β-Arrestin-dependent ERK signaling reduces anxiety-like and conditioned fear-related behaviors in mice

G protein-coupled receptors (GPCRs) are implicated in the regulation of fear and anxiety. GPCR signaling involves canonical G protein pathways but can also engage downstream kinases and effectors through scaffolding interactions mediated by β-arrestin. Here, we investigated whether β-arrestin signal...

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Veröffentlicht in:	Science signaling 2021-08, Vol.14 (694)
Hauptverfasser:	Ko, Mee Jung, Chiang, Terrance, Mukadam, Arbaaz A, Mulia, Grace E, Gutridge, Anna M, Lin, Angel, Chester, Julia A, van Rijn, Richard M
Format:	Artikel
Sprache:	eng
Schlagworte:	Agonists Amygdala Animal behavior Animals Anxiety Arrestin Behavior beta-Arrestin 1 - genetics beta-Arrestin 2 beta-Arrestins - metabolism Brain Caudate-putamen Drugs Extracellular signal-regulated kinase Fear Fear conditioning G protein-coupled receptors Isoforms Kinases Male Mice Mice, Inbred C57BL Narcotics Neostriatum Neuromodulation Nucleus accumbens Opioid receptors Proteins Receptor mechanisms Receptors Scaffolding Side effects Signal transduction Signaling
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creator	Ko, Mee Jung Chiang, Terrance Mukadam, Arbaaz A Mulia, Grace E Gutridge, Anna M Lin, Angel Chester, Julia A van Rijn, Richard M
description	G protein-coupled receptors (GPCRs) are implicated in the regulation of fear and anxiety. GPCR signaling involves canonical G protein pathways but can also engage downstream kinases and effectors through scaffolding interactions mediated by β-arrestin. Here, we investigated whether β-arrestin signaling regulates anxiety-like and fear-related behavior in mice in response to activation of the GPCR δ-opioid receptor (δOR or DOR). Administration of β-arrestin-biased δOR agonists to male C57BL/6 mice revealed β-arrestin 2-dependent activation of extracellular signal-regulated kinases 1 and 2 (ERK1/2) in the dorsal hippocampus and amygdala and β-arrestin 1-dependent activation of ERK1/2 in the nucleus accumbens. In mice, β-arrestin-biased agonist treatment was associated with reduced anxiety-like and fear-related behaviors, with some overlapping and isoform-specific input. In contrast, applying a G protein-biased δOR agonist decreased ERK1/2 activity in all three regions as well as the dorsal striatum and was associated with increased fear-related behavior without effects on baseline anxiety. Our results indicate a complex picture of δOR neuromodulation in which β-arrestin 1- and 2-dependent ERK signaling in specific brain subregions suppresses behaviors associated with anxiety and fear and opposes the effects of G protein-biased signaling. Overall, our findings highlight the importance of noncanonical β-arrestin-dependent GPCR signaling in the regulation of these interrelated emotions.
doi_str_mv	10.1126/scisignal.aba0245
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GPCR signaling involves canonical G protein pathways but can also engage downstream kinases and effectors through scaffolding interactions mediated by β-arrestin. Here, we investigated whether β-arrestin signaling regulates anxiety-like and fear-related behavior in mice in response to activation of the GPCR δ-opioid receptor (δOR or DOR). Administration of β-arrestin-biased δOR agonists to male C57BL/6 mice revealed β-arrestin 2-dependent activation of extracellular signal-regulated kinases 1 and 2 (ERK1/2) in the dorsal hippocampus and amygdala and β-arrestin 1-dependent activation of ERK1/2 in the nucleus accumbens. In mice, β-arrestin-biased agonist treatment was associated with reduced anxiety-like and fear-related behaviors, with some overlapping and isoform-specific input. In contrast, applying a G protein-biased δOR agonist decreased ERK1/2 activity in all three regions as well as the dorsal striatum and was associated with increased fear-related behavior without effects on baseline anxiety. Our results indicate a complex picture of δOR neuromodulation in which β-arrestin 1- and 2-dependent ERK signaling in specific brain subregions suppresses behaviors associated with anxiety and fear and opposes the effects of G protein-biased signaling. 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GPCR signaling involves canonical G protein pathways but can also engage downstream kinases and effectors through scaffolding interactions mediated by β-arrestin. Here, we investigated whether β-arrestin signaling regulates anxiety-like and fear-related behavior in mice in response to activation of the GPCR δ-opioid receptor (δOR or DOR). Administration of β-arrestin-biased δOR agonists to male C57BL/6 mice revealed β-arrestin 2-dependent activation of extracellular signal-regulated kinases 1 and 2 (ERK1/2) in the dorsal hippocampus and amygdala and β-arrestin 1-dependent activation of ERK1/2 in the nucleus accumbens. In mice, β-arrestin-biased agonist treatment was associated with reduced anxiety-like and fear-related behaviors, with some overlapping and isoform-specific input. 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In contrast, applying a G protein-biased δOR agonist decreased ERK1/2 activity in all three regions as well as the dorsal striatum and was associated with increased fear-related behavior without effects on baseline anxiety. Our results indicate a complex picture of δOR neuromodulation in which β-arrestin 1- and 2-dependent ERK signaling in specific brain subregions suppresses behaviors associated with anxiety and fear and opposes the effects of G protein-biased signaling. 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subjects	Agonists Amygdala Animal behavior Animals Anxiety Arrestin Behavior beta-Arrestin 1 - genetics beta-Arrestin 2 beta-Arrestins - metabolism Brain Caudate-putamen Drugs Extracellular signal-regulated kinase Fear Fear conditioning G protein-coupled receptors Isoforms Kinases Male Mice Mice, Inbred C57BL Narcotics Neostriatum Neuromodulation Nucleus accumbens Opioid receptors Proteins Receptor mechanisms Receptors Scaffolding Side effects Signal transduction Signaling
title	β-Arrestin-dependent ERK signaling reduces anxiety-like and conditioned fear-related behaviors in mice
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