DrugBank:APRD00345 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: DrugBank:APRD00345 (ICI)
5,388 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

D-Tyr-Ser-Gly-Phe-Leu-Thr (DSLET), beta-endorphin, morphiceptin and morphine were microinjected at 48-h intervals into the amygdala or hippocampus of awake rats in an attempt to identify the opiate receptor types involved in opioid kindling. DSLET, beta-endorphin, morphiceptin and morphine were injected into the lateral ventricle to assess the possibility of kindling seizures by this route. The delta-receptor agonist DSLET effectively kindled convulsions when microinjected into amygdala or ventral hippocampus. The convulsions were suppressed or strongly attenuated by ICI 174,864, a specific antagonist of the delta-receptor, microinjected into the same brain site, but were not affected by ICI 174,864 administered peripherally. When microinjected into amygdala or hippocampus, beta-endorphin and morphiceptin also kindled convulsions, which were antagonized by naloxone but not by ICI 174,864. Morphine evoked EEG epileptiform activity but did not kindle convulsions from limbic brain sites. DSLET occasionally evoked epileptiform spiking and submaximal convulsions when injected into ventricle, and morphiceptin evoked epileptiform spiking only, but tolerance to these effects occurred after repetition of the injections. Thus, convulsions can be kindled by activation of either mu-, delta- or epsilon-receptors when opioids are injected directly into limbic tissue. However, the ability of these compounds to kindle seizures is markedly reduced when they are administered into ventricle. The striking differences between the present results and previous results obtained by peripheral or intraventricular administration of opioid peptides suggest that the route of administration, among other variables, is a crucial factor in assessing the epileptogenic properties of opioid peptides.
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PMID:Involvement of multiple opiate receptors in opioid kindling. 216 33

The biochemical and pharmacological properties of an endogenous anticonvulsant substance(s) found in rat cerebrospinal fluid (CSF) following seizures are described. CSF taken from donor rats following a single maximal electroshock (MES) seizure caused significant elevations in seizure thresholds in naive recipient rats when intracerebroventricularly injected 15 min prior to exposure to the volatile convulsant flurothyl. Anticonvulsant activity was antagonized by pre-injection in recipients of high doses of naloxone or the selective delta-opioid receptor antagonist ICI 174,864. The anticonvulsant activity was also lost when the CSF was exposed to heat (90 degrees C) or immobilized trypsin. Although unaffected by the peptidase inhibitors thiorphan and bestatin, the anticonvulsant activity was significantly potentiated by a combination of aprotinin and bacitracin. Ultrafiltration of CSF revealed that the anticonvulsant activity passed through membranes with a 10,000 molecular weight cut-off, but was retained by membranes with a 5000 molecular weight cut-off. CSF removed from rats following MES had significantly increased concentrations of beta-endorphin-like, but not dynorphin A, Leu- or Met-enkephalin-like immunoreactivities relative to CSF from sham-treated rats. However, significant increases in Met-enkephalin-like immunoreactivity were measured following exposure of the CSF to the proteolytic enzymes trypsin and carboxypeptidase B, suggesting the seizure-induced presence of a higher molecular weight form of Met-enkephalin not recognized immunologically prior to enzyme exposure. These data reconfirm the anticonvulsant actions of postseizure CSF, and indicate that these effects require mediation through delta-opioid receptors in the recipient rat. These data additionally argue against these effects being mediated by Met-enkephalin, Leu-enkephalin or dynorphin A in the CSF, and suggest instead that anticonvulsant effects are attributable to a heat- and trypsin-sensitive opioid peptide(s) with a molecular weight approximately in the range of 5000-10,000 Da.
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PMID:Characterization of opioid peptide-like anticonvulsant activity in rat cerebrospinal fluid. 245 10

The protective effect of various alpha 2 adrenoceptor agonists such as clonidine, guanfacine, B-HT 920 and ICI 106270 was investigated against Ro 5-4864-induced convulsions in mice and rats. Clonidine and ICI 106270 exhibited a profound anticonvulsant effect while equivalent doses of guanfacine and B-HT 920 were less effective. The anticonvulsant effect of clonidine and ICI 106270 was reversed by pretreatment with yohimbine or idazoxan, indicating the involvement of alpha 2 adrenoceptors in their protective effect. Diazepam, clonazepam, CL 218, 872 and pentobarbitone exhibited a different profile of protective action, as these agents protected the animals from apparent mortality as compared to clonidine and ICI 106270 which prolonged the latencies of jerk and convulsion. Modulatory effects of alpha 2 adrenoceptors in central GABA function and multiple sites for Ro 5-4864-induced seizures are explained.
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PMID:Modulatory effect of alpha 2 adrenoceptor agonists on Ro 5-4864-induced convulsions in rats and mice. 281 22

