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)

Neuropeptides represent a new class of compounds with important implications for the understanding of the mechanisms and treatment of epileptic disorders. Several systems of peptide modulators--in particular the opioid-like peptides, vasopressin, somatostatin, thyrotropin-releasing hormone (TRH) and ACTH--have partially demonstrated endogenous roles in some forms of epilepsy. Seizures and stressful situations may release endogenous opioid peptides and mediate postictal depression and postictal seizure refractoriness. Vasopressin is believed to increase susceptibility to convulsions and may be involved in the pathogenesis of febrile convulsions. Derangements in TRH regulation may lower thresholds for seizure expression by regulating arousal systems; however, some TRH analogs have proven to be effective anticonvulsants. Long-term alterations in somatostatin regulation could be components of focal epilepsies. ACTH is particularly useful in the treatment of infantile spasms. Pharmacological effects of these and other peptides have potentials for defining new classes of anticonvulsants. Cholecystokinin (CCK) and its analogs, the opioid peptides beta-endorphin and FK33824, TRH analogs, and several dipeptides exhibit potent anticonvulsant properties in chemical, electroshock, and genetic model screens. Convulsant actions of CRF, somatostatin, TRH, vasopressin, and high doses of endorphin or enkephalins may provide new tools to study regulatory mechanisms of cerebral excitability. The enkephalin epileptogenic effect is being developed as a predictive tool for new anti-petit mal anticonvulsants. Advances in molecular biology have identified the genes of particular peptide families. A concept has developed that the large propeptide precursors, coded by these genes, whose processing leads to functional peptide formation and release, regulate peptidergic humoral responses to external stimuli. This idea may have particular application in the understanding of the genetic basis of some seizure states. Techniques for amplification of mRNA expression have identified specific neuronal proteins and peptides. Knowledge of protein and propeptide structural cleavage sites has suggested previously unknown candidates for modular systems in epileptic states. Technological advances in automated peptide sequencing and synthesis have allowed the development of metabolically resistant analogs and antagonist peptides. The anticonvulsant potencies of CCK, TRH, and opioid peptides have been defined more clearly with these methods.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Neuropeptides: anticonvulsant and convulsant mechanisms in epileptic model systems and in humans. 287 23

Light microscopic immunocytochemical techniques were used to evaluate the influence of recurrent limbic seizure activity on the immunoreactivity for 3 neuropeptides--enkephalin, dynorphin, and cholecystokinin (CCK)--contained within the mouse hippocampal mossy fiber axonal system. Seizures were induced either by the placement of a small unilateral electrolytic lesion in the dentate gyrus hilus or by intraventricular injection of kainic acid. Both treatments induce epileptiform activity in hippocampus lasting several hours. Four days after either lesion placement or injection of 0.05-0.1 microgram kainic acid, immunoreactivity for all 3 peptides was altered throughout the intact mossy fiber system, bilaterally, but in distinctly different ways: enkephalin immunoreactivity (ENK-I) was dramatically elevated, dynorphin immunoreactivity was reduced, and CCK immunoreactivity (CCK-I) was either severely reduced or completely absent in the mossy fiber system. ENK-I was also clearly increased in other areas, including the lateral septum, the entorhinal cortex, and within the entorhinal (perforant path) efferents to temporal hippocampus. In contrast, the loss of CCK seemed restricted to the mossy fiber system in that immunostaining appeared normal in scattered hippocampal perikarya, within the dentate gyrus commissural system, as well as within other limbic structures. Four days after injections of 0.2 or 0.25 microgram kainic acid, mossy fiber ENK-I was greatly elevated, dynorphin immunoreactivity was reduced, but, unlike the situation with lower kainic acid doses, CCK-I was only modestly reduced in the mossy fibers and was clearly reduced in other hippocampal systems as well. These data indicate that epileptiform physiological activity differentially affects the regulation of 3 neuroactive peptides contained within the hippocampal mossy fiber system and suggest a mechanism through which seizurelike episodes can have a lasting influence on the operation of specific hippocampal circuitries.
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PMID:Seizures induce dramatic and distinctly different changes in enkephalin, dynorphin, and CCK immunoreactivities in mouse hippocampal mossy fibers. 289 12

