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  • Title: Potent lipophilic substituted benzamide drugs are not selective D-1 dopamine receptor antagonists in the rat.
    Author: Fleminger S, van de Waterbeemd H, Rupniak NM, Reavill C, Testa B, Jenner P, Marsden CD.
    Journal: J Pharm Pharmacol; 1983 Jun; 35(6):363-8. PubMed ID: 6135774.
    Abstract:
    The substituted benzamide drugs YM 09151-2 and clebopride potently inhibited apomorphine-induced stereotyped behaviour in the rat and caused displacement of the specific binding of [3H]spiperone to D-2 binding sites on striatal membranes in low nanomolar concentrations. Other substituted benzamide drugs including metoclopramide, sultopride and flubepride also inhibited stereotyped behaviour to a greater or lesser degree, but were less potent in displacing [3H]spiperone from D-2 sites. YM 09151-2 and clebopride only weakly displaced specific binding of [3H]piflutixol to D-1 sites on rat striatal membranes, and only weakly inhibited striatal dopamine stimulated adenylate cyclase activity, when compared with cis-flupenthixol. The other substituted benzamide drugs did not displace [3H]piflutixol or inhibit dopamine stimulation of adenylate cyclase activity in the concentration range used. Clebopride and YM 09151-2 were highly lipophilic with apparent partition coefficient (log P') values equivalent to those of classical neuroleptic compounds, such as cis-flupenthixol. In contrast, the other substituted benzamide drugs were markedly less lipophilic. A log P' value of approximately 2 was required before inhibition of adenylate cyclase activity or displacement of [3H]piflutixol binding occurred. However, in excess of this value there was no correlation between either inhibition of adenylate cyclase activity or displacement of [3H]piflutixol binding and the lipophilicity of the various compounds. We conclude that potent lipophilic substituted benzamide drugs, like other members of the substituted benzamide series, are selective D-2 receptor antagonists. Inherent steric factors within the drug series would appear to dictate activity at D-1 and D-2 sites, although lipophilicity may contribute to actions in these environments.
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