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: UMLS:C0033377 (prolapse)
11,717 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The hypothesis was tested that some of the effects in rats of the prototypical benzodiazepine, diazepam, would grow (i.e., sensitize) with the passage of time after acute administration as we had previously observed following stimulants, antidepressants, neuroleptics and other compounds. Our principal findings indicate that: 1) A single pretreatment with 0.5 mg/kg of diazepam significantly enhances the anticonvulsant effect of this same dose administered again two weeks later. 2) One injection of 2.5 mg/kg of diazepam significantly sensitizes the catalepsy and ptosis observed following the administration of haloperidol two weeks but not two hours later. These data provide the first evidence for time-dependent sensitization after benzodiazepines and perhaps by implication, of GABA neurons. They may also suggest that acute stimulation of GABA neurons triggers the progressive development of a long-term, antidopaminergic influence. Finally, they raise the question of whether the progressive anxiolytic influence seen during the first week or so of benzodiazepine therapy depends on the passage of time rather than repeated drug treatment.
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PMID:Anticonvulsant and other effects of diazepam grow with time after a single treatment. 257 Nov 70

Fengabine (SL 79.229) is a novel benzylidene derivative with clinically proven antidepressant action. Fengabine is active in behavioral models for antidepressant drug action, reversing the passive avoidance deficit in olfactory bulbectomized rats, antagonizing the escape deficit in the learned helplessness model and decreasing paradoxical sleep in the rat. In contrast to tricyclic antidepressants, fengabine antagonizes 5-hydroxytryptophan-induced head twitches and only weakly reverses reserpine-induced ptosis. Fengabine inhibits neither monoamine uptake nor monoamine oxidase. A GABAergic mechanism of fengabine is indicated as bicuculline reverses its action in the olfactory bulbectomy and learned helplessness models. The wide-spectrum anticonvulsant action of fengabine is consistent with a GABA-mimetic action and is in contrast to the proconvulsant effect of most classical antidepressants.
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PMID:Fengabine, a novel antidepressant GABAergic agent. I. Activity in models for antidepressant drugs and psychopharmacological profile. 303 3

A series of 5-aryl-2,4-dihydro-3H-1,2,4-triazole-3-thiones was prepared and evaluated for potential antidepressant activity. Members of this series were generally prepared by the alkaline ring closures of the corresponding 1-aroylthiosemicarbazides. Several members of this series were potent antagonists of both RO 4-1284-induced hypothermia and reserpine-induced ptosis in mice. In general the more active members of this series were substituted by haloaryl groups at the 5-position of the triazole nucleus and by methyl groups at the 2- and 4-positions. Exchange of the thiocarbonyl group at the 3-position for a carbonyl group resulted in the complete loss of activity. Biochemical evaluation of the more active members of this series indicated that the aforementioned activities were not a consequence of either norepinephrine (NE) uptake or monoamine oxidase inhibition. In an attempt to determine a mechanism of action, one member of this series, compound 22, was selected for further evaluation in an electrophysiological model where it was found to reduce norepinephrine function in the cerebellum as measured by the NE augmentation of GABA inhibition of Purkinje neurons.
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PMID:2,4-Dihydro-3H-1,2,4-triazole-3-thiones as potential antidepressant agents. 337 95

Pipecolic acid (PA) is an intermediate of lysine metabolism in the mammalian brain. Recent findings suggest a functional connection of PA as neuromodulator in GABAergic transmission. Since many drugs are postulated to produce their effects by interaction with the central GABA system, the influence of PA on the anticonvulsant activity of phenobarbital was examined. Pretreatment of mice with 50 mg . kg-1 of PA potentiated the suppressing effects of the barbiturate on electrically and chemically induced convulsions. However, there was no potentiation of the behavioral effects and hypothermia induced by phenobarbital. PA itself had no or only little effect on the convulsions, motor function and rectal temperature when given in i.p. doses up to 500 mg . kg-1. Intraventricular administration of 500 microgram of PA also did not suppress either type of convulsion, although it produced ptosis, hypotonia, sedation and hypothermia. The results are discussed in relation to GABA system.
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PMID:Potentiation of phenobarbital-induced anticonvulsant activity by pipecolic acid. 628 9

