Difluoromethyl ornithine protects against the neurotoxic effects of intrastriatally administered N-methyl-D-aspartate in vivo.

The neurotoxic effects of intrastriatally administered N-methyl-D-aspartate (NMDA) (250 nmol), as measured by reductions in striatal choline acetyl transferase activity and by increased binding of the glial marker [3H]PK 11195 10 days later, were reduced by coinfusion of the irreversible ornithine decarboxylase inhibitor difluoromethylornithine (250 nmol) in the rat. The data suggest a crucial role for the polyamines in NMDA receptor-mediated neurotoxicity.

The psychopharmacology of GABA synapses: update 1989.

Recent advances in the psychopharmacology of GABA synapses are reviewed. The usefulness of GABA mimetics in tardive dyskinesia and epilepsy has been confirmed, as has a dysfunction of GABA synapses in the etiopathology of these conditions. The antidepressant profile of GABA agonists in animal models for depression has been extended.

The gabaergic hypothesis of depression.

Unlabelled: 1. GABAergic mechanisms have been generally ignored in the study of mood disorders and antidepressant drug (AD) action. Recently data have accumulated indicating that GABAergic mechanisms may be involved in both of these.

Selective antagonists of dopamine receptor subtypes differentially affect substance P levels in the striatum and substantia nigra.

Repeated administration to rats of SCH 23390, a specific antagonist of the D-1 dopamine receptor, produced an increase in the substance P immunoreactivity in the striatum but not in the substantia nigra, whereas similar treatment with sulpiride, a specific D-2 dopamine receptor antagonist, reduced the nigral but not the striatal content of the peptide. When the two antagonists were given together, the SCH 23390-induced increase in striatal substance P was significantly reduced. The SCH 23390-induced increase in striatal substance P was curtailed by concomitant administration of progabide, a selective gamma-aminobutyric acid (GABA) receptor agonist.

Fengabine, a novel antidepressant GABAergic agent. II. Effect on cerebral noradrenergic, serotonergic and GABAergic transmission in the rat.

The effects of fengabine (a novel benzylidene derivative possessing clinically demonstrated antidepressant action) on neurochemical parameters related to norepinephrine, serotonin and gamma-aminobutyric acid (GABA) neurons have been investigated in the rat and mouse brain. When given acutely, fengabine (50-1000 mg/kg i.p.

Fengabine, a novel antidepressant GABAergic agent. I. Activity in models for antidepressant drugs and psychopharmacological profile.

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.

GABA receptor agonists and extrapyramidal motor function: therapeutic implications for Parkinson's disease.

GABA receptor agonists display a dual action on DA-mediated events. One includes a decrease in DA release, reduction in DA receptor density, and decreased response of postsynaptic cells to dopaminergic stimulation; it results in antidopaminergic effects. The other consists of a reduction of striatal cholinergic activity resulting in a facilitation of dopaminergic effects.

GABA and affective disorders.

Recently sufficient evidence has accumulated to propose that a central GABAergic dysfunction may be primarily related to the pathology of affective disorders and that antidepressant mechanisms (pharmacological or electroconvulsive therapy, ECT) have an intrinsic GABAergic component. In depressed patients GABA levels are reported to be low in the CSF and plasma, and GABA synthesis is decreased in some brain areas, including the frontal cortex. GABAmimetics such as progabide and fengabine exert a therapeutic effect in depression.

Zolpidem, a novel nonbenzodiazepine hypnotic. I. Neuropharmacological and behavioral effects.

Zolpidem [N,N,6-trimethyl-2-(4-methylphenyl)imidazo[1,2-a]pyridine-3-acetamide hemitartrate] is reported to be a rapid onset, short duration hypnotic that interacts at the benzodiazepine recognition site. The present report establishes the neuropsychopharmacological profile of zolpidem and compares it with those of benzodiazepine hypnotics. Although in mice the effects of zolpidem are qualitatively similar to those of midazolam, triazolam and flunitrazepam, sedation with zolpidem occurs at doses 10 and 20 times lower than those inducing anticonvulsant and myorelaxant effects, respectively.

Non-benzodiazepine anxiolytics: potential activity of phenylpiperazines without 3H-diazepam displacing action.

Four phenylpiperazine derivatives exhibited an activity similar to benzodiazepines and meprobamate in the 4-plate test. One of these (compound IV) demonstrated anxiolytic like activity in a step-down avoidance technique, in electroshock induced aggression and in the staircase test. In contrast to benzodiazepines, compound IV was not anticonvulsant, myorelaxant or sedative.

