Dopamine D1 and NMDA Receptor Co-Regulation of Protein Translation in Cultured Nucleus Accumbens Neurons

IF 3.7 3区 医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Neurochemical Research Pub Date : 2024-11-21 DOI:10.1007/s11064-024-04283-w
Alexa R. Zimbelman, Benjamin Wong, Conor H. Murray, Marina E. Wolf, Michael T. Stefanik
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Abstract

Protein translation is essential for some forms of synaptic plasticity. Here we used fluorescent noncanonical amino acid tagging (FUNCAT) to examine whether dopamine modulates protein translation in cultured nucleus accumbens (NAc) medium spiny neurons (MSN). These neurons were co-cultured with cortical neurons to restore excitatory synapses. We measured translation in MSNs under basal conditions and after disinhibiting excitatory transmission using the GABAA receptor antagonist bicuculline (2 h). Under basal conditions, translation was not altered by the D1-class receptor (D1R) agonist SKF81297 or the D2-class receptor (D2R) agonist quinpirole. Bicuculline alone robustly increased translation. This was reversed by quinpirole but not SKF81297. It was also reversed by co-incubation with the D1R antagonist SCH23390, but not the D2R antagonist eticlopride, suggesting dopaminergic tone at D1Rs. This was surprising because no dopamine neurons are present. An alternative explanation is that bicuculline activates translation by increasing glutamate tone at NMDA receptors (NMDAR) within D1R/NMDAR heteromers. Supporting this, immunocytochemistry and proximity ligation assays revealed D1R/NMDAR heteromers on NAc cells both in vitro and in vivo, confirming previous results. Furthermore, bicuculline’s effect was reversed to the same extent by SCH23390 alone, the NMDAR antagonist APV alone, or SCH23390 + APV. These results suggest that: (1) excitatory transmission stimulates translation in NAc MSNs, (2) this is opposed when glutamate activates D1R/NMDAR heteromers, even in the absence of dopamine, and (3) antagonist occupation of D1Rs within the heteromers prevents their activation. Our study is the first to suggest a role for D2 receptors and D1R/NMDAR heteromers in regulating protein translation.

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多巴胺 D1 和 NMDA 受体共同调控培养的钝核神经元中的蛋白质翻译
蛋白质翻译对于某些形式的突触可塑性至关重要。在这里,我们使用荧光非典型氨基酸标记(FUNCAT)来研究多巴胺是否会调节培养的伏隔核(NAc)中棘神经元(MSN)的蛋白质翻译。这些神经元与皮质神经元共同培养,以恢复兴奋性突触。我们测量了基础条件下和使用 GABAA 受体拮抗剂比库库林(2 小时)抑制兴奋性传导后 MSN 的翻译。在基础条件下,D1 类受体(D1R)激动剂 SKF81297 或 D2 类受体(D2R)激动剂喹吡罗不会改变翻译。单用比库氨酸可显著增加翻译。这被喹吡罗逆转,但不被 SKF81297 逆转。与 D1R 拮抗剂 SCH23390(而非 D2R 拮抗剂 eticlopride)共同作用也能逆转翻译,这表明 D1R 具有多巴胺能。这令人惊讶,因为没有多巴胺神经元存在。另一种解释是,双谷氨酸通过增加 D1R/NMDAR 异构体中 NMDA 受体(NMDAR)的谷氨酸作用来激活翻译。为此,免疫细胞化学和近距离接合实验在体外和体内的 NAc 细胞上都发现了 D1R/NMDAR 异构体,证实了之前的研究结果。此外,单用 SCH23390、单用 NMDAR 拮抗剂 APV 或 SCH23390 + APV 均可在相同程度上逆转比古丁的作用。这些结果表明(1) 兴奋性传递刺激 NAc MSNs 翻译;(2) 即使没有多巴胺,当谷氨酸激活 D1R/NMDAR 异构体时,这种作用也会被逆转;(3) 异构体中 D1R 的拮抗剂占据可防止它们被激活。我们的研究首次提出了 D2 受体和 D1R/NMDAR 异构体在调节蛋白质翻译中的作用。
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来源期刊
Neurochemical Research
Neurochemical Research 医学-神经科学
CiteScore
7.70
自引率
2.30%
发文量
320
审稿时长
6 months
期刊介绍: Neurochemical Research is devoted to the rapid publication of studies that use neurochemical methodology in research on nervous system structure and function. The journal publishes original reports of experimental and clinical research results, perceptive reviews of significant problem areas in the neurosciences, brief comments of a methodological or interpretive nature, and research summaries conducted by leading scientists whose works are not readily available in English.
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