Pre-clinical properties of the alpha4beta2 nicotinic acetylcholine receptor partial agonists varenicline, cytisine and dianicline translate to clinical efficacy for nicotine dependence.

Abstract	BACKGROUND AND PURPOSE: Smoking cessation trials with three high-affinity partial agonists of alpha4beta2 neuronal nicotinic acetylcholine receptors (nAChRs) have demonstrated differences in their clinical efficacy. This work examines the origin of the differences by taking into account brain exposure and pharmacological effects at human alpha4beta2 nAChRs. EXPERIMENTAL APPROACH: Rat plasma and brain pharmacokinetics were characterized and used to predict human steady-state plasma and brain concentrations following recommended doses of each of the three compounds. The pharmacological characterization included in vitro affinities at different nAChR subtypes, functional efficacies and potencies at the human alpha4beta2 nAChR, as well as in vivo effects on rat mesolimbic dopamine turn-over. KEY RESULTS: A comparison of predicted human brain concentrations following therapeutic doses demonstrated that varenicline and nicotine, but not dianicline and cytisine, can extensively desensitize and, to a lesser extent, activate alpha4beta2 nAChRs. The limited clinical efficacy of dianicline may be accounted for by a combination of weak functional potency at alpha4beta2 nAChRs and moderate brain penetration, while recommended doses of cytisine, despite its high in vitro potency, are predicted to result in brain concentrations that are insufficient to affect alpha4beta2 nAChRs. CONCLUSIONS AND IMPLICATIONS: The data provide a plausible explanation for the higher abstinence rate in smoking cessation trials following treatment with varenicline than with the two other alpha4beta2 nAChR partial agonists. In addition, this retrospective analysis demonstrates the usefulness of combining in vitro and in vivo parameters with estimated therapeutic human brain concentrations for translation to clinical efficacy.
Authors	H Rollema, A Shrikhande, K M Ward, F D Tingley 3rd, J W Coe, B T O'Neill, E Tseng, E Q Wang, R J Mather, R S Hurst, K E Williams, M de Vries, T Cremers, S Bertrand, D Bertrand
Journal	British journal of pharmacology (Br J Pharmacol) Vol. 160 Issue 2 Pg. 334-45 (May 2010) ISSN: 1476-5381 [Electronic] England
PMID	20331614 (Publication Type: Comparative Study, Journal Article, Research Support, Non-U.S. Gov't)
Chemical References	ATP Binding Cassette Transporter, Subfamily B Alkaloids Azepines Azocines Benzazepines Heterocyclic Compounds, 4 or More Rings Nicotinic Agonists P-glycoprotein 2 Quinolizines Quinoxalines Receptors, Nicotinic nicotinic receptor alpha4beta2 cytisine multidrug resistance protein 3 Dopamine Varenicline dianicline
Topics	ATP Binding Cassette Transporter, Subfamily B (genetics) Alkaloids (pharmacokinetics, pharmacology) Animals Azepines (pharmacokinetics, pharmacology) Azocines (pharmacokinetics, pharmacology) Benzazepines (pharmacokinetics, pharmacology) Brain (metabolism) Dopamine (metabolism) Heterocyclic Compounds, 4 or More Rings (pharmacokinetics, pharmacology) Humans Limbic System (drug effects, metabolism) Male Mice Mice, Knockout Nicotinic Agonists (pharmacokinetics, pharmacology) Quinolizines (pharmacokinetics, pharmacology) Quinoxalines (pharmacokinetics, pharmacology) Rats Rats, Sprague-Dawley Receptors, Nicotinic (drug effects) Smoking Cessation (methods) Tissue Distribution Tobacco Use Disorder (drug therapy, physiopathology) Varenicline Xenopus laevis

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