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: CAS:4432-31-9 (MES)
1,294 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

3-Hydroxymethylphenytoin valproic acid ester (VAL-PHT) was designed as a new prodrug combining valproic acid and phenytoin, two anticonvulsant drugs with different pharmacological profiles. The compound was hydrolyzed by rat plasma esterases in vitro but exhibited only activity in the maximal electroshock seizure test (MES test) after intraperitoneal administration to mice. The compound did not protect against pentylenetetrazole-induced seizures. It is concluded that VAL-PHT acts as a prodrug displaying the anticonvulsant profile of phenytoin.
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PMID:3-Hydroxymethylphenytoin valproic acid ester, a new prodrug combining two anticonvulsant drugs. 903 24

The neuropharmacological profile of the total fungal extract of F. moniliforme (FM) has been investigated. FM produced dose related decrease in spontaneous motor activity (SMA) and exploratory activity, potentiated pentobarbitone hypnosis and the anticonvulsant actions of phenobarbitone and phenytoin against MES seizures, potentiated PTZ and tryptamine seizures, antagonised reserpine induced syndrome, attenuated tetrabenazine and morphine induced catalepsy and potentiated haloperidol catalepsy. FM showed per se antinociceptive activity and potentiated morphine analgesia. It increased rectal temperature, antagonised reserpine and apomorphine hypothermia and potentiated the hyperthermic response of haloperidol and 5-hydroxytryptophan (5-HTP) and hypothermic response of betaphenylethylamine (PEA) and L-dopa. FM had no per se effect on amphetamine lethality, but enhanced the lethality induced by morphine in aggregated animals. Stereotypy by amphetamine was potentiated while that of apomorphine was not affected. The behavioural response of 5-HTP and L-dopa was potentiated. FM had no effect on swim induced behavioural despair. The effect on aggressive behavior was complex, and while the cumulative aggressive score was reduced, the onset of fighting behaviour and contact period was increased. It also inhibited clonidine induced auto mutilation. Since earlier investigation had shown that FM, like nialamide, induced non-selective inhibition of monoamine oxidase (MAO), the results were compared with those induced by nialamide. A comparative profile of action reveals that the neuropharmacological action of FM are qualitatively similar to those induced by nialamide, and likely to be due to inhibition of MAO. The investigation has practical implications because F. moniliforme is a common contaminant of cereals and fruits.
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PMID:Neuropharmacological studies on Fusarium toxins--I: Total toxin extract from Fusarium moniliforme. 906 73

The compound 5-(4-chlorophenyl)-2,4-dihydro-4-ethyl-3H-1,2,4-triazol-3-one (MDL 27,192) was evaluated in a variety of rodent models to assess its anticonvulsant profile and its potential neuroprotective activity. MDL 27,192 demonstrated anticonvulsant activity in a wide range of epilepsy models that are genetically-based (audiogenic seizures in the seizure susceptible DBA/2J or Frings mouse; spike wave seizures in genetic absence epilepsy rats of Strasbourg (GAERS), electrically-based (MES seizures in mice and rats, corneally-kindled seizures in rats) and chemically-based (bicuculline, PTZ, picrotoxin, 3-mercaptopropionic acid, quinolinic acid and strychnine). When compared to valproate, orally administered MDL 27,192 was 17-48-fold more potent as an anticonvulsant and showed a safety index one to three-fold greater. Following a timed intravenous administration of PTZ to mice, MDL 27,192, but not phenytoin or carbamazepine, consistently increased the latencies to first twitch and clonus. MDL 27,192 was active in a genetic model of absence epilepsy, the GAERS rat model. These data indicate that MDL 27,192 likely exerts its anticonvulsant action by affecting seizure spread and by raising seizure threshold. MDL 27,192 did not display any signs of tolerance following subchronic (15 day) administration. In tests of neuroprotective potential, MDL 27,192 reduced infarct volume in a permanent middle cerebral artery occlusion model of focal cerebral ischemia in rats and reduced the loss of hippocampal dentate hilar neurons in an animal model of unilateral head injury. In summary, MDL 27,192 possesses a broad-spectrum anticonvulsant profile. The potential for reduced tolerance and neuroprotective activity are additional positive features of MDL 27,192's preclinical profile.
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PMID:Preclinical characterization of MDL 27,192 as a potential broad spectrum anticonvulsant agent with neuroprotective properties. 916 90

The anticonvulsant effect of felbamate and meprobamate were compared in a series of models for seizure activity and regarding their neurotoxic action. In the MES test, felbamate was active below neurotoxic doses. Meprobamate had an ED50 in the range of neurotoxic doses. The s.c. PTZ test was influenced by meprobamate in a fairly low dosage (ED50 66 mg/kg), but for felbamate no clearly dose-related effect could be shown up to 150 mg/kg. Reflex epilepsy in gerbils was stronger suppressed by meprobamate (ED50 34 mg/kg) than by felbamate (ED50 63 mg/kg). In amygdala kindled rats, meprobamate proved to be the most active compound, both regarding treatment of fully kindled rats, development of kindling and independent discharges from a mirror focus (secondary epileptogenesis), which were fully suppressed by oral treatment with 80 mg/kg for 30 days. Both drugs were weakly effective in a model for absence epilepsy in rats. The unexpectedly high activity of meprobamate justifies a second look at the anticonvulsant properties of the drug, especially since it was extensively used as an anxiolytic drug in the past with few obvious serious side effects.
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PMID:Felbamate and meprobamate: a comparison of their anticonvulsant properties. 923 49

