1. Academic Validation
  2. Lack of abuse potential in a highly selective dopamine D3 agonist, PF-592,379, in drug self-administration and drug discrimination in rats

Lack of abuse potential in a highly selective dopamine D3 agonist, PF-592,379, in drug self-administration and drug discrimination in rats

  • Behav Pharmacol. 2012 Jun;23(3):280-91. doi: 10.1097/FBP.0b013e3283536d21.
Gregory T Collins 1 Paul Butler Chris Wayman Sian Ratcliffe Paul Gupta Geoffrey Oberhofer S Barak Caine
Affiliations

Affiliation

  • 1 Alcohol & Drug Abuse Research Center, Division of Neuroscience, McLean Hospital, Harvard Medical School, Belmont, Massachusetts 02478, USA. gcollins@mclean.harvard.edu
Abstract

Dopamine D3-preferring agonists are commonly used to treat Parkinson's disease and restless leg syndrome; however, laboratory animal studies suggest that they may possess a moderate abuse potential. These studies aimed to compare the highly selective, full D3 agonist PF-592,379 to the less selective D3 agonist 7-OH-DPAT, and the indirect dopamine agonist cocaine in drug self-administration and discrimination assays. Although rats readily acquired high rates of fixed ratio (FR)1 responding for cocaine, experimentally naive rats failed to acquire responding when 7-OH-DPAT or PF-592,379 was made available during an 18-session acquisition period. Cocaine also maintained dose-dependent levels of responding when available under a FR5 or a progressive ratio (PR) schedule of reinforcement. Although 7-OH-DPAT maintained modest levels of responding when substituted under a FR5, it failed to maintain significant levels of PR responding. PF-592,379 maintained saline-like rates of responding when substituted under FR5 or PR schedules of reinforcement. Similar behavioral profiles were observed in cocaine discrimination assays, with 7-OH-DPAT partially substituting for cocaine, and PF-592,379 producing saline-like effects over a wide range of doses. Together, the results of these studies predict that highly selective D3 agonists, such as PF-592,379, will have low abuse potential in humans.

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