G protein-coupled receptor kinases as regulators of dopamine receptor functions

[Display omitted] Actions of the neurotransmitter dopamine in the brain are mediated by dopamine receptors that belong to the superfamily of G protein-coupled receptors (GPCRs). Mammals have five dopamine receptor subtypes, D1 through D5. D1 and D5 couple to Gs/olf and activate adenylyl cyclase, whe...

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Published in:Pharmacological research 2016-09, Vol.111, p.1-16
Main Authors: Gurevich, Eugenia V., Gainetdinov, Raul R., Gurevich, Vsevolod V.
Format: Article
Language:English
Subjects:
Animals
Basal Ganglia - drug effects
Basal Ganglia - enzymology
Basal Ganglia - pathology
Basal Ganglia - physiopathology
Central Nervous System Stimulants - therapeutic use
Dopamine receptor
Dyskinesia
G protein-coupled receptor kinase
G-Protein-Coupled Receptor Kinases - metabolism
Humans
L-DOPA
Parkinsonian Disorders - enzymology
Parkinsonian Disorders - pathology
Parkinsonian Disorders - physiopathology
Parkinson⿿s disease
Phosphorylation
Psychostimulants
Receptors, Dopamine - drug effects
Receptors, Dopamine - metabolism
Signal Transduction - drug effects
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creator Gurevich, Eugenia V.
Gainetdinov, Raul R.
Gurevich, Vsevolod V.
description [Display omitted] Actions of the neurotransmitter dopamine in the brain are mediated by dopamine receptors that belong to the superfamily of G protein-coupled receptors (GPCRs). Mammals have five dopamine receptor subtypes, D1 through D5. D1 and D5 couple to Gs/olf and activate adenylyl cyclase, whereas D2, D3, and D4 couple to Gi/o and inhibit it. Most GPCRs upon activation by an agonist are phosphorylated by GPCR kinases (GRKs). The GRK phosphorylation makes receptors high-affinity binding partners for arrestin proteins. Arrestin binding to active phosphorylated receptors stops further G protein activation and promotes receptor internalization, recycling or degradation, thereby regulating their signaling and trafficking. Four non- visual GRKs are expressed in striatal neurons. Here we describe known effects of individual GRKs on dopamine receptors in cell culture and in the two in vivo models of dopamine-mediated signaling: behavioral response to psychostimulants and L-DOPA- induced dyskinesia. Dyskinesia, associated with dopamine super-sensitivity of striatal neurons, is a debilitating side effect of L-DOPA therapy in Parkinson⿿s disease. In vivo, GRK subtypes show greater receptor specificity than in vitro or in cultured cells. Overexpression, knockdown, and knockout of individual GRKs, particularly GRK2 and GRK6, have differential effects on signaling of dopamine receptor subtypes in the brain. Furthermore, deletion of GRK isoforms in select striatal neuronal types differentially affects psychostimulant-induced behaviors. In addition, anti-dyskinetic effect of GRK3 does not require its kinase activity: it is mediated by the binding of its RGS-like domain to Gαq/11, which suppresses Gq/11 signaling. The data demonstrate that the dopamine signaling in defined neuronal types in vivo is regulated by specific and finely orchestrated actions of GRK isoforms.
doi_str_mv 10.1016/j.phrs.2016.05.010
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Mammals have five dopamine receptor subtypes, D1 through D5. D1 and D5 couple to Gs/olf and activate adenylyl cyclase, whereas D2, D3, and D4 couple to Gi/o and inhibit it. Most GPCRs upon activation by an agonist are phosphorylated by GPCR kinases (GRKs). The GRK phosphorylation makes receptors high-affinity binding partners for arrestin proteins. Arrestin binding to active phosphorylated receptors stops further G protein activation and promotes receptor internalization, recycling or degradation, thereby regulating their signaling and trafficking. Four non- visual GRKs are expressed in striatal neurons. Here we describe known effects of individual GRKs on dopamine receptors in cell culture and in the two in vivo models of dopamine-mediated signaling: behavioral response to psychostimulants and L-DOPA- induced dyskinesia. Dyskinesia, associated with dopamine super-sensitivity of striatal neurons, is a debilitating side effect of L-DOPA therapy in Parkinson⿿s disease. In vivo, GRK subtypes show greater receptor specificity than in vitro or in cultured cells. Overexpression, knockdown, and knockout of individual GRKs, particularly GRK2 and GRK6, have differential effects on signaling of dopamine receptor subtypes in the brain. Furthermore, deletion of GRK isoforms in select striatal neuronal types differentially affects psychostimulant-induced behaviors. In addition, anti-dyskinetic effect of GRK3 does not require its kinase activity: it is mediated by the binding of its RGS-like domain to Gαq/11, which suppresses Gq/11 signaling. 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Mammals have five dopamine receptor subtypes, D1 through D5. D1 and D5 couple to Gs/olf and activate adenylyl cyclase, whereas D2, D3, and D4 couple to Gi/o and inhibit it. Most GPCRs upon activation by an agonist are phosphorylated by GPCR kinases (GRKs). The GRK phosphorylation makes receptors high-affinity binding partners for arrestin proteins. Arrestin binding to active phosphorylated receptors stops further G protein activation and promotes receptor internalization, recycling or degradation, thereby regulating their signaling and trafficking. Four non- visual GRKs are expressed in striatal neurons. Here we describe known effects of individual GRKs on dopamine receptors in cell culture and in the two in vivo models of dopamine-mediated signaling: behavioral response to psychostimulants and L-DOPA- induced dyskinesia. Dyskinesia, associated with dopamine super-sensitivity of striatal neurons, is a debilitating side effect of L-DOPA therapy in Parkinson⿿s disease. In vivo, GRK subtypes show greater receptor specificity than in vitro or in cultured cells. Overexpression, knockdown, and knockout of individual GRKs, particularly GRK2 and GRK6, have differential effects on signaling of dopamine receptor subtypes in the brain. Furthermore, deletion of GRK isoforms in select striatal neuronal types differentially affects psychostimulant-induced behaviors. In addition, anti-dyskinetic effect of GRK3 does not require its kinase activity: it is mediated by the binding of its RGS-like domain to Gαq/11, which suppresses Gq/11 signaling. 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ispartof Pharmacological research, 2016-09, Vol.111, p.1-16
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source ScienceDirect; ScienceDirect Freedom Collection 2022-2024
subjects Animals
Basal Ganglia - drug effects
Basal Ganglia - enzymology
Basal Ganglia - pathology
Basal Ganglia - physiopathology
Central Nervous System Stimulants - therapeutic use
Dopamine receptor
Dyskinesia
G protein-coupled receptor kinase
G-Protein-Coupled Receptor Kinases - metabolism
Humans
L-DOPA
Parkinsonian Disorders - enzymology
Parkinsonian Disorders - pathology
Parkinsonian Disorders - physiopathology
Parkinson⿿s disease
Phosphorylation
Psychostimulants
Receptors, Dopamine - drug effects
Receptors, Dopamine - metabolism
Signal Transduction - drug effects
title G protein-coupled receptor kinases as regulators of dopamine receptor functions
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