報酬行動を規定するKCNQチャネルの分子メカニズム

Dopamine plays a key role in the modulation of the circuit activity in striatum for reward behavior. We have reported that dopamine type 1 receptor (D1R) signaling in the striatum presumably regulates neuronal excitability and reward-related behaviors through PKA/Rap1/MAPK pathway. However, how D1Rs...

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Published in	日本薬理学会年会要旨集 p. 1-P-011
Main Authors	下村, 拓史, 川口, 泰雄, 坪井, 大輔, 大塚, 岳, 久保, 義弘, 貝淵, 弘三
Format	Journal Article
Language	Japanese
Published	公益社団法人日本薬理学会 2020
Subjects	dopamine phosphorylation
Online Access	Get full text
ISSN	2435-4953
DOI	10.1254/jpssuppl.93.0_1-P-011

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Abstract	Dopamine plays a key role in the modulation of the circuit activity in striatum for reward behavior. We have reported that dopamine type 1 receptor (D1R) signaling in the striatum presumably regulates neuronal excitability and reward-related behaviors through PKA/Rap1/MAPK pathway. However, how D1Rs and its downstream signaling regulate neuronal excitability and behavior remain largely unknown. We focus on the post-modification of ion channels for neuronal excitability and reward behavior because protein phosphorylation of ion channels is vital for neuronal function. In this study, we identified a voltage-gated potassium channel, KCNQ2, as a phospho-candidate that is regulated by D1R signaling. Phosphorylation of KCNQ2 by MAPK cascade altered the open probability of KCNQ2/3 channels in Xenopus oocyte. The expression of phospho-defective mutants of KCNQ2 suppressed the functional modulation of KCNQ channel by MAPK. D1R agonist, SKF38393 caused a decrease in KCNQ-sensitive current in striatal slices, whereas D2R agonist, Quinpirole did not cause the effect. These results suggest that D1Rsignaling controls the channel activity of KCNQ via its phosphorylation for neuronal excitability and reward behavior.
AbstractList	Dopamine plays a key role in the modulation of the circuit activity in striatum for reward behavior. We have reported that dopamine type 1 receptor (D1R) signaling in the striatum presumably regulates neuronal excitability and reward-related behaviors through PKA/Rap1/MAPK pathway. However, how D1Rs and its downstream signaling regulate neuronal excitability and behavior remain largely unknown. We focus on the post-modification of ion channels for neuronal excitability and reward behavior because protein phosphorylation of ion channels is vital for neuronal function. In this study, we identified a voltage-gated potassium channel, KCNQ2, as a phospho-candidate that is regulated by D1R signaling. Phosphorylation of KCNQ2 by MAPK cascade altered the open probability of KCNQ2/3 channels in Xenopus oocyte. The expression of phospho-defective mutants of KCNQ2 suppressed the functional modulation of KCNQ channel by MAPK. D1R agonist, SKF38393 caused a decrease in KCNQ-sensitive current in striatal slices, whereas D2R agonist, Quinpirole did not cause the effect. These results suggest that D1Rsignaling controls the channel activity of KCNQ via its phosphorylation for neuronal excitability and reward behavior.
Author	坪井, 大輔大塚, 岳下村, 拓史貝淵, 弘三久保, 義弘川口, 泰雄
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Snippet	Dopamine plays a key role in the modulation of the circuit activity in striatum for reward behavior. We have reported that dopamine type 1 receptor (D1R)...
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Title	報酬行動を規定するKCNQチャネルの分子メカニズム
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