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Dopamine transients follow a striatal gradient of reward time horizons

Biology

Dopamine transients follow a striatal gradient of reward time horizons

A. Mohebi, W. Wei, et al.

Dopamine transients in distinct rat striatal subregions convey prediction errors across different time horizons, systematically accelerating from ventral to dorsomedial to dorsolateral regions—spanning behaviors from seconds to hours and enabling efficient learning and adaptive motivation. This research was conducted by Authors present in <Authors> tag.... show more
Abstract
Animals make predictions to guide their behavior and update those predictions through experience. Transient increases in dopamine (DA) are thought to be critical signals for updating predictions. However, it is unclear how this mechanism handles a wide range of behavioral timescales—from seconds or less (for example, if singing a song) to potentially hours or more (for example, if hunting for food). Here we report that DA transients in distinct rat striatal subregions convey prediction errors based on distinct time horizons. DA dynamics systematically accelerated from ventral to dorsomedial to dorsolateral striatum, in the tempo of spontaneous fluctuations, the temporal integration of prior rewards and the discounting of future rewards. This spectrum of timescales for evaluative computations can help achieve efficient learning and adaptive motivation for a broad range of behaviors.
Publisher
Nature Neuroscience
Published On
Feb 06, 2024
Authors
Ali Mohebi, Wei Wei, Lilian Pelattini, Kyoungjun Kim, Joshua D. Berke
DOI
https://doi.org/10.1038/s41593-023-01566-3
Tags
dopamine transients
striatal subregions
prediction errors
timescales
temporal integration
reward discounting
adaptive learning

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