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1.
J Neurosci ; 41(34): 7197-7205, 2021 08 25.
Article in English | MEDLINE | ID: mdl-34253628

ABSTRACT

The striatum plays critical roles in visually-guided decision-making and receives dense axonal projections from midbrain dopamine neurons. However, the roles of striatal dopamine in visual decision-making are poorly understood. We trained male and female mice to perform a visual decision task with asymmetric reward payoff, and we recorded the activity of dopamine axons innervating striatum. Dopamine axons in the dorsomedial striatum (DMS) responded to contralateral visual stimuli and contralateral rewarded actions. Neural responses to contralateral stimuli could not be explained by orienting behavior such as eye movements. Moreover, these contralateral stimulus responses persisted in sessions where the animals were instructed to not move to obtain reward, further indicating that these signals are stimulus-related. Lastly, we show that DMS dopamine signals were qualitatively different from dopamine signals in the ventral striatum (VS), which responded to both ipsilateral and contralateral stimuli, conforming to canonical prediction error signaling under sensory uncertainty. Thus, during visual decisions, DMS dopamine encodes visual stimuli and rewarded actions in a lateralized fashion, and could facilitate associations between specific visual stimuli and actions.SIGNIFICANCE STATEMENT While the striatum is central to goal-directed behavior, the precise roles of its rich dopaminergic innervation in perceptual decision-making are poorly understood. We found that in a visual decision task, dopamine axons in the dorsomedial striatum (DMS) signaled stimuli presented contralaterally to the recorded hemisphere, as well as the onset of rewarded actions. Stimulus-evoked signals persisted in a no-movement task variant. We distinguish the patterns of these signals from those in the ventral striatum (VS). Our results contribute to the characterization of region-specific dopaminergic signaling in the striatum and highlight a role in stimulus-action association learning.


Subject(s)
Association Learning/physiology , Axons/physiology , Choice Behavior/physiology , Corpus Striatum/physiology , Dopaminergic Neurons/physiology , Photic Stimulation , Reward , Animals , Corpus Striatum/cytology , Dominance, Cerebral , Dopamine/physiology , Eye Movements/physiology , Female , Male , Mice , Mice, Inbred C57BL , Nerve Fibers/ultrastructure
2.
Neuron ; 105(4): 700-711.e6, 2020 02 19.
Article in English | MEDLINE | ID: mdl-31859030

ABSTRACT

Deciding between stimuli requires combining their learned value with one's sensory confidence. We trained mice in a visual task that probes this combination. Mouse choices reflected not only present confidence and past rewards but also past confidence. Their behavior conformed to a model that combines signal detection with reinforcement learning. In the model, the predicted value of the chosen option is the product of sensory confidence and learned value. We found precise correlates of this variable in the pre-outcome activity of midbrain dopamine neurons and of medial prefrontal cortical neurons. However, only the latter played a causal role: inactivating medial prefrontal cortex before outcome strengthened learning from the outcome. Dopamine neurons played a causal role only after outcome, when they encoded reward prediction errors graded by confidence, influencing subsequent choices. These results reveal neural signals that combine reward value with sensory confidence and guide subsequent learning.


Subject(s)
Choice Behavior/physiology , Dopaminergic Neurons/metabolism , Learning/physiology , Prefrontal Cortex/metabolism , Reward , Animals , Dopaminergic Neurons/chemistry , Male , Mice , Mice, Inbred C57BL , Mice, Transgenic , Optogenetics/methods , Prefrontal Cortex/chemistry
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