General pharmacological effects of T-3761, a new oral quinolone antibacterial agent, on the central nervous system were investigated in laboratory animals. The results obtained are summarized as follows. 1. T-3761 exerted no significant effects on spontaneous motor activity, motor coordination, pentobarbital-induced hypnosis, electroshock-, pentetrazole- or strychnine-induced convulsion, acetic acid-induced writhing responses, reserpine-induced hypothermia and ptosis in mice at oral doses of 100, 300 and 1,000 mg/kg. The same oral doses of T-3761 exerted no significant effects on body temperature and passive avoidance response in rats. 2. T-3761 had no effects on EEG in cats and spinal reflex in rats at intravenous doses of 10, 30 and 100 mg/kg. 3. Convulsions were not observed in mice after any oral combinations of T-3761 at a dose of 200 or 1,000 mg/kg with 14 different nonsteroidal anti-inflammatory drugs (NSAIDs) including fenbufen. 4. An oral combination of T-3761 even at a higher doses of 3,000 mg/kg with 4-biphenylacetic acid (BPAA) which is a principally active metabolite of fenbufen also did not induce convulsions in mice. 5. T-3761 did not inhibit GABA receptor binding in rat brain synaptic membranes at 10(-4) M in either the absence or presence of BPAA. These results suggest that T-3761 is an antibacterial agent which would be unlikely to produce any side effects on the central nervous system and to produce convulsion when combined with NSAIDs in clinical use.
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PMID:[General pharmacology of T-3761, a new oral quinolone antibacterial agent (1). Effect on the central nervous system]. 763 4

A great number of the anxiolytics used in the clinical practice are structurally 1,4-benzodiazepines. Tofisopam is the first derivative which differs from the so-called classical benzodiazepines in the position of the nitrogen atoms i.e. in the case of tofisopam they are vicinals (2.3-). This difference in its structure is suspected to be responsible for the different pharmacological and clinical profile of tofisopam. In addition to the anxiolytic activity, sedative, muscle relaxant and anticonvulsive effects are the main characteristics of the most frequently used representative of 1,4-benzodiazepines, diazepam. In contrast, to the above mentioned, tofisopam produces sedation only in higher doses, and does not possess anticonvulsive and appreciable muscle relaxant effects. Tofisopam does not induce sleep even in subtoxic doses, and only high doses enhance the effect of barbiturates and ethanol. Applying doses above 200 mg/kg, tofisopam exhibits effects similar to that of neuroleptics (e.g. catalepsy, ptosis, decrease of pentetrazol threshold, potentiation of amphetamine and apomorphine stereotypy). After repeated administration tolerance to the drug was not observed. Tofisopam does not bind in the CNS neither to the 1,4-benzodiazepine, nor to the GABA receptors, but it enhances the binding of benzodiazepines and muscimol to their binding sites. Tofisopam has also mixed dopamine agonist and antagonist like properties.
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PMID:[Pharmacologic effects of tofizopam (Grandaxin)]. 810 Jan 12

