Analogues of clozapine, some prepared by a novel, shorter synthesis than those described previously, were evaluated as potential antipsychotic agents using clozapine binding sites in rat forebrain that are nonmuscarinic and nondopaminergic in nature and from which [3H]clozapine is displaced by known antipsychotic agents. The binding of clozapine to muscarinic sites is inhibited in the presence of atropine. Displacement of [3H]clozapine by an analogue of clozapine in the presence of atropine represents nonmuscarinic binding, while displacement in the absence of atropine represents muscarinic (cholinergic) plus nonmuscarinic binding. The relative affinity of the analogues for dopamine binding sites was determined by their ability to displace [3H]spiroperidol from binding sites in rat caudate nuclei. To the extent which binding affinity for nonmuscarinic clozapine sites in rat forebrain reflects the antipsychotic potential of a particular drug, dibenzo-5H-cycloheptene analogues of clozapine are as effective as clozapine itself. Strong binding to nonmuscarinic clozapine sites is not dependent on the presence of a chlorine atom on th tricyclic system. One or both of the nitrogen atoms in the dibenzo-5H-[1,4]diazepine ring of clozapine appear to be necessary for the strong inhibition of clozapine binding to spiroperidol sites in rat caudate nuclei. Anticholinergic activity is substantially higher for clozapine and its dibenz[1,4]oxazepine analogue than for its benzo-5H-cycloheptene analogue.
Die Indanole (II) ergeben über die Indanole (III) und Indene (IV) die Benzoylphenylessigsäuren (V), die nach Reduktion zu den tricyclischen Ketonen (VI) cyclisiert werden.
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