Tolerance and sensitization to stimulant and depressant effects of nicotine in intracranial self-stimulation in the rat.

Nicotine is thought to be an important factor in addiction to tobacco but its psychopharmacological properties are still uncertain. In the present study, rats were trained to operate a pedal to obtain threshold-current, variable-interval hypothalmic stimulation. Response rates were printed out at 10min intervals to provide a continuous record of facilitatory or depressant effects by injected nicotine. Responding was enhanced in all rats but this depended on dose, time after injection, and previous exposure to the drug. In the first 10min after injection, responding by drug-naive rats was either unaffected (40-130mg/kg s.c., as base) or strongly depressed (400µg/kg). This phase was followed by prolonged (>50min) dose-dependent facilitation. Higher doses (1.3mg/kg) caused prostration. Chronic exposure to nicotine (400µg/kg x 10 at 2-5 day intervals) reduced the initial depressant effect; it also augmented subsequent responding, but only in the early minutes after injection; the latter finding indicates that apparent sensitization to chronic nicotine may depend primarily on tolerance to its depressant effects, rather than on receptor upregulation. Stimulant and depressant effects of nicotine were prevented by pretreatment with the centrally acting antagonist, mecamylamine (2.0mg/kg s.c.), but not by the peripheral antagonist, hexamethonium (1.0mg/kg s.c.) or by the muscarinic receptor antagonist, hyoscine (scopolamine; 100-300µg/kg s.c.). Self-stimulation was unaffected by mecamylamine alone. Thus the inhibitory action of nicotine is unlikely to be due to depolarization block, peripheral activity or muscarinic activity. Its facilitatory and depressant effects appear to be narrowly time- and dose-specific, thus accounting for divergent findings in many studies.