The effects of highly selective mu and delta opioid peptide agonists were determined in two rat models of experimentally-induced convulsions, the flurothyl threshold test and the maximal electroshock test. Intracerebroventricular injections of the mu selective enkephalin DAGO (0.3-2.2 nmol) resulted in a dose-related protection in both seizure models. Pretreatment with a low dose of naloxone (29 nmol) or the irreversible mu antagonist beta-FNA (21 nmol), but not the delta opioid antagonist ICI 154,129 (50 nmol), antagonized the anticonvulsant actions of DAGO. Intracerebroventricular injections of the delta selective enkephalin DPDPE (70-140 nmol) also resulted in seizure protection. These effects were selectively antagonized by the delta antagonist ICI 174,864 (2.8 nmol), but not by pretreatment with beta-FNA. Thus, using agonists and antagonists highly selective for mu and delta opioid receptors, anticonvulsant actions of enkephalin have been described against chemically- and electrically-induced convulsions in rats.
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PMID:Anticonvulsant effects of mu (DAGO) and delta (DPDPE) enkephalins in rats. 285 47

We sought to elucidate the receptor subtype through which endogenous norepinephrine suppresses epileptogenesis in the rat kindling model. To this end we examined the effects of systemically administered selective antagonists and an alpha-2 agonist on kindling development and on kindled seizures. The alpha-2 adrenergic antagonists idazoxan, yohimbine and rauwolscine (0.1-10.0 mg/kg i.p.) dose-dependently facilitated amygdala kindling development. Central administration of idazoxan (20 micrograms/40 microliter i.c.v.) produced an equivalent facilitation. The facilitation was selective for alpha-2 antagonists because neither the alpha-1 antagonist corynanthine (0.1-10.0 mg/kg i.p.), nor the beta antagonist propranolol (0.1-10.0 mg/kg i.p.), nor the selective beta-1 antagonist ICI 89,406 (10 micrograms/40 microliter i.c.v.) nor the beta-2 antagonist ICI 118,551 (0.5-5.0 mg/kg i.p.) modified kindling development. The alpha-2 agonist clonidine (0.01-0.2 mg/kg i.p.) dose-dependently suppressed kindling development. In contrast to the effects on kindling development, neither the alpha-2 antagonists nor clonidine modified seizures elicited from previously kindled animals. We interpret the data to indicate that endogenous norepinephrine suppresses kindling development by activation of postsynaptic alpha-2 receptors. The selective inhibition of kindling development, but not kindled seizures, suggests that alpha-2 agonists may be effective antiepileptogenic, but not anticonvulsant, agents.
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PMID:Alpha-2 receptors mediate an endogenous noradrenergic suppression of kindling development. 288 13

Dynorphin A (1-13) acutely elevated the seizure threshold (ST) to the convulsant flurothyl, and this action was not blocked by naloxone. Increases in ST were also observed following i.c.v. injections of the non-opioid fragment dynorphin A (3-13). Pretreatment with dynorphin A (1-13), but not dynorphin A (3-13), non-competitively blocked the anticonvulsant effect of the mu selective opioid DAGO. Furthermore, pretreatment with dynorphin A (1-13) antagonized the delta antagonist properties of naloxone or ICI 154,129 in this seizure model. Thus, in addition to its non-opioid anticonvulsant effects, dynorphin A (1-13) exhibits unique antagonist actions which appear to be specific for the active opioid fragment.
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PMID:Dynorphin A (1-13): in vivo opioid antagonist actions and non-opioid anticonvulsant effects in the rat flurothyl test. 289 82

Dose-response comparisons of the ability of the selective delta antagonist ICI 154,129 (12.5-50 nmol), the nonselective antagonist naloxone (29-290 nmol), and the irreversible selective mu antagonist beta-fNA (1.3-21 nmol) to alter the threshold response to DADLE or etorphine was studied in the rat flurothyl seizure test. DADLE (35 nmol, i.c.v.) and etorphine (122 nmol/kg, s.c.) both caused increases in seizure threshold which were differentially antagonized by pretreatment (i.c.v.) with the respective antagonists. For DADLE, only ICI 154,129 and naloxone produced a dose-related blockade of the increase in seizure threshold, with ICI 154,129 being more potent than naloxone. In contrast, the anticonvulsant action of etorphine was not antagonized by ICI 154,129 (50 nmol), but was blocked by a low dose of naloxone (29 nmol) or beta-fNA (21 nmol). In addition, prior occupancy of mu-sites with beta-fNA (21 nmol) significantly diminished the abilities of either ICI 154, 129 (50 nmol) or naloxone (290 nmol) to antagonize the anticonvulsant action of DADLE. The results of this study demonstrated that the effects of DADLE to increase seizure threshold in the rat were primarily mediated by activation of a delta-opioid receptor system. Furthermore, evidence has been provided for a functional interaction between delta and mu receptors in the opioid regulation of seizure threshold.
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PMID:The anticonvulsant effects of DADLE are primarily mediated by activation of delta opioid receptors: interactions between delta and mu receptor antagonists. 299 84

