Ralph Schmiechen scite author profile

The gamma-aminobutyric acid (GABA)-benzodiazepine receptor complex, which is composed of distinct proteins embedded in the neuronal plasma membrane, is important for several effects of benzodiazepines, including protection afforded against convulsions. During structural modification of ethyl beta-carboline-3-carboxylate an agent was discovered which has high affinity for brain benzodiazepine receptors but which is a potent convulsant. Also in contrast to benzodiazepines, this type of benzodiazepine receptor ligand favors benzodiazepine receptors in the non-GABA-stimulated conformation, which may explain the convulsive properties.

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Stereospecific binding of the antidepressant rolipram to brain protein structures

Schneider¹,

Schmiechen²,

Brezinski³

et al. 1986

European Journal of Pharmacology

231

128

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Evaluation of the ?-carboline ZK 93 426 as a benzodiazepine receptor antagonist

et al. 1984

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We describe here biochemical and pharmacological effects of the beta-carboline ZK 93426 was compared with Ro 15-1788 and CGS 8216, two compounds previously described as BZ receptor antagonists. Certain effects of ZK 93426, Ro 15-1788 and CGS 8216 were quite similar (e.g., 3H-FNM displacement, "GABA ratio", "photo-shift"). In most pharmacological tests ZK 93426 and Ro 15-1788 lacked overt effects; Ro 15-1788 was a weak agonist in some paradigms, while ZK 93426 exhibited a potent proconflict effect but also a weak anticonvulsant effect. This interesting finding with ZK 93426 suggests that BZ receptor ligands may possess differential efficacy at BZ receptor subtypes. In contrast, CGS 8216 exhibited potent proconvulsant effects in several paradigms in addition to proconflict and pentylenetetrazol generalizing effects. ZK 93426, Ro 15-1788 and CGS 8216 were almost equally potent as antagonists of the effects of BZ receptor agonists, such as diazepam and lorazepam. However, ZK 93426 was the most potent inhibitor of the convulsions produced by the BZ receptor inverse agonist DMCM.

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Close correlation between behavioural response and binding in vivo for inhibitors of the rolipram-sensitive phosphodiesterase

Schmiechen¹,

Schneider²,

Wachtel³

1990

Psychopharmacology

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The antidepressant rolipram interacts in vitro with a binding site in brain tissue labeled by 3H-rolipram. A 3H-rolipram binding assay was employed in vivo to compare the affinity of rolipram-related compounds and reference phosphodiesterase (PDE) inhibitors with their potency in behavioural measures for potential antidepressant property. In two species, mice and rats, the potency of a number of compounds to antagonise reserpine-induced hypothermia (mice) and to induce head twitches (rats) was determined, as well as their potency to displace 3H-rolipram from forebrain binding sites in vivo. The treatment schedules for the two series of experiments were identical. Significant correlations between pharmacological effects and displacement of 3H-rolipram binding in vivo were observed in both species. Since the reference PDE inhibitors closely fit into the binding-pharmacological activity relationship, the PDE inhibitory properties of the substances involved are discussed.

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ZK 91296, a partial agonist at benzodiazepine receptors

et al. 1984

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5-benzyloxy-4-methoxymethyl-beta-carboline-3-carboxylate) is a potent and selective ligand for benzodiazepine (BZ) receptors. Biochemical investigations indicate that ZK 91296 may be a partial agonist at BZ receptors. Such partial agonism may explain to some extent why ZK 91296 needs higher BZ receptor occupancy than diazepam for the same effect against chemical convulsants and for behavioural effects. The lack of sedative effects, and the very potent inhibition of reflex epilepsy, spontaneous epilepsy and DMCM-induced seizures suggest, furthermore, that ZK 91296 may possess pharmacological selectivity for a particular type of BZ receptor interaction, perhaps including topographic as well as receptor subtype differentiation.

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