Literature DB >> 33248024

A Unified Framework for Dopamine Signals across Timescales.

HyungGoo R Kim1, Athar N Malik2, John G Mikhael3, Pol Bech4, Iku Tsutsui-Kimura4, Fangmiao Sun5, Yajun Zhang5, Yulong Li5, Mitsuko Watabe-Uchida4, Samuel J Gershman6, Naoshige Uchida7.   

Abstract

Rapid phasic activity of midbrain dopamine neurons is thought to signal reward prediction errors (RPEs), resembling temporal difference errors used in machine learning. However, recent studies describing slowly increasing dopamine signals have instead proposed that they represent state values and arise independent from somatic spiking activity. Here we developed experimental paradigms using virtual reality that disambiguate RPEs from values. We examined dopamine circuit activity at various stages, including somatic spiking, calcium signals at somata and axons, and striatal dopamine concentrations. Our results demonstrate that ramping dopamine signals are consistent with RPEs rather than value, and this ramping is observed at all stages examined. Ramping dopamine signals can be driven by a dynamic stimulus that indicates a gradual approach to a reward. We provide a unified computational understanding of rapid phasic and slowly ramping dopamine signals: dopamine neurons perform a derivative-like computation over values on a moment-by-moment basis.
Copyright © 2020 Elsevier Inc. All rights reserved.

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Year:  2020        PMID: 33248024      PMCID: PMC7736562          DOI: 10.1016/j.cell.2020.11.013

Source DB:  PubMed          Journal:  Cell        ISSN: 0092-8674            Impact factor:   41.582


  57 in total

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Review 2.  Neural Circuitry of Reward Prediction Error.

Authors:  Mitsuko Watabe-Uchida; Neir Eshel; Naoshige Uchida
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3.  Discovering governing equations from data by sparse identification of nonlinear dynamical systems.

Authors:  Steven L Brunton; Joshua L Proctor; J Nathan Kutz
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Review 4.  Dopamine reward circuitry: two projection systems from the ventral midbrain to the nucleus accumbens-olfactory tubercle complex.

Authors:  Satoshi Ikemoto
Journal:  Brain Res Rev       Date:  2007-05-17

5.  Imaging large-scale neural activity with cellular resolution in awake, mobile mice.

Authors:  Daniel A Dombeck; Anton N Khabbaz; Forrest Collman; Thomas L Adelman; David W Tank
Journal:  Neuron       Date:  2007-10-04       Impact factor: 17.173

6.  Dopamine operates as a subsecond modulator of food seeking.

Authors:  Mitchell F Roitman; Garret D Stuber; Paul E M Phillips; R Mark Wightman; Regina M Carelli
Journal:  J Neurosci       Date:  2004-02-11       Impact factor: 6.167

7.  Striatal dopamine ramping may indicate flexible reinforcement learning with forgetting in the cortico-basal ganglia circuits.

Authors:  Kenji Morita; Ayaka Kato
Journal:  Front Neural Circuits       Date:  2014-04-09       Impact factor: 3.492

8.  Rapid signalling in distinct dopaminergic axons during locomotion and reward.

Authors:  M W Howe; D A Dombeck
Journal:  Nature       Date:  2016-07-11       Impact factor: 49.962

9.  Intracellular dynamics of hippocampal place cells during virtual navigation.

Authors:  Christopher D Harvey; Forrest Collman; Daniel A Dombeck; David W Tank
Journal:  Nature       Date:  2009-10-15       Impact factor: 49.962

10.  Dopamine neuron ensembles signal the content of sensory prediction errors.

Authors:  Thomas A Stalnaker; James D Howard; Thorsten Kahnt; Geoffrey Schoenbaum; Yuji K Takahashi; Samuel J Gershman
Journal:  Elife       Date:  2019-11-01       Impact factor: 8.140
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  36 in total

Review 1.  Distributional Reinforcement Learning in the Brain.

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Authors:  David M Lovinger; Yolanda Mateo; Kari A Johnson; Sheila A Engi; Mario Antonazzo; Joseph F Cheer
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3.  Slowly evolving dopaminergic activity modulates the moment-to-moment probability of reward-related self-timed movements.

Authors:  Allison E Hamilos; Giulia Spedicato; Ye Hong; Fangmiao Sun; Yulong Li; John A Assad
Journal:  Elife       Date:  2021-12-23       Impact factor: 8.140

Review 4.  Pushing the frontiers: tools for monitoring neurotransmitters and neuromodulators.

Authors:  Zhaofa Wu; Dayu Lin; Yulong Li
Journal:  Nat Rev Neurosci       Date:  2022-03-31       Impact factor: 34.870

Review 5.  The learning of prospective and retrospective cognitive maps within neural circuits.

Authors:  Vijay Mohan K Namboodiri; Garret D Stuber
Journal:  Neuron       Date:  2021-10-21       Impact factor: 17.173

Review 6.  Spatial and temporal scales of dopamine transmission.

Authors:  Changliang Liu; Pragya Goel; Pascal S Kaeser
Journal:  Nat Rev Neurosci       Date:  2021-04-09       Impact factor: 34.870

7.  Wave-like dopamine dynamics as a mechanism for spatiotemporal credit assignment.

Authors:  Arif A Hamid; Michael J Frank; Christopher I Moore
Journal:  Cell       Date:  2021-04-15       Impact factor: 41.582

8.  Rigid reduced successor representation as a potential mechanism for addiction.

Authors:  Kanji Shimomura; Ayaka Kato; Kenji Morita
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9.  The role of state uncertainty in the dynamics of dopamine.

Authors:  John G Mikhael; HyungGoo R Kim; Naoshige Uchida; Samuel J Gershman
Journal:  Curr Biol       Date:  2022-02-02       Impact factor: 10.834

Review 10.  Dopamine, Updated: Reward Prediction Error and Beyond.

Authors:  Talia N Lerner; Ashley L Holloway; Jillian L Seiler
Journal:  Curr Opin Neurobiol       Date:  2020-11-14       Impact factor: 6.627
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