The residence of synaptically released dopamine on D2 autoreceptors

Alec F. Condon; Brooks G. Robinson; Naeem Asad; Timothy M. Dore; Lin Tian; John T. Williams

doi:10.1016/j.celrep.2021.109465

The residence of synaptically released dopamine on D2 autoreceptors

Alec F. Condon, Brooks G. Robinson, Naeem Asad, Timothy M. Dore, Lin Tian, John T. Williams

Vollum Institute

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

Neuromodulation mediated by synaptically released endogenous transmitters acting in G-protein-coupled receptors (GPCRs) is slow primarily because of multistep downstream signaling. What is less well understood is the spatial and temporal kinetics of transmitter and receptor interaction. The present work uses the combination of the dopamine sensor, dLight, to detect the spatial release and diffusion of dopamine and a caged form of a D2-dopamine receptor antagonist, CyHQ-sulpiride, to rapidly block the D2 autoreceptors. Photoactivation of the CyHQ-sulpiride blocks receptors in milliseconds such that the time course of dopamine/receptor interaction is mapped onto the downstream signaling. The results show that highly localized release, but not dopamine diffusion, defines the time course of the functional interaction between dopamine and D2 autoreceptors, which determines downstream inhibition.

Original language	English (US)
Article number	109465
Journal	Cell Reports
Volume	36
Issue number	5
DOIs	https://doi.org/10.1016/j.celrep.2021.109465
State	Published - Aug 3 2021

Keywords

G Protein Coupled Receptors
GIRK
Substantia Nigra
caged-sulpiride
dendritic release

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.1016/j.celrep.2021.109465

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abstract = "Neuromodulation mediated by synaptically released endogenous transmitters acting in G-protein-coupled receptors (GPCRs) is slow primarily because of multistep downstream signaling. What is less well understood is the spatial and temporal kinetics of transmitter and receptor interaction. The present work uses the combination of the dopamine sensor, dLight, to detect the spatial release and diffusion of dopamine and a caged form of a D2-dopamine receptor antagonist, CyHQ-sulpiride, to rapidly block the D2 autoreceptors. Photoactivation of the CyHQ-sulpiride blocks receptors in milliseconds such that the time course of dopamine/receptor interaction is mapped onto the downstream signaling. The results show that highly localized release, but not dopamine diffusion, defines the time course of the functional interaction between dopamine and D2 autoreceptors, which determines downstream inhibition.",

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AU - Robinson, Brooks G.

AU - Asad, Naeem

AU - Dore, Timothy M.

AU - Tian, Lin

AU - Williams, John T.

PY - 2021/8/3

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AB - Neuromodulation mediated by synaptically released endogenous transmitters acting in G-protein-coupled receptors (GPCRs) is slow primarily because of multistep downstream signaling. What is less well understood is the spatial and temporal kinetics of transmitter and receptor interaction. The present work uses the combination of the dopamine sensor, dLight, to detect the spatial release and diffusion of dopamine and a caged form of a D2-dopamine receptor antagonist, CyHQ-sulpiride, to rapidly block the D2 autoreceptors. Photoactivation of the CyHQ-sulpiride blocks receptors in milliseconds such that the time course of dopamine/receptor interaction is mapped onto the downstream signaling. The results show that highly localized release, but not dopamine diffusion, defines the time course of the functional interaction between dopamine and D2 autoreceptors, which determines downstream inhibition.

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KW - caged-sulpiride

KW - dendritic release

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The residence of synaptically released dopamine on D2 autoreceptors

Abstract

Keywords

ASJC Scopus subject areas

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