osu-6162 and Psychotic-Disorders

The early demonstration of chlorpromazine efficacy in schizophrenia and its subsequent identification as a dopamine receptor antagonist, established the only known mechanism for antipsychotic development to date. By extension, it is easy to hypothesize that any mechanism shown to reduce dopamine-mediated transmission in brain will have antipsychotic properties. The evaluation of partial dopamine agonists for antipsychotic efficacy and their application in the treatment of psychosis has derived from this background. Partial dopamine agonists at the D2 dopamine receptor, have high affinity for that receptor, but reduced intrinsic activity. These agonists have higher affinity for the presynaptic autoreceptor than for the postsynaptic receptor. Hence, these compounds reduce dopamine synthesis and release through an agonist action at the dopamine autoreceptor. Moreover, the agonists have lower intrinsic activity at the postsynaptic receptor than its natural ligand dopamine. Therefore, they diminish the dopaminergic signal at postsynaptic sites as well through delivering a reduced message; this component of drug action becomes more prominent the lower the intrinsic activity of the drug. Several partial dopamine agonists have been evaluated in schizophrenia. One of them, aripiprazole, is nearing approval for marketing. With partial dopamine agonist treatment, advantages should accrue to schizophrenia treatment in the areas of affect control and cognitive performance.

Topics: Animals; Dopamine Agonists; Humans; Piperidines; Psychotic Disorders; Receptors, Dopamine; Schizophrenia

A series of 1-propyl-4-arylpiperidines were synthesized and their effects on the dopaminergic and serotonergic systems tested in vivo and in vitro. Scaffold jumping among five- and six-membered bicyclic aryl rings attached to the piperidine ring had a marked impact on these effects. Potent and selective dopamine D(2) receptor antagonists were generated from 3-indoles, 3-benzoisoxazoles, 3-benzimidazol-2-one, and 3-benzothiophenes. In contrast, 3-benzofuran was a potent and selective inhibitor of monoamine oxidase (MAO) A. The effects of the synthesized compounds on 3,4-dihydroxyphenylacetic acid (DOPAC) levels correlated very well with their affinity for dopamine D(2) receptors and MAO A. In the 4-arylpiperidine series, the most promising compound for development was the 6-chloro-3-(1-propyl-4-piperidyl)-1H-benzimidazol-2-one (19), which displayed typical dopamine D(2) receptor antagonist properties in vivo but produced only a partial reduction on spontaneous locomotor activity. This indicates that the compound may have a lower propensity to induce parkinsonism in patients.

Topics: Animals; Behavior, Animal; Brain; Dopamine; Dopamine Agents; Dopamine D2 Receptor Antagonists; Locomotion; Molecular Structure; Psychotic Disorders; Rats; Serotonin; Serotonin Receptor Agonists; Structure-Activity Relationship

Although the Van Rossum hypothesis of dopamine receptor overactivity in schizophrenia is supported by the antagonism of, or reduced dopamine neurotransmission at, dopamine D2 receptors by antipsychotics, it has been claimed that the antipsychotic (-)-OSU6162 has a very low affinity for the dopamine D2 receptor, and has only autoreceptor dopamine D2 receptor-stimulating action, and, therefore, in order to explain its clinical action, the drug must stimulate dopamine D2 receptors that are defective or underactive in schizophrenia. Because the mode of action of (-)-OSU6162 is critical in determining whether psychosis is associated with dopamine D2 receptor overactivity or deficit activity, we measured the potency of (-)-OSU6162 on the binding of [3H]domperidone and on the incorporation of [35S]-GTP-gamma-S into human cloned dopamine D2 receptor-containing cells. We found that (-)-OSU6162 had a dissociation constant of 35 nM at the functional high-affinity site of the dopamine D2 receptor, stimulated the incorporation of [35S]-GTP-gamma-S above 100 nM, and inhibited the incorporating action of 1 microM dopamine with an inhibitory dissociation constant, Ki, of 27 nM, all being properties of a dopamine partial agonist. While not excluding the possibility that dopamine underactivity may exist in the mesocortical system in psychosis, the antipsychotic action of (-)-OSU6162 is consistent with dopamine overactivity in psychosis.

Topics: Animals; Antipsychotic Agents; CHO Cells; Clone Cells; Cricetinae; Cricetulus; Dopamine; Dopamine Agonists; Humans; Hyperkinesis; Kinetics; Piperidines; Psychotic Disorders; Receptors, Dopamine D2