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Subsecond fluctuations in extracellular dopamine encode reward and punishment prediction errors in humans

L. Paul Sands, Angela Jiang, Brittany Liebenow, Emily K. DiMarco, Adrian W. Laxton, Stephen B. Tatter, P. Read Montague, Kenneth T. Kishida

2023Science Advances34 citationsDOIOpen Access PDF

Abstract

In the mammalian brain, midbrain dopamine neuron activity is hypothesized to encode reward prediction errors that promote learning and guide behavior by causing rapid changes in dopamine levels in target brain regions. This hypothesis (and alternatives regarding dopamine's role in punishment-learning) has limited direct evidence in humans. We report intracranial, subsecond measurements of dopamine release in human striatum measured, while volunteers (i.e., patients undergoing deep brain stimulation surgery) performed a probabilistic reward and punishment learning choice task designed to test whether dopamine release encodes only reward prediction errors or whether dopamine release may also encode adaptive punishment learning signals. Results demonstrate that extracellular dopamine levels can encode both reward and punishment prediction errors within distinct time intervals via independent valence-specific pathways in the human brain.

Topics & Concepts

DopamineENCODENeurosciencePunishment (psychology)PsychologyStriatumBrain stimulation rewardMidbrainValence (chemistry)Reward systemDopamine transporterBiologyDevelopmental psychologyCentral nervous systemChemistryGeneDopaminergicGeneticsNucleus accumbensOrganic chemistryNeurotransmitter Receptor Influence on BehaviorNeural dynamics and brain functionReceptor Mechanisms and Signaling
Subsecond fluctuations in extracellular dopamine encode reward and punishment prediction errors in humans | Litcius