4.5 Review

Advances in understanding meso-cortico-limbic-striatal systems mediating risky reward seeking

Journal

JOURNAL OF NEUROCHEMISTRY
Volume 157, Issue 5, Pages 1547-1571

Publisher

WILEY
DOI: 10.1111/jnc.15342

Keywords

addiction; circuit; conflict; nucleus accumbens; prefrontal cortex; punishment

Funding

  1. NIAAA Intramural Research Program
  2. Center on Compulsive Behaviors Fellowship
  3. Santa Clara University
  4. NIH [AA027915]

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The risk of aversive consequences from reward-seeking behavior can significantly impact future actions, with individuals adapting differently to negative and positive punishment risks. Those with substance use disorders or behavioral addictions may struggle to reduce addictive behaviors despite aversive consequences. Dopamine signaling and interconnected ventral striatal, cortical, and amygdala regions play critical roles in punishment learning and risky reward seeking behavior.
The risk of an aversive consequence occurring as the result of a reward-seeking action can have a profound effect on subsequent behavior. Such aversive events can be described as punishers, as they decrease the probability that the same action will be produced again in the future and increase the exploration of less risky alternatives. Punishment can involve the omission of an expected rewarding event (negative punishment) or the addition of an unpleasant event (positive punishment). Although many individuals adaptively navigate situations associated with the risk of negative or positive punishment, those suffering from substance use disorders or behavioral addictions tend to be less able to curtail addictive behaviors despite the aversive consequences associated with them. Here, we discuss the psychological processes underpinning reward seeking despite the risk of negative and positive punishment and consider how behavioral assays in animals have been employed to provide insights into the neural mechanisms underlying addictive disorders. We then review the critical contributions of dopamine signaling to punishment learning and risky reward seeking, and address the roles of interconnected ventral striatal, cortical, and amygdala regions to these processes. We conclude by discussing the ample opportunities for future study to clarify critical gaps in the literature, particularly as related to delineating neural contributions to distinct phases of the risky decision-making process.

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