Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020672 (hypothermia)
 17,327 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sodium lawsonate (SL: derivative of lawsone, hydroxy-1,4-naphthaquinone) was studied for its activity profile in mice and rats, with emphasis on actions on the central nervous system. The drug produced a cataleptic state, hypothermia and loss of active avoidance behaviour, but it did not augment barbiturate sleep. The catalepsy was prevented by hyoscine (mice) or by sodium salicylate (rats). SL did not affect apomorphine-sterotypy (a dopamine-mediated behaviour) but blocked the lithium-induced head twitches (a serotonin-mediated behavioural response). SL did not produce excitation, analgesia or exhibit anti-MES activity. All actions of SL were rapid in onset and brief in duration. In view of effective dose range (40-80 mg/kg, i.p.) and MLD 50 values (76 mg/kg, i.p., in mice; 122 mg/kg, i.p., in rats), safety index of SL appears to be low.
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PMID:Some aspects of activity profile of sodium lawsonate in mice and rats. 380 May 12

Interactions between 450191-S and other representative drugs which might be clinically used with 450191-S were behaviorally investigated in mice, and compared with the cases of nitrazepam, estazolam and triazolam. The potencies of 450191-S and nitrazepam in preventing pentetrazol convulsions were markedly decreased by aminopyrine, whereas that of estazolam was remarkably increased by phenytoin. Administration of nitrazepam with other drugs, except aminopyrine, or of estazolam together with haloperidol exhibited an anticonvulsive pattern different from the case of dosing with either drug alone. Only the effect of triazolam was not influenced by any drugs used. The potency of haloperidol against apomorphine-induced climbing behavior was significantly reduced by nitrazepam, and the pattern of the haloperidol effect was changed by treatment together with 450191-S or estazolam. However, triazolam had no influence on the effect of haloperidol. The antagonistic activity of imipramine to reserpine-induced hypothermia was slightly decreased by 450191-S, estazolam and triazolam, but little affected by nitrazepam. In the protection from maximal electroshock convulsions (MEC), the potency of phenytoin was significantly decreased by 450191-S and triazolam. Moreover, the anti-MES pattern of phenytoin was altered by nitrazepam. Estazolam exerted no significant influence on the effect of phenytoin. Analgesic activities of morphine and/or aminopyrine were potentiated by pretreatment with sleep-inducers, but not 450191-S. Thus, judging from the potency and stability of the anti-pentetrazol effect, 450191-S seems to be inferior to triazolam, but superior to nitrazepam and estazolam. Also, 450191-S may be differentiated from other sleep-inducers by the fact that only 450191-S did not potentiate the analgesic activities of morphine and aminopyrine.
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PMID:[Pharmacology of a 1H-1, 2, 4-triazolyl benzophenone derivative (450191-S), a new sleep-inducer (III). Behavioral study on interactions of 450191-S and other drugs in mice]. 614 77

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