Influence of phasic and tonic dopamine release on receptor activation

Jakob Kristoffer Kisbye Dreyer; Kjartan F Herrik; Rune W Berg; Jørn D Hounsgaard

doi:10.1523/JNEUROSCI.1894-10.2010

Influence of phasic and tonic dopamine release on receptor activation

Jakob Kristoffer Kisbye Dreyer, Kjartan F Herrik, Rune W Berg, Jørn D Hounsgaard

232 Citations (Scopus)

Abstract

Tonic and phasic dopamine release is implicated in learning, motivation, and motor functions. However, the relationship between spike patterns in dopaminergic neurons, the extracellular concentration of dopamine, and activation of dopamine receptors remains unresolved. In the present study, we develop a computational model of dopamine signaling that give insight into the relationship between the dynamics of release and occupancy of D₁ and D₂ receptors. The model is derived from first principles using experimental data. It has no free parameters and offers unbiased estimation of the boundaries of dopaminergic volume transmission. Bursts primarily increase occupancy of D₁ receptors, whereas pauses translate into low occupancy of D₁ and D₂ receptors. Phasic firing patterns, composed of bursts and pauses, reduce the average D₂ receptor occupancy and increase average D₁ receptor occupancy compared with equivalent tonic firing. Receptor occupancy is crucially dependent on synchrony and the balance between tonic and phasic firing modes. Our results provide quantitative insight in the dynamics of volume transmission and complement experimental data obtained with electrophysiology, positron emission tomography, microdialysis, amperometry, and voltammetry.

Original language	English
Journal	Journal of Neuroscience
Volume	30
Issue number	42
Pages (from-to)	14273-83
Number of pages	11
ISSN	0270-6474
DOIs	https://doi.org/10.1523/JNEUROSCI.1894-10.2010
Publication status	Published - 20 Oct 2010

Keywords

Algorithms
Axons
Corpus Striatum
Dopamine
Electrophysiology
Extracellular Space
Kinetics
Models, Neurological
Models, Statistical
Nerve Endings
Neurons
Receptors, Dopamine
Receptors, Dopamine D1
Receptors, Dopamine D2

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10.1523/JNEUROSCI.1894-10.2010

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title = "Influence of phasic and tonic dopamine release on receptor activation",

abstract = "Tonic and phasic dopamine release is implicated in learning, motivation, and motor functions. However, the relationship between spike patterns in dopaminergic neurons, the extracellular concentration of dopamine, and activation of dopamine receptors remains unresolved. In the present study, we develop a computational model of dopamine signaling that give insight into the relationship between the dynamics of release and occupancy of D1 and D2 receptors. The model is derived from first principles using experimental data. It has no free parameters and offers unbiased estimation of the boundaries of dopaminergic volume transmission. Bursts primarily increase occupancy of D1 receptors, whereas pauses translate into low occupancy of D1 and D2 receptors. Phasic firing patterns, composed of bursts and pauses, reduce the average D2 receptor occupancy and increase average D1 receptor occupancy compared with equivalent tonic firing. Receptor occupancy is crucially dependent on synchrony and the balance between tonic and phasic firing modes. Our results provide quantitative insight in the dynamics of volume transmission and complement experimental data obtained with electrophysiology, positron emission tomography, microdialysis, amperometry, and voltammetry.",

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AU - Herrik, Kjartan F

AU - Berg, Rune W

AU - Hounsgaard, Jørn D

PY - 2010/10/20

Y1 - 2010/10/20

N2 - Tonic and phasic dopamine release is implicated in learning, motivation, and motor functions. However, the relationship between spike patterns in dopaminergic neurons, the extracellular concentration of dopamine, and activation of dopamine receptors remains unresolved. In the present study, we develop a computational model of dopamine signaling that give insight into the relationship between the dynamics of release and occupancy of D1 and D2 receptors. The model is derived from first principles using experimental data. It has no free parameters and offers unbiased estimation of the boundaries of dopaminergic volume transmission. Bursts primarily increase occupancy of D1 receptors, whereas pauses translate into low occupancy of D1 and D2 receptors. Phasic firing patterns, composed of bursts and pauses, reduce the average D2 receptor occupancy and increase average D1 receptor occupancy compared with equivalent tonic firing. Receptor occupancy is crucially dependent on synchrony and the balance between tonic and phasic firing modes. Our results provide quantitative insight in the dynamics of volume transmission and complement experimental data obtained with electrophysiology, positron emission tomography, microdialysis, amperometry, and voltammetry.

AB - Tonic and phasic dopamine release is implicated in learning, motivation, and motor functions. However, the relationship between spike patterns in dopaminergic neurons, the extracellular concentration of dopamine, and activation of dopamine receptors remains unresolved. In the present study, we develop a computational model of dopamine signaling that give insight into the relationship between the dynamics of release and occupancy of D1 and D2 receptors. The model is derived from first principles using experimental data. It has no free parameters and offers unbiased estimation of the boundaries of dopaminergic volume transmission. Bursts primarily increase occupancy of D1 receptors, whereas pauses translate into low occupancy of D1 and D2 receptors. Phasic firing patterns, composed of bursts and pauses, reduce the average D2 receptor occupancy and increase average D1 receptor occupancy compared with equivalent tonic firing. Receptor occupancy is crucially dependent on synchrony and the balance between tonic and phasic firing modes. Our results provide quantitative insight in the dynamics of volume transmission and complement experimental data obtained with electrophysiology, positron emission tomography, microdialysis, amperometry, and voltammetry.

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KW - Corpus Striatum

KW - Dopamine

KW - Electrophysiology

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KW - Kinetics

KW - Models, Neurological

KW - Models, Statistical

KW - Nerve Endings

KW - Neurons

KW - Receptors, Dopamine

KW - Receptors, Dopamine D1

KW - Receptors, Dopamine D2

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DO - 10.1523/JNEUROSCI.1894-10.2010

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JO - The Journal of neuroscience : the official journal of the Society for Neuroscience

JF - The Journal of neuroscience : the official journal of the Society for Neuroscience

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ER -

Influence of phasic and tonic dopamine release on receptor activation

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Keywords

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