RATIONALE: Certain compounds that nonselectively inhibit a prominent human nicotine-metabolizing enzyme (i.e., human cytochrome P-450 2A6, hCYP 2A6) showed inhibition of smoking in humans. However, a comprehensive examination of hCYP 2A6 inhibitors to decrease nicotine self-administration in rats has not been reported. OBJECTIVES: We tested substituted heteroaromatic compounds designed to selectively inhibit hCYP 2A6 in a model system to (a) examine selective hCYP 2A6 inhibitors to decrease cotinine formation in vivo in rats administered with nicotine and (b) examine their efficacy to decrease nicotine self-administration in rats. METHODS: Rats were trained to IV self-administer nicotine in 1-h sessions. Nicotine self-administration was carried out at a unit dose of 0.03 mg/kg/infusion in 0.1 ml/s. Pretreatment with substituted heteroaromatic test compounds (0.5-25 mg/kg, i.p., 30 min prior to nicotine self-administration sessions) resulted in dose-dependent decreases of nicotine self-administration. Using operant conditioning techniques, nicotine- vs. food-reinforced responding was evaluated for compounds 10 and 11. RESULTS: Compounds 10 and 11 selectively decreased nicotine self-administration with estimated ED(50) values 4 and 2.8 mg/kg, respectively. Of the test compounds examined, none showed significant affinity for mammalian α4β2- or α7-neuronal nicotinic acetylcholine (nAChR) receptors and none were inhibitors of the human dopamine transporter (hDAT); thus, neither the endogenous nAChRs nor DAT apparently plays a role in decreasing nicotine self-administration for this series of compounds. CONCLUSION: The results indicate that chemical analogs of nicotine can play a role in nicotine self-administration harm reduction but a non-nAChR and a non-hDAT mechanism are likely involved.
RATIONALE: Certain compounds that nonselectively inhibit a prominent humannicotine-metabolizing enzyme (i.e., humancytochrome P-450 2A6, hCYP 2A6) showed inhibition of smoking in humans. However, a comprehensive examination of hCYP 2A6 inhibitors to decrease nicotine self-administration in rats has not been reported. OBJECTIVES: We tested substituted heteroaromatic compounds designed to selectively inhibit hCYP 2A6 in a model system to (a) examine selective hCYP 2A6 inhibitors to decrease cotinine formation in vivo in rats administered with nicotine and (b) examine their efficacy to decrease nicotine self-administration in rats. METHODS:Rats were trained to IV self-administer nicotine in 1-h sessions. Nicotine self-administration was carried out at a unit dose of 0.03 mg/kg/infusion in 0.1 ml/s. Pretreatment with substituted heteroaromatic test compounds (0.5-25 mg/kg, i.p., 30 min prior to nicotine self-administration sessions) resulted in dose-dependent decreases of nicotine self-administration. Using operant conditioning techniques, nicotine- vs. food-reinforced responding was evaluated for compounds 10 and 11. RESULTS: Compounds 10 and 11 selectively decreased nicotine self-administration with estimated ED(50) values 4 and 2.8 mg/kg, respectively. Of the test compounds examined, none showed significant affinity for mammalian α4β2- or α7-neuronal nicotinic acetylcholine (nAChR) receptors and none were inhibitors of the humandopamine transporter (hDAT); thus, neither the endogenous nAChRs nor DAT apparently plays a role in decreasing nicotine self-administration for this series of compounds. CONCLUSION: The results indicate that chemical analogs of nicotine can play a role in nicotine self-administration harm reduction but a non-nAChR and a non-hDAT mechanism are likely involved.
Authors: Jotham W Coe; Paige R Brooks; Michael G Vetelino; Michael C Wirtz; Eric P Arnold; Jianhua Huang; Steven B Sands; Thomas I Davis; Lorraine A Lebel; Carol B Fox; Alka Shrikhande; James H Heym; Eric Schaeffer; Hans Rollema; Yi Lu; Robert S Mansbach; Leslie K Chambers; Charles C Rovetti; David W Schulz; F David Tingley; Brian T O'Neill Journal: J Med Chem Date: 2005-05-19 Impact factor: 7.446
Authors: L I Kruse; C Kaiser; W E DeWolf; J A Finkelstein; J S Frazee; E L Hilbert; S T Ross; K E Flaim; J L Sawyer Journal: J Med Chem Date: 1990-02 Impact factor: 7.446