Hemispheric Asymmetries in Striatal Reward Responses Relate to Approach–Avoidance Learning and Encoding of Positive–Negative Prediction Errors in Dopaminergic Midbrain Regions
| Autor: | Sophie Schwartz, Kristoffer C. Aberg, Kimberly C. Doell |
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| Rok vydání: | 2015 |
| Předmět: |
Male
Punishment (psychology) education Functional Laterality Midbrain Young Adult Punishment Reward Mesencephalon Dopamine Avoidance Learning medicine Humans Reinforcement learning Computer Simulation Reinforcement Dopaminergic Neurons General Neuroscience Dopaminergic Ventral striatum Articles Magnetic Resonance Imaging ddc:616.8 Neostriatum Institutional repository medicine.anatomical_structure Female Psychology Reinforcement Psychology Psychomotor Performance psychological phenomena and processes Cognitive psychology medicine.drug |
| Zdroj: | Journal of Neuroscience, Vol. 35, No 43 (2015) pp. 14491-14500 |
| ISSN: | 1529-2401 0270-6474 |
| Popis: | Some individuals are better at learning about rewarding situations, whereas others are inclined to avoid punishments (i.e., enhanced approach or avoidance learning, respectively). In reinforcement learning, action values are increased when outcomes are better than predicted (positive prediction errors [PEs]) and decreased for worse than predicted outcomes (negative PEs). Because actions with high and low values are approached and avoided, respectively, individual differences in the neural encoding of PEs may influence the balance between approach–avoidance learning. Recent correlational approaches also indicate that biases in approach–avoidance learning involve hemispheric asymmetries in dopamine function. However, the computational and neural mechanisms underpinning such learning biases remain unknown. Here we assessed hemispheric reward asymmetry in striatal activity in 34 human participants who performed a task involving rewards and punishments. We show that the relative difference in reward response between hemispheres relates to individual biases in approach–avoidance learning. Moreover, using a computational modeling approach, we demonstrate that better encoding of positive (vs negative) PEs in dopaminergic midbrain regions is associated with better approach (vs avoidance) learning, specifically in participants with larger reward responses in the left (vs right) ventral striatum. Thus, individual dispositions or traits may be determined by neural processes acting to constrain learning about specific aspects of the world.SIGNIFICANCE STATEMENTIndividuals differ in how they behave toward rewards or punishments. Here, we demonstrate that functional hemispheric asymmetries measured in dopaminergic reward regions dictate whether someone will learn to choose rewarding options or instead avoid punishing outcomes. We also show that hemispheric reward asymmetries involve a differential neural encoding of signals controlling approach and avoidance learning. We thus provide experimental evidence for a mechanism that accounts for individual differences in approach and avoidance learning. Disabling mental illnesses have previously been associated with hemispheric asymmetries in dopamine function and extreme biases in approach–avoidance behavior. By showing that these observations implicate biased learning processes, the present study may offer important insights into the development and maintenance of some psychiatric disorders. |
| Databáze: | OpenAIRE |
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