Electronic cigarette use has significantly increased over the past decade. However, there is limited preclinical research on the behavioral and abuse-related effects of nicotine vapor inhalation in rodents. The present… Click to show full abstract
Electronic cigarette use has significantly increased over the past decade. However, there is limited preclinical research on the behavioral and abuse-related effects of nicotine vapor inhalation in rodents. The present study evaluates the effects of repeated nicotine vapor inhalation in male and female mice using a nicotine behavioral sensitization model. Male and female C57BL/6 mice were administered vaporized nicotine (0–10.0 mg/ml) or the positive control of intraperitoneally administered nicotine (0.5 mg/kg) once daily for 5 days, and locomotor activity was assessed. Body temperatures were measured before and after nicotine vapor inhalation to assess hypothermia. Nicotine vapor inhalation (1.0–3.0 mg/ml) produced a dose-dependent behavioral sensitization effect and produced hypothermia in male and female mice. Nicotine (0.5 mg/kg) also produced significant behavioral sensitization. No sex differences were found for nicotine behavioral sensitization with either route of administration. Pretreatment with the nonselective nicotinic antagonist mecamylamine blocked the behavioral sensitization produced by 1.0 mg/ml of nicotine vapor inhalation. These results established that nicotine vapor inhalation produces behavioral sensitization in an inverted U-shaped curve that is similar to the effects of injected nicotine across several behavioral models. Additionally, pretreatment with mecamylamine demonstrated that nicotinic receptor activation was responsible for the behavioral sensitization produced by nicotine vapor inhalation and was not a conditioned response to the vapor. The methods used in the present study provide an additional behavioral approach for evaluating the behavioral effects of repeated nicotine vapor inhalation that allows the manipulation of several variables, including e-liquid oil blend, e-liquid flavors, puff duration, etc.
               
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