The anticonvulsant activity of the novel drug AWD 140-190 (4-(p-bromophenyl)-3-morpholino-1H-pyrrole-2-carboxylic acid methyl ester) was evaluated in animal models of epileptic seizures. AWD 140-190 was active at nontoxic doses after oral and intraperitoneal administration in rats and mice in a range of anticonvulsant tests. The compound was active against electrically-induced seizures (MES, ED50 rat p.o. = 2.47 mg/kg), in a genetic animal model the DBA/2 mouse, and in corneally kindled rats. It was not active against seizures induced chemically by pentylenetetrazole, bicuculline and strychnine. Effective doses in mice following both oral and intraperitoneal administration are similar indicating good oral absorption. During 14 days chronic oral treatment of mice with 10 mg/kg, no development of tolerance was observed. The protective indices (TD50/MES ED50) in rats and mice following oral administration are favorable when compared to phenytoin, carbamazepine and valproate. No motor impairment, evaluated with the rotarod test and by observation in the open field test, was observable following oral administration of doses up to 500 mg/kg. There was no influence on spontaneous motility and learning performance in rats and no interaction with ethanol in mice after administration of doses which are above anticonvulsant effective doses indicating the absence of central side effects. AWD 140-190 thus presents an orally active and safe anticonvulsant agent, which is structurally unrelated to anticonvulsants currently used.
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PMID:AWD 140-190: a new anticonvulsant with a very good margin of safety. 925 96

1. Earlier optimization of structure-activity relationships in a novel series of 4-(benzoylamino)-benzopyrans, led to the discovery of SB-204269 (trans-(+)-6-acetyl-4S-(4-fluorobenzoylamino)-3,4-dihydro-2, 2-dimethyl-2H-benzo[b]pyran-3R-ol, hemihydrate), a potent orally-active anticonvulsant in the mouse maximal electroshock seizure threshold (MEST) test. 2. Studies have now been undertaken to determine the effects of SB-204269 in a range of seizure models and tests of neurological deficits in rats. In addition, the compound has been evaluated in a series of in vitro mechanistic assays. 3. SB-204269 proved to be an orally-effective anticonvulsant agent, at doses (0.1-30 mg Kg-1) devoid of overt behavioural depressant properties, in models of both electrically (MEST and maximal electroshock (MEST)) and chemically (i.v. pentylenetetrazol (PTZ) infusion)-evoked tonic extension seizures. However, the compound did not inhibit PTZ-induced myoclonic seizures at doses up to 30 mg kg-1, p.o. 4. SB-204269 also selectively reduced focal electrographic seizure activity in an in vitro elevated K+ rat hippocampal slice model at concentrations (0.1-10 microM) that had no effect on normal synaptic activity and neuronal excitability. 5. In all of these seizure models, SB-204269 was equivalent or better than the clinically established antiepileptic drugs carbamazepine and lamotrigine, in terms of anticonvulsant potency and efficacy. 6. Unlike SB-204269, the corresponding trans 3S,4R enantiomer, SB-204268, did not produce marked anticonvulsant effects, an observation in accord with previous findings for other related pairs of trans enantiomers in the benzopyran series. 7. In the rat accelerating rotarod test, a sensitive paradigm for the detection of neurological deficits such as sedation and motor incoordination, SB-204269 was inactive even at doses as high as 200 mg kg-1, p.o. This was reflected in the excellent therapeutic index (minimum significantly effective dose in the rotarod test/ED50 in the MES test) for SB-204269 of > 31, as compared to equivalent values of only 7 and 13 for carbamazepine and lamotrigine, respectively. 8. At concentrations (> or = 10 microM) well above those required to produce anticonvulsant activity in vivo (i.e. 0.1 microM in brain), SB-204269 did not interact with many of the well known mechanistic targets for established antiepileptic drugs (e.g. Na+ channels or GABAergic neurotransmission). Subsequent studies have shown that the anticonvulsant properties of SB-204269 are likely to be mediated by a novel stereospecific binding site present in the CNS. 9. The overall efficacy profile in rodent seizure models, together with a minimal liability for inducing neurological impairment and an apparently unique mechanism of action, highlight the therapeutic potential of SB-204269 for the treatment of refractory partial and generalized tonic-clonic seizures.
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PMID:Profile of SB-204269, a mechanistically novel anticonvulsant drug, in rat models of focal and generalized epileptic seizures. 928 3

