增强腺苷A信号可改善多巴胺D受体拮抗剂诱导的运动障碍β-抑制蛋白信号。

Enhancement of adenosine A signaling improves dopamine D receptor antagonist-induced dyskinesia β-arrestin signaling.

作者信息

Nagaoka Koki, Asaoka Nozomi, Nagayasu Kazuki, Shirakawa Hisashi, Kaneko Shuji

机构信息

Department of Molecular Pharmacology, Graduate School of Pharmaceutical Sciences, Kyoto University, Kyoto, Japan.

Department of Pharmacology, Graduate School of Medicine, Kyoto University, Kyoto, Japan.

出版信息

Front Neurosci. 2023 Jan 24;16:1082375. doi: 10.3389/fnins.2022.1082375. eCollection 2022.

DOI:10.3389/fnins.2022.1082375

PMID:36760795

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9902764/

Abstract

Repeated administration of dopamine D receptor (D2R) antagonists, which is the treatment for psychosis, often causes tardive dyskinesia (TD). Despite notable clinical demand, effective treatment for TD has not been established yet. The neural mechanism involving the hyperinhibition of indirect pathway medium spiny neurons (iMSNs) in the striatum is considered one of the main causes of TD. In this study, we focused on adenosine A receptors (A2ARs) expressed in iMSNs and investigated whether pharmacological activation of A2ARs improves dyskinetic symptoms in a TD mouse model. A 21-day treatment with haloperidol increased the number of vacuous chewing movements (VCMs) and decreased the number of c-Fos/ppENK iMSNs in the dorsal striatum. Haloperidol-induced VCMs were reduced by acute intraperitoneal administration of an A2AR agonist, CGS 21680A. Consistently, haloperidol-induced VCMs and decrease in the number of c-Fos/ppENK iMSNs were also mitigated by intrastriatal injection of CGS 21680A. The effects of intrastriatal CGS 21680A were not observed when it was concomitantly administered with a β-arrestin inhibitor, barbadin. Finally, intrastriatal injection of an arrestin-biased D2R agonist, UNC9994, also inhibited haloperidol-induced VCMs. These results suggest that A2AR agonists mitigate TD symptoms by activating striatal iMSNs β-arrestin signaling.

摘要

多巴胺 D 受体（D2R）拮抗剂的反复给药是治疗精神病的方法，但常常会导致迟发性运动障碍（TD）。尽管临床需求显著，但尚未确立 TD 的有效治疗方法。纹状体中间神经元间接通路（iMSNs）的过度抑制所涉及的神经机制被认为是 TD 的主要原因之一。在本研究中，我们聚焦于 iMSNs 中表达的腺苷 A 受体（A2ARs），并研究 A2ARs 的药理学激活是否能改善 TD 小鼠模型中的运动障碍症状。用氟哌啶醇进行 21 天的治疗增加了空嚼运动（VCMs）的数量，并减少了背侧纹状体中 c-Fos/ppENK iMSNs 的数量。腹腔内急性注射 A2AR 激动剂 CGS 21680A 可减少氟哌啶醇诱导的 VCMs。同样，纹状体内注射 CGS 21680A 也减轻了氟哌啶醇诱导的 VCMs 以及 c-Fos/ppENK iMSNs 数量的减少。当纹状体内注射 CGS 21680A 与 β - 抑制蛋白抑制剂 barbardin 同时给药时，未观察到其效果。最后，纹状体内注射一种偏向抑制蛋白的 D2R 激动剂 UNC9994 也抑制了氟哌啶醇诱导的 VCMs。这些结果表明，A2AR 激动剂通过激活纹状体 iMSNs 的 β - 抑制蛋白信号传导来减轻 TD 症状。

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增强腺苷A信号可改善多巴胺D受体拮抗剂诱导的运动障碍β-抑制蛋白信号。

Enhancement of adenosine A signaling improves dopamine D receptor antagonist-induced dyskinesia β-arrestin signaling.

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