SCN8A 癫痫性脑病小鼠模型中的星形胶质细胞反应性。

Astrocyte reactivity in a mouse model of SCN8A epileptic encephalopathy.

机构信息

Department of Anesthesiology, University of Virginia Health System, Charlottesville, VA, USA.

Neuroscience Graduate Program, University of Virginia, Charlottesville, VA, USA.

出版信息

Epilepsia Open. 2022 Jun;7(2):280-292. doi: 10.1002/epi4.12564. Epub 2022 Feb 8.

DOI:10.1002/epi4.12564

PMID:34826216

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9159254/

Abstract

OBJECTIVE

SCN8A epileptic encephalopathy is caused predominantly by de novo gain-of-function mutations in the voltage-gated sodium channel Na 1.6. The disorder is characterized by early onset of seizures and developmental delay. Most patients with SCN8A epileptic encephalopathy are refractory to current anti-seizure medications. Previous studies determining the mechanisms of this disease have focused on neuronal dysfunction as Na 1.6 is expressed by neurons and plays a critical role in controlling neuronal excitability. However, glial dysfunction has been implicated in epilepsy and alterations in glial physiology could contribute to the pathology of SCN8A encephalopathy. In the current study, we examined alterations in astrocyte and microglia physiology in the development of seizures in a mouse model of SCN8A epileptic encephalopathy.

METHODS

Using immunohistochemistry, we assessed microglia and astrocyte reactivity before and after the onset of spontaneous seizures. Expression of glutamine synthetase and Na 1.6, and K 4.1 channel currents were assessed in astrocytes in wild-type (WT) mice and mice carrying the N1768D SCN8A mutation (D/+).

RESULTS

Astrocytes in spontaneously seizing D/+ mice become reactive and increase expression of glial fibrillary acidic protein (GFAP), a marker of astrocyte reactivity. These same astrocytes exhibited reduced barium-sensitive K 4.1 currents compared to age-matched WT mice and decreased expression of glutamine synthetase. These alterations were only observed in spontaneously seizing mice and not before the onset of seizures. In contrast, microglial morphology remained unchanged before and after the onset of seizures.

SIGNIFICANCE

Astrocytes, but not microglia, become reactive only after the onset of spontaneous seizures in a mouse model of SCN8A encephalopathy. Reactive astrocytes have reduced K 4.1-mediated currents, which would impair their ability to buffer potassium. Reduced expression of glutamine synthetase would modulate the availability of neurotransmitters to excitatory and inhibitory neurons. These deficits in potassium and glutamate handling by astrocytes could exacerbate seizures in SCN8A epileptic encephalopathy. Targeting astrocytes may provide a new therapeutic approach to seizure suppression.

摘要

目的

SCN8A 癫痫性脑病主要由电压门控钠离子通道 Na 1.6 的新获得性功能突变引起。该疾病的特征是癫痫发作和发育迟缓的早期发病。大多数 SCN8A 癫痫性脑病患者对当前的抗癫痫药物无反应。以前确定该疾病机制的研究主要集中在神经元功能障碍上，因为 Na 1.6 由神经元表达，并且在控制神经元兴奋性方面起着关键作用。然而，神经胶质功能障碍与癫痫有关，并且神经胶质生理学的改变可能导致 SCN8A 脑病的病理学。在当前的研究中，我们研究了 SCN8A 癫痫性脑病小鼠模型中癫痫发作发展过程中星形胶质细胞和小胶质细胞生理学的改变。

方法

使用免疫组织化学，我们评估了自发性癫痫发作前后小胶质细胞和星形胶质细胞的反应性。在野生型（WT）小鼠和携带 N1768D SCN8A 突变（D / +）的小鼠中评估星形胶质细胞中谷氨酸合成酶和 Na 1.6 和 K 4.1 通道电流的表达。

结果

自发发作的 D / +小鼠中的星形胶质细胞变得活跃，并增加了胶质纤维酸性蛋白（GFAP）的表达，这是星形胶质细胞反应性的标志物。与年龄匹配的 WT 小鼠相比，这些相同的星形胶质细胞表现出钡敏感的 K 4.1 电流减少，并且谷氨酸合成酶的表达减少。这些改变仅在自发发作的小鼠中观察到，而在癫痫发作之前则没有观察到。相比之下，微胶质细胞形态在癫痫发作前后均无变化。

意义

在 SCN8A 脑病的小鼠模型中，只有在自发性癫痫发作开始后，星形胶质细胞才会变得活跃。反应性星形胶质细胞具有减少的 K 4.1 介导的电流，这会损害它们缓冲钾的能力。谷氨酸合成酶表达减少会调节神经递质对兴奋性和抑制性神经元的可用性。星形胶质细胞在钾和谷氨酸处理方面的这些缺陷可能会加剧 SCN8A 癫痫性脑病中的癫痫发作。靶向星形胶质细胞可能为抑制癫痫发作提供新的治疗方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b003/9159254/c9360347ecde/EPI4-7-280-g001.jpg

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SCN8A 癫痫性脑病小鼠模型中的星形胶质细胞反应性。

Astrocyte reactivity in a mouse model of SCN8A epileptic encephalopathy.

机构信息

出版信息

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METHODS

RESULTS

SIGNIFICANCE

目的

方法

结果

意义

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