Early reduced dopaminergic tone mediated by D3 receptor and dopamine transporter in absence epileptogenesis

Fanny CavarecGIN, CHUGA, Philipp KraussGIN, CHUGA, Tiffany WitkowskiGIN, CHUGA, Alexis BroisatGIN, CHUGA, Catherine GhezziGIN, CHUGA, Stéphanie de GoisGIN, CHUGA, Bruno GirosGIN, CHUGA, Antoine DepaulisGIN, CHUGA, Colin DeransartGIN, CHUGA
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Abstract

Abstract Objective In Genetic Absence Epilepsy Rats From Strasbourg ( GAERS s), epileptogenesis takes place during brain maturation and correlates with increased mRNA expression of D3 dopamine receptors (D3R). Whether these alterations are the consequence of seizure repetition or contribute to the development of epilepsy remains to be clarified. Here, we addressed the involvement of the dopaminergic system in epilepsy onset in GAERS s. Methods Experiments were performed using rats at different stages of brain maturation from three strains according to their increasing propensity to develop absence seizures: nonepileptic control rats ( NEC s), Wistar Hannover rats, and GAERS s. Changes in dopaminergic neurotransmission were investigated using different behavioral and neurochemical approaches: autoradiography of D3R and dopamine transporter, single photon emission computed tomographic imaging, acute and chronic drug effects on seizure recordings (dopaminergic agonists and antagonists), quinpirole-induced yawns and dopamine synaptosomal uptake, microdialysis, brain tissue monoamines, and brain-derived neurotrophic factor quantification. Results Autoradiography revealed an increased expression of D3R in 14-day-old GAERS s, before absence seizure onset, that persists in adulthood, as compared to age-matched NEC s. This was confirmed by increased yawns, a marker of D3R activity, and increased seizures when animals were injected with quinpirole at low doses to activate D3R. We also observed a concomitant increase in the expression and activity of the dopamine transporter in GAERS s before seizure onset, consistent with both lowered dopamine basal level and increased phasic responses. Significance Our data show that the dopaminergic system is persistently altered in GAERS s, which may contribute not only to behavioral comorbidities but also as an etiopathogenic factor in the development of epilepsy. The data suggest that an imbalanced dopaminergic tone may contribute to absence epilepsy development and seizure onset, as its reversion by a chronic treatment with a dopamine stabilizer significantly suppressed epileptogenesis. Our data suggest a potential new target for antiepileptic therapies and/or improvement of quality of life of epileptic patients.
失神性癫痫发生过程中由 D3 受体和多巴胺转运体介导的早期多巴胺能张力降低
摘要 目的 在斯特拉斯堡遗传性失神癫痫大鼠(GAERSs)中,癫痫的发生发生在大脑成熟过程中,并与D3多巴胺受体(D3R)mRNA表达的增加有关。这些变化是癫痫反复发作的结果,还是导致癫痫发展的原因,仍有待澄清。方法根据三个品系大鼠脑成熟的不同阶段,按照它们发生缺失性癫痫发作的倾向性递增的程度,使用这三个品系的大鼠进行了实验:非癫痫对照组大鼠(NECs)、Wistar Hannover大鼠和GAERSs。采用不同的行为和神经化学方法研究了多巴胺能神经传递的变化:D3R和多巴胺转运体的自显影、单光子发射计算机断层扫描成像、急性和慢性药物对癫痫发作记录的影响(多巴胺能激动剂和拮抗剂)、喹吡罗诱导的打哈欠和多巴胺突触体摄取、微透析、脑组织单胺和脑源性神经营养因子定量。结果 自显影显示,与年龄匹配的 NECs 相比,14 天大的 GAERSs 在失神发作开始前的 D3R 表达增加,并持续到成年。我们还观察到,在癫痫发作开始前,多巴胺转运体在 GAERS 中的表达和活性同时增加,这与多巴胺基础水平降低和阶段性反应增加一致。意义 我们的数据表明,GAERSs 的多巴胺能系统持续发生改变,这不仅可能导致行为上的合并症,也可能是癫痫发病的一个致病因素。数据表明,失衡的多巴胺酮可能会导致失神性癫痫的发生和发作,因为长期使用多巴胺稳定剂可以显著抑制癫痫的发生。我们的数据为抗癫痫疗法和/或改善癫痫患者的生活质量提供了一个潜在的新靶点。
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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