Neurobiology of Nicotine and Non-nicotine Components of Tobacco Addiction

Overview

In the present study the investigators will measure the effects of nicotine and non-nicotine factors on brain function during cognitive processes that are differentially sensitive to these factors. One process-continuous working memory (CWM)-is implemented via a network of frontal and parietal brain regions and is highly dopamine dependent. Smoking cessation results in significant deficits in CWM which can persist for weeks and are reversed by resumption of nicotine administration in the form of smoking or nicotine replacement. Additionally, CWM deficits are observed during smoking of denic cigarettes. Brain function during CWM is modulated by smoking abstinence and subsequent nicotine administration and activity in the dlPFC is implicated in these effects. Collectively, these data suggest that CWM is highly sensitive to the nicotine, but not non-nicotine components of smoking. Brain function during CWM is altered by smoking abstinence and nicotine, but the effect of smoking, in the absence of nicotine, has not been evaluated. Another process-cue-reactivity (CR)-results from the repeated pairing of otherwise neutral stimuli with nicotine administration. Acute smoking cessation has not been shown to have strong effects on CR in the form of cue-provoked craving, nor has nicotine replacement been shown to have robust effects on CR. Likewise, the direct effects of smoking abstinence on brain CR have been small; though craving has been shown to modulate relations between abstinence and CR. Moreover, recent data from our lab suggest larger 'doses' of abstinence (\~ 24 hrs) may amplify brain responses to cues. The effect of smoking in the absence of nicotine, on CR has not, to our knowledge, been evaluated. Collectively, these data suggest that CR in the form of cue-induced craving is not highly sensitive to the effects of short-term smoking abstinence or nicotine. Brain CR is modulated by abstinence-induced craving and longer-term abstinence, but it is unclear whether abstinence from nicotine or non-nicotine components is responsible for these effects. In the present study, we propose to evaluate the effects of non-nicotine and nicotine factors on CWM and CR using functional magnetic resonance imaging. This method allows for the non-invasive assessment of brain function. We will also examine the role of genes in moderating and mediating the effects of nicotine and non-nicotine factors on cognitive function

Overview. In a fully factorial design, thirty-six (n=36) adult smokers will undergo fMRI scanning at least 24 hours after each of the following conditions: 1) Nicotine Patch + Denic Smoking, 2) Placebo Patch + Denic Smoking, 3) Nicotine Patch + No Smoking, and 4) Placebo Patch+ No Smoking. During scanning, participants will complete a laboratory based measure of continuous working memory (n-back)-a measure of continuous working memory-and the cue-reactivity task (CR)-a measure of responses to smoking cues. Broadly, we hypothesize 1) abstinence from nicotine, regardless of smoking, will disrupt CWM performance and brain function, 2) abstinence from nicotine and denics will potentiate brain CR but differentially contribute to this effect and 3) that individual differences in smoking behavior and motivation will predict the effects of nicotine and non-nicotine factors on brain function.