Effects of gamma-vinyl-GABA (GVG), an antiepileptic drug that inhibits GABA transaminase and increases extracellular GABA concentrations in the brain, were investigated on the morphine abstinence syndrome (AS) in male Wistar rats. Two morphine pellets (75 mg morphine base in each) were implanted subcutaneously on the back of the rats. Seventy-two hours after the morphine implantation, naloxone (NL, 2 mg kg-1) was injected intraperitoneally (i.p.) to induce precipitated morphine AS. GVG was administered at the doses of 250 mg kg-1 (n = 11) and 500 mg kg-1 (n = 11) i.p. 24 h prior to AS and at the dose of 500 mg kg-1 (n = 13) i.p. 6 h prior to AS. Immediately after NL injections, rats were observed for 5 min and AS signs (jumping, teeth chattering, wet dog shake, diarrhoea, ptosis and defecation) were assessed. The behavioural signs of GVG-treated rats were compared with the control groups (n = 10) during the AS. Jumping, wet dog shake, teeth chattering were found to be significantly increased in all of the GVG-treated groups. Ptosis was found to have increased in only 500 mg kg-1 GVG groups. GVG potentiated the severity of morphine AS signs. GVG does not seem to have any therapeutic potential for treatment of morphine abstinence unlike some other drugs that enhance GABAergic transmission.
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PMID:Gamma-vinyl-GABA potentiates the severity of naloxone-precipitated abstinence signs in morphine-dependent rats. 969 54

Glutapyrone, a disodium salt of 2-(2,6-dimethyl-3,5-diethoxycarbonyl-1,4-dihydropyridine-4-carboxamido)- glutaric acid, is a representative of a novel 'class' of amino acid-containing 1,4-dihydropyridine (DHP) compounds developed at the Latvian Institute of Organic Synthesis, Riga, Latvia. Conceptually, the glutapyrone molecule can be regarded as a dipeptide-mimicking structure formed by the "free" amino acid (glutamate) moiety and "crypto" (built into the DHP cycle) amino acid ("GABA") elements. Both of these amino acids are joined by the peptide bond. This compound unlike classical DHPs lacks calcium antagonistic or agonistic properties. Our previous studies revealed a profound and long-term anticonvulsant, stress-protective and neurodeficit-preventive activities of glutapyrone. In view of structural properties the role of glutamatergic mechanisms in the mediation of central effects of glutapyrone was considered. In the present study glutapyrone at the concentration range of 1 microM(-1) mM failed to effect both NMDA ([3H]TCP) and non-NMDA ([3H]KA and [3H]AMPA) receptor ligand binding in the rat cortical membranes in vitro. The compound markedly enhanced motor hyperactivity induced by the NMDA antagonist PCP and the dopamine releasing compound D-amphetamine in the rats. Glutapyrone displayed activity in a variety of animal models relevant for affective/depressive disorders in humans i.e. reserpine-induced ptosis and hypothermia, forced swimming test and open field test. These data indicate that the unusually "broad" pharmacological spectrum of glutapyrone might involve concomitant actions on multiple neurotransmitter systems, particularly, GABA-ergic and the catecholamines. It is discussed whether these functional properties are secondary to action on intracellular events, predominantly, G protein-related since glutapyrone appears to lack direct interactions with a number of receptors including ionotropic glutamate and GABA(A)/Bzd receptors.
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PMID:"Atypical" neuromodulatory profile of glutapyrone, a representative of a novel 'class' of amino acid-containing dipeptide-mimicking 1,4-dihydropyridine (DHP) compounds: in vitro and in vivo studies. 992 26

The present study examined the effect of the gamma-aminobutyric acidB (GABA(B)) receptor agonist, baclofen on naloxone-induced withdrawal signs in morphine-dependent rats and modification by the antagonist, 3-aminopropyl-cyclohexylmethylphosphinic acid (CGP 46381). Morphine was administered via mini-osmotic pumps for 7 days to induce physical dependence. Baclofen (20 mg kg(-1)) decreased stereotyped head movements, chewing, chatter, ptosis and body weight loss, induced by naloxone (10 mg kg(-1)) in morphine-dependent rats. CGP 46381 (20 mg kg(-1)) reversed the effects exerted by baclofen on stereotyped head movements, ptosis, and weight loss and partially reversed the effect of baclofen on chewing. It can be concluded that baclofen has some potential in the treatment of opioid withdrawal and that GABA(B) receptors may be implicated in such a withdrawal.
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PMID:Attenuation of morphine withdrawal signs by the GABA(B) receptor agonist baclofen. 1179 9

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