A Transient Dopamine Signal Represents Avoidance Value and Causally Influences the Demand to Avoid

Pultorak, Katherine; Schelp, Scott A.; Isaacs, Dominic P.; Krzystyniak, Gregory; Oleson, Erik B.

doi:10.1523/eneuro.0058-18.2018

Cited by 24 publications

(25 citation statements)

References 49 publications

(86 reference statements)

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“…The work described above clearly indicates that, at least in good avoiders, cues that predict the ability to avoid shock increase DA to levels associated with cues that predict reward. Recent work has further demonstrated that DA computes the value associated with negative reinforcement by measuring DA release using FSCV during a behavioral economics task where the price to avoid shock increased progressively over the course of a session (Pultorak et al, 2018). They found an inverse relationship between DA amplitude at avoidance-predictive cues and the effort needed in order to avoid.…”

Section: Dopamine’s Role In Avoidancementioning

confidence: 99%

Dopamine signals related to appetitive and aversive events in paradigms that manipulate reward and avoidability

2019

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Using environmental cues to acquire good and avoid harmful things is critical for survival. Rewarding and aversive outcomes both drive behavior through reinforcement learning and sometimes occur together in the environment, but it remains unclear how these signals are encoded within the brain and if signals for positive and negative reinforcement are encoded similarly. Recent studies demonstrate that the dopaminergic system and interconnected brain regions process both positive and negative reinforcement necessary for approach and avoidance behaviors, respectively. Here, we review these data with a special focus on behavioral paradigms that manipulate both expected reward and the avoidability of aversive events to reveal neural correlates related to value, prediction error encoding, motivation, and salience.

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Section: Dopamine’s Role In Avoidancementioning

confidence: 99%

Dopamine signals related to appetitive and aversive events in paradigms that manipulate reward and avoidability

2019

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“…Lesions of dopaminergic terminals and dopaminergic antagonists impair foot shock avoidance, and dopamine release is correlated with avoidance responses. [58][59][60][61][62] TBI modifies neural circuits involving both DLPFC and dopamine systems. [63][64][65][66] While dopaminergic systems have largely been implicated in both positive and negative reinforcement, any mechanistic explanation of our results will have to include differential actions of TBI on avoidance of foot shock, but not escape or positive reinforcement.…”

Section: Discussionmentioning

confidence: 99%

Anhedonia following mild traumatic brain injury in rats: A behavioral economic analysis of positive and negative reinforcement

Avcu

Fortress

Fragale

et al. 2019

Preprint

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Psychiatric disorders affect nearly 50% of individuals who have experienced a traumatic brain injury (TBI). Anhedonia is a major symptom of numerous psychiatric disorders and is a diagnostic criterion for depression. Recently, anhedonia has been divided into consummatory, motivational and decisional components, all of which may be affected differently in disease. Although anhedonia is typically assessed using positive reinforcement, the importance of stress in psychopathology suggests the study of negative reinforcement (removal or avoidance of aversive events) may be equally important. The present study investigated positive and negative reinforcement following a rat model of mild TBI (mTBI) using lateral fluid percussion. Hedonic value of and motivation for reinforcement was determined by behavioral economic analyses.Following mTBI, the hedonic value of avoiding foot shock was reduced. In contrast, the hedonic value of escaping foot shock or obtaining a sucrose pellet was not altered by mTBI. Moreover, neither motivation to avoid or escape foot shock nor motivation to acquire sucrose was modified by mTBI. Our results suggest that individuals experiencing mTBI may experience more stress because of poor proactive control of stress resulting from reduced hedonic value of avoiding aversive events.

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“…DA FSCV technology described above culminated, among other seminal ndings, in establishing DA's major roles in reward and cognition. [107][108][109][110][111][112][113][114][115] These ndings spearheaded an explosion of studies to understand these behaviors in the context of the dopaminergic system. In particular, it was found that the reward-related behaviors described above are controlled by the mesolimbic DA circuits, which are in turn modulated by endogenous factors such as hormones.…”

Section: Dopamine In Cognition and Rewardmentioning

confidence: 99%

Frontiers in electrochemical sensors for neurotransmitter detection: towards measuring neurotransmitters as chemical diagnostics for brain disorders

Buchanan

Witt

et al. 2019

Anal. Methods

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A Transient Dopamine Signal Represents Avoidance Value and Causally Influences the Demand to Avoid

Cited by 24 publications

References 49 publications

Dopamine signals related to appetitive and aversive events in paradigms that manipulate reward and avoidability

Dopamine signals related to appetitive and aversive events in paradigms that manipulate reward and avoidability

Anhedonia following mild traumatic brain injury in rats: A behavioral economic analysis of positive and negative reinforcement

Frontiers in electrochemical sensors for neurotransmitter detection: towards measuring neurotransmitters as chemical diagnostics for brain disorders

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