Subcutaneous administration of caerulein (100-500 micrograms/kg) significantly reduced the development of picrotoxin (8 mg/kg) seizures in male mice. The same doses of caerulein inhibited 3H-flunitrazepam binding in in vivo experiments. Proglumide, an antagonist of cholecystokinin receptors, in low dose (5 mg/kg) potentiated the effects of caerulein (100 micrograms/kg), whereas the administration of proglumide in high dose (25 mg/kg) reduced the action of caerulein on 3H-flunitrazepam binding and picrotoxin seizures. Caerulein (5-1000 nM) decreased 3H-flunitrazepam binding in in vitro experiments only after supplementation of the binding medium with 120 mM NaCl and 5mM KCl. The results suggest the possible interaction of caerulein with chloride ionophor. It seems probable that the direct interaction of caerulein with chloride ionophor in involved in the inhibitory effect of caerulein on picrotoxin seizures and 3H-flunitrazepam binding.
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PMID:[Modulating effect of cerulein on benzodiazepine receptors]. 300 Apr 72

In an attempt to understand the neurochemical basis of kindling, this study investigated the effects on brain cholecystokinin (CCK) of amygdaloid kindled and non-kindled seizures. Thirteen brain regions were examined in rats sacrificed either 24 hr or 3 weeks after the last kindled seizure, or 24 hr after a suprathreshold stimulation-induced (non-kindled) seizure; and in sham kindled rats. There were no significant differences in CCK immunoreactivity between any of these groups. These results do not confirm a previous report of an increase in CCK in the hippocampus following amygdaloid kindling in the rat.
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PMID:Regional brain concentrations of cholecystokinin in the rat: the effects of kindled and non-kindled seizures. 339 71

The effects of several doses of cholecystokinin octapeptide sulphate ester (CCK-8-SE) and nonsulphated cholecystokinin octapeptide (CCK-8-NS), and two CCK-related peptide analogues Ac-Thr5-caerulein, and nonsulphated Ac-Thr5-caerulein were investigated on electroshock-(ES)-induced seizures after intraperitoneal administration in mice. As parameters, the duration of the tonic and clonic phase of the fit, and those of postictal coma and behavioural depression were measured. CCK-8-SE decreased the duration of the clonic phase; its highest dose, 3.2 mumol/kg, shortened the coma. CCK-8-NS antagonized only slightly the clonic phase of seizure. Ac-Thr5-caerulein did not influence ES-induced seizures in any dose, only increased the duration of behavioural depression. Similarly to CCK-8-NS, the nonsulphated form of Ac-Thr5-caerulein inhibited selectively the clonic phase of seizures. The reference drugs, diazepam and phenobarbital, antagonized dose-dependently and most effectively the tonic phase of ES-induced seizures, but in much higher doses than did the CCK-related peptides. Besides, diazepam increased and phenobarbital decreased the duration of postictal coma. The results showed that the tested CCK-related peptides inhibit prevalently the clonic phase of ES-induced seizures after peripheral administration.
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PMID:Inhibition of electroshock-induced seizures by cholecystokinin-related peptides in mice. 359 54

Pronounced changes in the content of cholecystokinin octapeptide (CCK-8) have been found after limbic seizures induced by i.p. injection of kainic acid. Three hours after injection of the toxin a significant decrease in CCK-8 was observed in the frontal cortex and amygdala/pyriform cortex reflecting an increased release during acute seizures. A persistent decrease in the content of the peptide in the amygdala/pyriform cortex suggests destruction of the respective neurons. In the substantia nigra and in the striatum and, more moderately, in the hippocampus and frontal cortex increases in CCK-8 were observed 10 days after injection of kainic acid suggesting an increased synthesis or decreased release of the peptide in these brain areas subsequently to the acute seizures.
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PMID:Increased brain levels of cholecystokinin octapeptide after kainic acid-induced seizures in the rat. 376 49

