Altered GABAergic Homeostasis in the Striatum of Dopamine Transporter Knockout Rats.

IF 4.8 2区医学 Q1 NEUROSCIENCES

Current Neuropharmacology Pub Date : 2025-04-18 DOI:10.2174/011570159X370747250404060428

Giorgia Targa, Beatrice Rizzi, Francesca Mottarlini, Raul R Gainetdinov, Damiana Leo, Fabio Fumagalli, Lucia Caffino

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引用次数: 0

Abstract

Background: It is now widely established that dopamine, despite its nature as a slowacting biogenic monoamine, modulates fast neurotransmitters such as GABA. However, the mechanism through which this occurs still needs to be fully elucidated. The dopamine transporter (DAT) is the primary regulator of dopamine homeostasis, controlling extracellular levels of dopamine as well as its storage in vesicles.

Methods: Here, we took advantage of the availability of dopamine transporter knockout (DAT-/-) rats, which provide a unique opportunity to investigate the response of the GABAergic system under hyperactivity of the dopaminergic system, a condition found in different disorders of the Central Nervous System. The expression levels of GABAergic markers have been evaluated by means of western blot in the whole homogenate, cytosolic fraction, and post-synaptic density of the striatum of male DAT-/- rats.

Results: We found a widespread down-regulation of GABAergic markers in the striatum of DAT-/- rats. Our data show that DA overactivity critically reorganizes the striatal GABAergic synapse in a way that GABA neurotransmission appears to be toned down. Such changes are equally distributed among proteins regulating GABA synthesis (GAD67), release (vGAT) and reuptake (GAT1, GAT3). It also involve the main subunits of GABA receptors (GABA-A a1, a2, b1; GABA-B R1), their anchoring proteins (Gephyrin) and adhesion molecules (Neuroligin-2).

Conclusion: Taken together, such changes paint a picture showing a compromised integrity of the striatal GABAergic system under conditions of functional hyperdopaminergia, which may be of interest for several disorders of the central nervous system.

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多巴胺转运蛋白敲除大鼠纹状体gaba能稳态的改变。

背景：尽管多巴胺本质上是一种缓慢的生物单胺，但它可以调节快速的神经递质，如GABA，这一点已经得到了广泛的证实。然而，发生这种情况的机制仍需要充分阐明。多巴胺转运蛋白（DAT）是多巴胺稳态的主要调节因子，控制细胞外多巴胺水平及其在囊泡中的储存。方法：在这里，我们利用多巴胺转运蛋白敲除（DAT-/-）大鼠的可用性，提供了一个独特的机会来研究gaba能系统在多巴胺能系统亢进时的反应，多巴胺能系统亢进是不同中枢神经系统疾病的一种情况。采用western blot方法对雄性DAT-/-大鼠纹状体全匀浆、胞浆组分和突触后密度中gaba能标记物的表达水平进行了评价。结果：我们发现DAT-/-大鼠纹状体中gaba能标记物普遍下调。我们的数据表明，多巴胺过度活动严重重组纹状体GABA能突触，以一种GABA神经传递似乎减弱的方式。这种变化均匀分布在调节GABA合成（GAD67）、释放（vGAT）和再摄取（GAT1、GAT3）的蛋白质中。它还涉及GABA受体的主要亚基(GABA- a a1, a2, b1；GABA-B R1)，它们的锚定蛋白（Gephyrin）和粘附分子（Neuroligin-2）。结论：综上所述，这些变化描绘了一幅在功能性高多巴胺能条件下纹状体gaba能系统完整性受损的图景，这可能与中枢神经系统的几种疾病有关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Current Neuropharmacology 医学-神经科学

CiteScore

8.70

自引率

1.90%

发文量

369

审稿时长

>12 weeks

期刊介绍： Current Neuropharmacology aims to provide current, comprehensive/mini reviews and guest edited issues of all areas of neuropharmacology and related matters of neuroscience. The reviews cover the fields of molecular, cellular, and systems/behavioural aspects of neuropharmacology and neuroscience. The journal serves as a comprehensive, multidisciplinary expert forum for neuropharmacologists and neuroscientists.