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Interplay between midbrain and dorsal anterior cingulate regions arbitrates lingering reward effects on memory encoding

Kristoffer C. Aberg, Emily Kramer, Sophie Schwartz

2020Nature Communications25 citationsDOIOpen Access PDF

Abstract

Rewarding events enhance memory encoding via dopaminergic influences on hippocampal plasticity. Phasic dopamine release depends on immediate reward magnitude, but presumably also on tonic dopamine levels, which may vary as a function of the average accumulation of reward over time. Using model-based fMRI in combination with a novel associative memory task, we show that immediate reward magnitude exerts a monotonically increasing influence on the nucleus accumbens, ventral tegmental area (VTA), and hippocampal activity during encoding, and enhances memory. By contrast, average reward levels modulate feedback-related responses in the VTA and hippocampus in a non-linear (inverted U-shape) fashion, with similar effects on memory performance. Additionally, the dorsal anterior cingulate cortex (dACC) monotonically tracks average reward levels, while VTA-dACC functional connectivity is non-linearly modulated (inverted U-shape) by average reward. We propose that the dACC computes the net behavioral impact of average reward and relays this information to memory circuitry via the VTA.

Topics & Concepts

Ventral tegmental areaNeuroscienceNucleus accumbensDopamineAnterior cingulate cortexHippocampal formationDopaminergicReward systemMidbrainPsychologyHippocampusCognitionCentral nervous systemMemory and Neural MechanismsFunctional Brain Connectivity StudiesNeuroscience and Neuropharmacology Research