• Journal Article

Acute Nicotine Differentially Impacts Anticipatory Valence- and Magnitude-Related Striatal Activity


Rose, E., Ross, T. J., Salmeron, B. J., Lee, M., Shakleya, D. M., Huestis, M. A., & Stein, E. A. (2013). Acute Nicotine Differentially Impacts Anticipatory Valence- and Magnitude-Related Striatal Activity. Biological Psychiatry, 73(3), 280-288. DOI: 10.1016/j.biopsych.2012.06.034


Background: Dopaminergic activity plays a role in mediating the rewarding aspects of abused drugs, including nicotine. Nicotine modulates the reinforcing properties of other motivational stimuli, yet the mechanisms of this interaction are poorly understood. This study aimed to ascertain the impact of nicotine exposure on neuronal activity associated with reinforcing outcomes in dependent smokers. Methods: Smokers (n = 28) and control subjects (n = 28) underwent functional imaging during performance of a monetary incentive delay task. Using a randomized, counterbalanced design, smokers completed scanning after placement of a nicotine or placebo patch; nonsmokers were scanned twice without nicotine manipulation. In regions along dopaminergic pathway trajectories, we considered event-related activity for valence (reward/gain vs. punishment/loss), magnitude (small, medium, large), and outcome (successful vs. unsuccessful). Results: Both nicotine and placebo patch conditions were associated with reduced activity in regions supporting anticipatory valence, including ventral striatum. In contrast, relative to controls, acute nicotine increased activity in dorsal striatum for anticipated magnitude. Across conditions, anticipatory valence-related activity in the striatum was negatively associated with plasma nicotine concentration, whereas the number of cigarettes daily correlated negatively with loss anticipation activity in the medial prefrontal cortex only during abstinence. Conclusions: These data suggest a partial dissociation in the state-and trait-specific effects of smoking and nicotine exposure on magnitude-and valence-dependent anticipatory activity within discrete reward processing brain regions. Such variability may help explain, in part, nicotine's impact on the reinforcing properties of nondrug stimuli and speak to the continued motivation to smoke and cessation difficulty