The anticonvulsant topiramate is effective in laboratory animals against maximal electroshock seizures, amygdala kindling, and spike-wave discharges and has demonstrated efficacy in humans for the treatment of complex partial seizures. However, its mechanism of action has yet to be clearly elucidated. When the chloride-sensitive fluorescent probe N-(ethoxycarbonylmethyl)-6-methoxyquinolinium bromide (MQAE) was used as a tool for estimating the effect of anticonvulsant drugs on GABA receptor function, topiramate was observed to enhance GABA-stimulated chloride (Cl-) flux. At a therapeutic concentration, topiramate (10 microM) enhanced GABA-stimulated (10 microM) Cl- influx into cerebellar granule neurons but did not significantly increase Cl- influx alone. Phenytoin (10 microM) and acetazolamide (300 microM) did not enhance GABA-stimulated Cl- influx. In patch-clamp electrophysiological studies, topiramate also enhanced GABA-evoked whole cell Cl- currents in mouse cerebral cortical neurons in culture. In vivo anticonvulsant studies confirmed that topiramate, like phenytoin, is primarily effective against tonic extension seizures induced by maximal electroshock and is ineffective against clonic seizures induced by the subcutaneously administered chemoconvulsants pentylenetetrazol (PTZ), bicuculline (Bic), and picrotoxin (Pic). In contrast to phenytoin, topiramate, at a dose equivalent to the MES median effective dose (ED50), was found to elevate seizure threshold as estimated by the intravenous PTZ seizure threshold test. Taken together these results support the conclusion that enhancement of GABA-mediated Cl- flux may represent one mechanism that contributes to the anticonvulsant activity of topiramate.
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PMID:Topiramate enhances GABA-mediated chloride flux and GABA-evoked chloride currents in murine brain neurons and increases seizure threshold. 933 82

Retrobenzamides [N-(nitrophenyl) benzamides and N-(aminophenyl)benzamides] were developed in the perpective of a design for phenytoinergic agents. Anticonvulsant and neurotoxic properties of these compounds were evaluated in mice and rats in two seizure models (maximal electroshock-induced seizures [MES] and seizures induced by subcutaneous administration of pentylenetetrazole [scPtz]) and in the rotorod test. Data obtained were compared with those recorded on carbamazepine and phenytoin (antiepileptic drugs widely utilized in human clinics), ameltolide (anticonvulsant compound recently developed by Eli Lilly in human clinical trials) and other compounds previously reported by our research group. Studies on retrobenzamides in mice administered by intraperitoneal route point out a good anticonvulsant potential in the MES test for the amino derivatives (N-(aminophenyl)benzamides) and moderate activity in the case of the corresponding "nitro" derivatives. In rats dosed orally, aminoretrobenzamides were less active in the MES test than in mice dosed intraperitoneally.
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PMID:[Rational conception, synthesis and evaluation of phenytoinergic potential anticonvulsants. A series ofretrobenzamides: N-(nitrophenyl) benzamides and N-(aminophenyl) benzamides]. 943 26

Synthesis and physicochemical properties of new 2-N-(phthalimido)-1-alkyl esters are described. Esters were synthesized from aromatic and heterocyclic acids with appropriate bromoalkyl phthalimides in the presence of 1,8-diazabicyclo[5,4,0]-undec-7-ene or triethylamine. The obtained compounds were evaluated for anticonvulsant activity. The display protection against MES and ScMet-induced seizures.
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PMID:Synthesis and anticonvulsant activity of some 2-N-(phthalimido)-1-alkyl esters. 977 Feb 8

In connection with the development of new anticonvulsant agents with a broad spectrum, we reported that N-Cbz-alpha-aminoglutarimides, combining common structures of other anticonvulsants such as N-CO-C-N and cyclic imides in a single molecule, showed significant anticonvulsant activities in the MES (maximal electroshock seizure) and PTZ (pentylenetetrazole induced seizure) tests. In these studies, a series of (R) and (S) N-alkyloxycarbonyl-alpha-aminoglutarimides 7a-7e and 8a-8e, which were substituted with various alkyloxycarbonyl group instead of Cbz group, were prepared from the corresponding (R) and (S) N-Cbz-glutamic acid 3 and 4, and were evaluated with their anticonvulsant activities against the MES and PTZ tests, including neurotoxicity, in order to define the effect of N-alkyloxycarbonyl group on the anticonvulsant activities of N-alkyloxycarbonyl-alpha-aminoglutarimides. Among them, (S) N-4-nitrobenzyloxycarbonyl-alpha-amino-N-methylglutarimide 8e was the most active in MES (ED50 = 35.6 mg/kg, PI = 2.7) and PTZ tests (ED50 = 15.6, PI = 6.1). Interestingly, (R) and (S) N-4-nitrobenzyloxycarbonyl-alpha-amino-N-methylglutarimide 7e and 8e and (R) N-phenoxycarbonyl-alpha-amino-N-methylglutrimide 7d showed significant anticonvulsant activities in both the MES and PTZ tests and other compounds showed anticonvulsant activities in only the PTZ test. In addition, it was found that their anticonvulsant activities were dependent on their stereochemistries and N-substituted alkyloxycarbonyl groups.
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PMID:The effect of N-alkyloxycarbonyl group on the anticonvulsant activities of N-alkyloxycarbonyl-alpha-aminoglutarimides. 986 53


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