microg) was completely antagonized by both immepip (5 and 10 microg, i.c.v.), a selective potent histamine H(3) receptor agonist, and alpha-fluoromethylhistidine (alpha-FMH, 50 microg, i.c.v.), a selective histidine decarboxylase inhibitor. In addition, clobenpropit markedly potentiated the histidine (100 and 200 mg/kg)-induced inhibition of pentylenetetrazole-kindled seizures. Pyrilamine (2 and 5 microg, i.c.v.) reversed the inhibition of pentylenetetrazole-kindled seizures induced by clobenpropit, whereas cimetidine had no effect even at a high dose of 5 microg. These results indicate that clobenpropit protects against pentylenetetrazole-kindled seizures in rats, and that its action is mainly due to the activation of endogenous histamine by blocking autoinhibitory presynaptic histamine H(3) receptors.
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PMID:Effects of clobenpropit on pentylenetetrazole-kindled seizures in rats. 1466 19

The EL mouse is an animal model for hereditary temporal lobe epilepsy. When the mice receive weekly vestibular stimulation, e.g., 30 "tosses", 10-15 cm vertically, they start to convulse after 1-2 weeks. The aim of this study was to evaluate the role of the histaminergic neurons in the regulation of seizure development in the EL mice. The obtained results indicated that administration of either histidine, a substrate for histamine synthesis, or metoprine (2,4-diamino-5-(3,4-dichlorophnyl)-6-methyl-pyrimidine), an inhibitor of histamine N-methyltransferase (HNMT), retarded the onset of seizure episodes in the mice. The co-administration of histidine and metoprine caused a more marked delay in it. The histamine levels in the brain significantly increased in response to any of these treatments. The intraperitoneal injection of diphenhydramine, a H1-antagonist accelerated the initiation of seizure episodes in the mice, whereas thioperamide, a H3-antagonist caused a delay in the response. There were significant increases in the brain histamine levels upon injection of any of these drugs with concomitant rises in the activity of the histidine decarboxylase (HDC). These results, taken together, suggest that the histaminergic neurons play crucial roles in the development of seizures in the EL mice. They inhibit convulsion in a H1-dependent fashion, while the neurons enhance it in a H3-receptor-mediated way.
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PMID:Role of histaminergic neurons in development of epileptic seizures in EL mice. 1554 24

The effects of carnosine (beta-alanyl-L-histidine) on amygdaloid-kindled seizures were investigated in rats. I.p. injection of carnosine (500, 1000, 1500 mg/kg, i.p.) significantly decreased seizure stage, afterdischarge duration and generalized seizure duration, and significantly prolonged generalized seizure latency of amygdaloid-kindled seizures, in a dose-dependent, and time-related manner. The protective effect of carnosine (1500 mg/kg) was completely antagonized by histamine H1-antagonists pyrilamine (2, 5 mg/kg, i.p.) and diphenhydramine (5, 10 mg/kg, i.p.), but not by histamine H2-antagonist zolantidine even at a high dose of 10 mg/kg. Carnosine (1500 mg/kg, i.p.) caused a significant increase of carnosine and histidine levels in the hypothalamus, thalamus, hippocampus, amygdala and cortex, as well as histamine levels in the hippocampus and amygdala. I.c.v. injection of alpha-fluoromethylhistidine (50 microg, i.c.v.), a selective and irreversible histidine decarboxylase inhibitor, only partially reversed the inhibition of amygdaloid-kindled seizures induced by carnosine. In addition, carnosine significantly decreased glutamate contents in the amygdala and hippocampus. These results indicate that carnosine could protect against amygdaloid-kindled seizures in rats, and its action may be due to the activation of histamine postsynaptic H1-receptors via two different mechanisms, one being carnosine's direct action, and the other being indirectly mediated by histaminergic pathway. The study suggests that carnosine may be an endogenous anticonvulsant factor in the brain and could be used as a new antiepileptic drug in the future.
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PMID:Effects of carnosine on amygdaloid-kindled seizures in Sprague-Dawley rats. 1612 61

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