Translational Neuropsychopharmacology Research of Nicotine Addiction

This study will examine the effects of combining Varenicline (VRN) and N-acetylcysteine (NAC) on neural circuitry function and treating nicotine addiction. Healthy adult nicotine dependent cigarette smokers interested in quitting (n=110) will be randomized to one of four PBO-controlled conditions for 4 weeks: 1) VRN+NAC, 2) VRN+PBO, 3) NAC+PBO or 4) PBO+PBO. Following 1 week of medication, participants will be contingently reinforced for 3 days of smoking abstinence and be scanned using functional magnetic resonance imaging (fMRI) techniques, while nicotine deprived during a resting state and a cue-reactivity (CR) task. Participants will be followed over the next 3 weeks of treatment and clinical variables will be assessed.

Cigarette (henceforth nicotine) addiction is a chronic, relapsing brain disorder and remains the leading preventable cause of death and disability in the US, costing nearly $200 billion each year. Although \~20% of adults in the USA currently smoke, the majority want to quit. In spite of the breadth of research focused on improving health outcomes and reducing the societal burden caused by nicotine addiction, the majority of smokers who attempt to quit will relapse. Nicotine withdrawal-related disturbances in executive function, negative affect and reward processes compel a smoker to self-administer nicotine-each in turn representing the loss of control to remain abstinent and risk factors for relapse. Thus, identifying the effects of nicotine addiction on mechanisms of self-regulation, and the value of novel medications for remediating dysregulated behavior are both needed in order to enhance interventions for treating nicotine addiction. The preliminary data, along with the extant literature, suggest that the maintenance of nicotine addiction is subserved by dysregulated neural function in limbic-striatal and corticostriatal neural circuitry. While VRN may be effective in treating limbic-striatal circuitry that is associated with promoting abstinence and reducing acute withdrawal; NAC may be effective in treating corticostriatal circuitry function that is associated with relapse vulnerability. Thus, the current proposal seeks to investigate two medications (VRN \& NAC), with potentially complementary effects on the two different brain circuits- limbic-striatal (VRN) and corticostriatal (NAC) circuitry-and that may therapeutically target two different phases in the recovery of nicotine addiction-the promotion of abstinence (VRN) and relapse prevention (NAC). The placebo (PBO)-controlled design in this proposal will allow the team to identify and translate between the neurobiological substrates and the neurocognitive underpinnings of the effects of VRN+NAC on smoking behavior in humans-thus, advancing the understanding of the pathophysiology of nicotine addiction.