TY - JOUR T1 - Assessment of abuse-related discriminative stimulus effects of nicotine aerosol in rodents JF - Journal of Pharmacology and Experimental Therapeutics JO - J Pharmacol Exp Ther DO - 10.1124/jpet.122.001520 SP - JPET-AR-2022-001520 AU - Yasmin Alkhlaif AU - Keith L. Shelton Y1 - 2023/01/01 UR - http://jpet.aspetjournals.org/content/early/2023/03/14/jpet.122.001520.abstract N2 - The rapid increase in e-cigarette use highlights the importance of developing relevant, predictive animal models to explore their potential health implications. The goal of the present study was to examine the abuse-related effects of e-cigarette aerosol in rodents using puffing conditions similar to those in human e-cigarette users. We evaluated the discriminative stimulus effects of discrete puffs of inhaled nicotine in rats that had been trained to discriminate injected nicotine from saline. Locomotor activity measurement following exposure to injected and aerosolized nicotine was also assessed as an additional behavioral outcome. We hypothesized that the stimulus effects of nicotine aerosol was CNS mediated and comparable to that produced by an injected nicotine training stimulus. We further hypothesized that number of aerosol puffs and the e-liquid nicotine concentration which was aerosolized would impact the substitution of nicotine aerosol for injected nicotine. Both nicotine injections and exposures to nicotine aerosol produced a dose-dependent effect on locomotor activity. Nicotine aerosol under our puffing conditions produced e-liquid nicotine concentration-dependent and puff-number-dependent complete substitution for the injected nicotine training condition. The nicotinic antagonist, mecamylamine, completely blocked nicotine-appropriate responding produce by the training dose of 0.3 mg/kg injected nicotine as well as that resulting from exposure to aerosol puffs generated by e-liquid containing 3 mg/ml nicotine, demonstrating that the stimulus of inhaled nicotine was most likely CNS-mediated and not due to olfactory stimulus properties. Overall, the results support the hypothesis that aerosol exposure drug discrimination model in rodents has applicability to studying the abuse-related effects of e-cigarettes. Significance Statement Animal models of nicotine aerosol exposure using testing conditions resembling human e-cigarette use are lacking. In this study, we test a novel preclinical model of nicotine vaping in rodents which allows for the exploration of the abuse-related effects of e-cigarettes. This model has the potential to contribute both to our understanding of the abuse-related pharmacological effects of e-cigarettes as well as aid in the development of rationale, evidence-based e-cigarette regulatory policies. ER -