Two groups of experiments were conducted to determine if morphine- and enkephalin-induced seizures are specifically mediated by the mu and delta receptor, respectively. In the first experiments, designed to assess the ontogeny of mu- or delta-seizures, rats from 6 h to 85 days of age received implanted cortical and depth electrodes as well as an indwelling cannula in the lateral ventricle. Various amounts of the mu-receptor agonists, morphine and morphiceptin, and the delta agonists, D-Ala2-D-Leu5-enkephalin (DADL) and Tyr-D-Ser-Gly-Phe-Leu-Thr (DSLET), were then administered intracerebroventricularly (icv) with continuous EEG monitoring. The second experiments entailed use of the nonspecific opiate antagonist, naloxone, as well as the specific delta antagonist, ICI 154,129, against seizures induced by icv-administered morphine, morphiceptin, DADL, or DSLET. Both morphine and morphiceptin produced electrical seizure activity in rats as young as 5 days after birth. The drugs produced similar seizure activity in terms of electrical morphology, observed behavior, ontogeny, threshold dose, and reversibility with small doses of naloxone. In the pharmacologic experiments, icv naloxone blocked all opiate-induced seizures. ICI 154,129 blocked DSLET seizure, had little effect on enkephalin or DADL seizures, and no effect on morphine or morphiceptin seizures. These data indicate that DSLET seizures are delta-specific but that all other opiate-induced seizures studied may involve multiple opiate receptor-mediated mechanisms.
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PMID:Opiate-induced seizures: a study of mu and delta specific mechanisms. 301 59

The opioid receptor types involved in the mediation of enkephalin-induced electroencephalographic (EEG) seizures were studied in unanesthetized, freely moving rats. Four receptor-selective peptide ligands were evaluated for effectiveness in producing nonconvulsive EEG seizures after i.c.v. administration; these included the mu agonist, [D-Ala2-N-methyl-Phe4-Gly5-ol]enkephalin (DAGO), the mixed mu-delta agonist, [D-Ala2-D-Leu5]enkephalin (DADLE), and the selective delta agonists, [D-Pen2-D-Pen5]enkephalin and [D-Pen2-L-Pen5]enkephalin. Only DAGO and DADLE were found to produce EEG seizures, with DAGO being 9 times more potent than DADLE. DAGO produced a greater number of seizure episodes with a greater overall incidence compared with DADLE, reflecting its potent effect to elicit EEG seizure activity in these rats. Injections of [D-Pen2-D-Pen5]enkephalin or [D-Pen2-L-Pen5]enkephalin, even at the highest doses tested, failed to produce seizure activity. Behaviorally, the DAGO and DADLE EEG seizures were nonconvulsive but were temporally associated with episodic bursts of wet-dog shakes. The enkephalin-induced responses were extremely sensitive to antagonism by naloxone and completely blocked by pretreatment with the irreversible mu antagonist beta-funaltrexamine. The selective delta opioid receptor antagonist ICI 174,864 (N,N-diallyl-Tyr-Aib-Aib-Phe-Leu-OH) was ineffective. The use of the most selective agonists and antagonists for mu and delta opioid receptors suggests that, in rats, enkephalin-induced EEG seizures are mediated exclusively by mu opioid receptors and not by delta opioid systems.
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PMID:Evidence for mu opioid receptor mediation of enkephalin-induced electroencephalographic seizures. 302 18

We examined the effect of opioid receptor antagonists on the seizure phenomena induced by specific delta opioid receptor agonist [D-Ser2,Leu5] enkephalyl-Thr (DSLET). The experiments have been performed in the anesthetized rats, and the DSLET-induced seizure phenomena were registered by electrocorticogram and electromyogram. It was demonstrated that two selective delta opioid receptor antagonists, ICI 152,129 and ICI 174,864 inhibited DSLET-induced epileptiform ECoG pattern and myoclonic contractions in a dose-related manner. An equimolar concentration of naloxone failed to antagonize the epileptiform effects of DSLET. It is concluded that delta opioid receptor agonist-induced seizure is mediated by delta receptors, since it can be blocked by delta opioid receptor antagonists. Evidently, delta opioid antagonists can be used as a good tool, in order to demonstrate a delta component in the seizure phenomena induced by other endogenous opioid peptides or their derivatives.
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PMID:Effects of delta opioid antagonists on enkephalin-induced seizures. 303 87

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