The dose-response curves for the anticonvulsive activity of sulfated and nonsulfated cholecystokinin octapeptide (CCK-8-SE and CCK-8-NS) against picrotoxin-induced (6 mg/kg SC) seizures were assessed either following or without pretreatment with a single high dose of CCK-8-SE or CCK-8-NS, to examine acute tolerance to the effect after IP injections in mice. As CCK-8-SE or CCK-8-NS pretreatment, a 1.6 mumole/kg dose was injected 2 hr prior to the second injection. No acute tolerance to the anticonvulsive activity was demonstrated, and CCK-8-NS pretreatment significantly potentiated its own anticonvulsive activity. Chronic (8-day) daily treatment with a 0.16 mumole/kg dose of CCK-8-SE or CCK-8-NS antagonized seizures by picrotoxin, presumably in a cumulative manner. To investigate the interactions of CCK octapeptides with other anticonvulsive agents, picrotoxin-induced seizures were antagonized with several doses of diazepam following or without acute, high-dose pretreatment with CCK-8-SE or CCK-8-NS. The two octapeptides only slightly modified the activity of diazepam: CCK-8-SE pretreatment displayed a tendency to antagonize it, while CCK-8-NS pretreatment to potentiate it. The results suggest that multiple treatment with CCK-8 induces sensitization of CCK receptors mediating anticonvulsive activity.
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PMID:Multiple treatment potentiates the anticonvulsive activity of cholecystokinin octapeptides. 383 11

The anticonvulsive activity of cholecystokinin octapeptide sulphate ester (CCK-8-SE), non-sulphated cholecystokinin octapeptide (CCK-8-NS) and three different N- and C-terminal fragments were investigated against seizures induced by picrotoxin and electroshock in rats after intracerebroventricular administration. Doses of 0.8 and 80 pmol of CCK-8-SE and CCK-8-NS significantly enhanced the latency of seizures induced by picrotoxin and shortened the duration of the clonic phase of the seizures induced by electroshock. Only CCK-8-SE shortened the recovery time and only 0.8 pmol of CCK-8-SE could shorten the duration of the tonic phase of convulsions induced by electroshock. Doses of the octapeptides of 8000 pmol were ineffective, with the exception of CCK-8-NS in the picrotoxin test. Of the fragments tested, the C-terminal tetrapeptide, CCK-5-8, enhanced the latency of seizures induced by picrotoxin in a dose of 0.8 pmol, and had a dose-dependent biphasic effect on the duration of the clonic phase of seizures induced by electroshock. Intracerebroventricular administration of diazepam enhanced only the latency of tremor and clonic seizures induced with picrotoxin in a dose of 40 nmol. Twelve nmole of diazepam shortened the clonic phase of convulsions induced by electroshock. The peptides tested were much more active than diazepam, and their effective doses were comparable to the amounts of cholecystokinin octapeptide found in brain structures.
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PMID:Inhibition of seizures induced by picrotoxin and electroshock by cholecystokinin octapeptides and their fragments in rats after intracerebroventricular administration. 609 Sep 68

Caerulein and the C-terminal octapeptide of cholecystokinin (CCK-8), after subcutaneous administration to mice, both delayed the onset and retarded the development of toxic effects of convulsants such as strychnine, pentetrazol, bicuculline, and picrotoxin. They also increased the seizure threshold doses of intravenously infused pentetrazol and picrotoxin. In this regard, both peptides were at least equipotent with diazepam.
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PMID:Anticonvulsant effects of careulein and cholecystokinin octapeptide, compared with those of diazepam. 624 26

Caerulein, cholecystokinin octapeptide (CCK-8) and diazepam delayed the onset of seizures produced by harman and thiosemicarbazide (TSC). Caerulein had the potency of diazepam, whereas CCK-8 was less active by a factor of four. The convulsions induced by isoniazid (INH) were very resistant to both caerulein and diazepam; CCK-8 was not tested against isoniazid. Haloperidol did not influence the effect of TSC; it enhanced isoniazid-induced seizures, and antagonized the convulsant effect of harman.
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PMID:Anticonvulsant effects of caerulein, cholecystokinin octapeptide (CCK-8) and diazepam against seizures produced in mice by harman, thiosemicarbazide and isoniazid. 626 41

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