Antipsychotic drugs which elicit little or no parkinsonism bind more loosely than dopamine to brain D2 receptors, yet occupy high levels of these receptors.

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Seeman P, Tallerico T

Antipsychotic drugs which elicit little or no parkinsonism bind more loosely than dopamine to brain D2 receptors, yet occupy high levels of these receptors.

Mol Psychiatry. 1998 Mar;3(2):123-34.

PubMed ID

9577836 [ View in PubMed

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Abstract

This review addresses two questions. First, why does clozapine apparently occupy low levels of dopamine D2 receptors in patients, in contrast to all other antipsychotic drugs which occupy 70-80% of brain dopamine D2 receptors? Second, what is the receptor basis of action of antipsychotic drugs which elicit low levels of Parkinsonism? Antipsychotic doses of clozapine occupy between 0% and 50% of D2 receptors, as measured in patients by a variety of radioligands. It has recently been found, however, that the percent occupancy of a receptor by a drug depends on the radioligand used to measure that receptor. Based on this new finding, this review concludes that clozapine clinically occupies high levels of D2 receptors in the absence of any radioligand. This occupancy is estimated to be of the order of 70-80% in the dopamine-rich region of the human striatum, and even higher in the limbic D2-containing regions which are low in endogenous synaptic dopamine. This conclusion arises from two different approaches. One approach is to relate the reported clozapine occupancies in the human striatum with the dissociation constants of the various radioligands at the D2 receptor. This relation extrapolates to approximately 70-80% occupancy by clozapine when clozapine competes with endogenous dopamine at the D2 receptor. The second approach is to calculate the D2 occupancy of each antipsychotic drug, using the average spinal fluid concentration and the correct dissociation constant of the antipsychotic, thereby revealing that all antipsychotic drugs, including clozapine, occupy approximately 70-80% of dopamine D2 receptors in the human striatum, and possibly higher in the limbic regions. As determined by the new dissociation constants, antipsychotic drugs which elicit Parkinsonism (trifluperazine, chlorpromazine, raclopride, haloperidol, fluphenazine, risperidone) bind more tightly than dopamine to D2, while those antipsychotic drugs which elicit little or no Parkinsonism (melperone, seroquel, perlapine, clozapine, remoxipride, molindone, sulpiride, olanzapine, sertindole) bind more loosely than dopamine to D2 receptors. Compared to the tightly bound antipsychotic drugs, the more loosely bound antipsychotics generally require higher clinical doses, require fewer days for clinical adjustment, but may dissociate from the D2 receptor more rapidly and could lead to clinical relapse somewhat earlier than that found with the traditional tightly bound antipsychotic drugs.

DrugBank Data that Cites this Article

Drugs

Remoxipride

Drug Targets

Drug	Target	Kind	Organism	Pharmacological Action	Actions
Molindone	Dopamine D2 receptor	Protein	Humans	Yes	Antagonist	Details

Binding Properties

Drug	Target	Property	Measurement	pH	Temperature (°C)
Chlorpromazine	5-hydroxytryptamine receptor 2A	Ki (nM)	1.8	N/A	N/A	Details
Clozapine	5-hydroxytryptamine receptor 2A	Ki (nM)	3.5	N/A	N/A	Details
Fluphenazine	5-hydroxytryptamine receptor 2A	Ki (nM)	3.2	N/A	N/A	Details
Haloperidol	5-hydroxytryptamine receptor 2A	Ki (nM)	46	N/A	N/A	Details
Iloperidone	5-hydroxytryptamine receptor 2A	Ki (nM)	0.12	N/A	N/A	Details
Loxapine	5-hydroxytryptamine receptor 2A	Ki (nM)	2	N/A	N/A	Details
Molindone	5-hydroxytryptamine receptor 2A	Ki (nM)	5800	N/A	N/A	Details
Olanzapine	5-hydroxytryptamine receptor 2A	Ki (nM)	3	N/A	N/A	Details