Third Generation Antipsychotic Drugs: Partial Agonism or Receptor Functional Selectivity?

Author(s): Richard B. Mailman, Vishakantha Murthy

Journal Name: Current Pharmaceutical Design

Volume 16 , Issue 5 , 2010

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Functional selectivity is the term that describes drugs that cause markedly different signaling through a single receptor (e.g., full agonist at one pathway and antagonist at a second). It has been widely recognized recently that this phenomenon impacts the understanding of mechanism of action of some drugs, and has relevance to drug discovery. One of the clinical areas where this mechanism has particular importance is in the treatment of schizophrenia. Antipsychotic drugs have been grouped according to both pattern of clinical action and mechanism of action. The original antipsychotic drugs such as chlorpromazine and haloperidol have been called typical or first generation. They cause both antipsychotic actions and many side effects (extrapyramidal and endocrine) that are ascribed to their high affinity dopamine D2 receptor antagonism. Drugs such as clozapine, olanzapine, risperidone and others were then developed that avoided the neurological side effects (atypical or second generation antipsychotics). These compounds are divided mechanistically into those that are high affinity D2 and 5-HT2A antagonists, and those that also bind with modest affinity to D2, 5-HT2A, and many other neuroreceptors. There is one approved third generation drug, aripiprazole, whose actions have been ascribed alternately to either D2 partial agonism or D2 functional selectivity. Although partial agonism has been the more widely accepted mechanism, the available data are inconsistent with this mechanism. Conversely, the D2 functional selectivity hypothesis can accommodate all current data for aripiprazole, and also impacts on discovery compounds that are not pure D2 antagonists.

Keywords: Functional selectivity, antipsychotic drugs, schizophrenia, receptor mechanisms, G protein-coupled receptors, dopamine receptors, serotonin receptors, drug action

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Article Details

Year: 2010
Page: [488 - 501]
Pages: 14
DOI: 10.2174/138161210790361461
Price: $65

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