Progabide reverses the nigral substance P reduction induced by chronic impairment of dopaminergic transmission.

Repeated treatment with haloperidol or lesion of nigrostriatal dopaminergic neurons with 6-hydroxydopamine produced a reduction in substance P immunoreactivity in the rat substantia nigra. This reduction was reversed by the repeated administration of progabide, a selective GABA receptor agonist. As GABA inhibits substance P release, these results suggest that the reduction in nigral substance P levels was due to an increased liberation of the peptide probably related to deficient GABAergic function induced by impairment of striatal dopaminergic transmission.

Influence of GABA mimetics and lithium on biochemical manifestations of striatal dopamine target cell hypersensitivity.

The potential mechanisms whereby GABA mimetics and the antimanic agent lithium stabilize dopaminergic transmission are discussed. Evidence is presented that GABA mimetics, and in particular progabide, affect dopamine-mediated events in the basal ganglia on at least three levels. First, they reduce dopamine neuron activity in both the basal and the activated states.

GABA receptor agonists: pharmacological spectrum and therapeutic actions.

From the data discussed in this review it appears that GABA receptor agonists exhibit a variety of actions in the central nervous system, some of which are therapeutically useful (Table V). GABA receptor agonists, by changing the firing rate of the corresponding neurons accelerate noradrenaline turnover without changes in postsynaptic receptor density and diminish serotonin liberation with an up-regulation of 5HT2 receptors. These effects differ from those of tricyclic antidepressants which primarily block monoamine re-uptake and cause down-regulation of beta-adrenergic and 5HT2 receptors.

Involvement of the D-2 dopamine receptor in the neuroleptic-induced decrease in nigral substance P.

Repeated treatment with, but not single administration of drugs which impair dopaminergic transmission produced a consistent reduction in substance P immunoreactivity in the rat substantia nigra. This effect appears to be related to the D-2 dopamine receptor function as the blockade of this receptor subtype by selective antagonists produced effects qualitatively similar to those produced by drugs lacking selectivity for different subclasses of dopamine receptors.

Experimental basis for the antidepressant action of the GABA receptor agonist progabide.

gamma-Aminobutyric acid (GABA) receptor agonists (e.g. progabide) are effective in behavioral tests predictive of antidepressant drug action.

Pharmacology of the GABAergic system: effects of progabide, a GABA receptor agonist.

Stimulation of GABA receptors (e.g. by progabide, a new GABA receptor antagonist, or by muscimol) enhances the liberation of norepinephrine in limbic forebrain areas of the rat and reduces 5-hydroxytryptamine turnover.

The potential use of GABA agonists in psychiatric disorders: evidence from studies with progabide in animal models and clinical trials.

Progabide, a new antiepileptic GABA agonist of moderate affinity for GABA receptors, has been studied in a number of psychiatric disorders and the results compared with the action of this drug in animal models. In an animal model for anxiety (the aversive response to periaqueductal grey stimulation in the rat) progabide had a similar action to that of diazepam. However in clinical trials to date the effect of the GABA agonist was inferior to that of benzodiazepines.

Pharmacological and therapeutic actions of GABA receptor agonists.

GABA receptor agonists, e.g. progabide, modify the activity of several brain neuronal systems which are implicated in the pathogenesis of some neuropsychiatric disorders.

[3H]Haloperidol labels brain dopamine receptors after its injection into the internal carotid artery of the rat.

Pulse injection of [3H]haloperidol (0.2 microCi; 0.003 microgram) into the internal carotid artery of the rat specifically labelled dopamine receptors in striatum and olfactory tubercle, as indicated by the kinetics of, and the effects of neuroleptic drugs on, the ligand disposition.

gamma-Aminobutyric acid (GABA) receptor stimulation. I. Neuropharmacological profiles of progabide (SL 76002) and SL 75102, with emphasis on their anticonvulsant spectra.

Progabide (4-([(4-chlorophenyl) (5-fluoro-2-hydroxyphenyl)-methylene]amino) butanamide) is a gamma-aminobutyric acid (GABA) receptor agonist which readily enters the brain. In the body, progabide is metabolized to three active metabolites: SL 75102, gabamide and GABA. Progabide and SL 75102 readily enter the brain and GABA and gabamide are also formed within this organ.