Alterations in HCN1 expression and distribution during epileptogenesis in rats

IF 2 4区 医学 Q3 CLINICAL NEUROLOGY Epilepsy Research Pub Date : 2024-03-24 DOI:10.1016/j.eplepsyres.2024.107355
Ke Zhao , Yinchao Li , Huanling Lai , Ruili Niu , Huifeng Li , Shipei He , Zhengwei Su , Yue Gui , Lijie Ren , Xiaofeng Yang , Liemin Zhou
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Abstract

Background

The hyperpolarization-activated cyclic nucleotide-gated cation channel (HCN1) is predominantly located in key regions associated with epilepsy, such as the neocortex and hippocampus. Under normal physiological conditions, HCN1 plays a crucial role in the excitatory and inhibitory regulation of neuronal networks. In temporal lobe epilepsy, the expression of HCN1 is decreased in the hippocampi of both animal models and patients. However, whether HCN1 expression changes during epileptogenesis preceding spontaneous seizures remains unclear.

Objective

The aim of this study was to determine whether the expression of HCN1 is altered during the epileptic prodromal phase, thereby providing evidence for its role in epileptogenesis.

Methods

We utilized a cobalt wire-induced rat epilepsy model to observe changes in HCN1 during epileptogenesis and epilepsy. Additionally, we also compared HCN1 alterations in epileptogenic tissues between cobalt wire- and pilocarpine-induced epilepsy rat models. Long-term video EEG recordings were used to confirm seizures development. Transcriptional changes, translation, and distribution of HCN1 were assessed using high-throughput transcriptome sequencing, total protein extraction, membrane and cytoplasmic protein fractionation, western blotting, immunohistochemistry, and immunofluorescence techniques.

Results

In the cobalt wire-induced rat epilepsy model during the epileptogenesis phase, total HCN1 mRNA and protein levels were downregulated. Specifically, the membrane expression of HCN1 was decreased, whereas cytoplasmic HCN1 expression showed no significant change. The distribution of HCN1 in the distal dendrites of neurons decreased. During the epilepsy period, similar HCN1 alterations were observed in the neocortex of rats with cobalt wire-induced epilepsy and hippocampus of rats with lithium pilocarpine-induced epilepsy, including downregulation of mRNA levels, decreased total protein expression, decreased membrane expression, and decreased distal dendrite expression.

Conclusions

Alterations in HCN1 expression and distribution are involved in epileptogenesis beyond their association with seizure occurrence. Similarities in HCN1 alterations observed in epileptogenesis-related tissues from different models suggest a shared pathophysiological pathway in epileptogenesis involving HCN1 dysregulation. Therefore, the upregulation of HCN1 expression in neurons, maintenance of the HCN1 membrane, and distal dendrite distribution in neurons may represent promising disease-modifying strategies in epilepsy.

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大鼠癫痫发生过程中 HCN1 表达和分布的变化
背景超极化激活的环核苷酸门控阳离子通道(HCN1)主要位于与癫痫相关的关键区域,如新皮质和海马。在正常生理条件下,HCN1 在神经元网络的兴奋和抑制调节中发挥着至关重要的作用。在颞叶癫痫中,动物模型和患者的海马中 HCN1 的表达都会减少。本研究旨在确定 HCN1 的表达在癫痫前驱期是否发生改变,从而为其在癫痫发生中的作用提供证据。方法我们利用钴线诱导的大鼠癫痫模型观察 HCN1 在癫痫发生和癫痫期间的变化。此外,我们还比较了钴线诱导癫痫大鼠模型和皮质类固醇诱导癫痫大鼠模型致痫组织中 HCN1 的变化。长期视频脑电图记录用于确认癫痫的发展。采用高通量转录组测序、总蛋白提取、膜和细胞质蛋白分馏、Western 印迹、免疫组织化学和免疫荧光技术评估了 HCN1 的转录变化、翻译和分布。具体而言,HCN1的膜表达量减少,而细胞质中HCN1的表达量无明显变化。HCN1 在神经元远端树突的分布减少。在癫痫期间,钴线诱导的癫痫大鼠的新皮质和锂皮质激素诱导的癫痫大鼠的海马中也观察到了类似的 HCN1 改变,包括 mRNA 水平下调、总蛋白表达量减少、膜表达量减少和远端树突表达量减少。在不同模型的癫痫发生相关组织中观察到的 HCN1 改变的相似性表明,癫痫发生的共同病理生理途径涉及 HCN1 失调。因此,神经元中HCN1表达的上调、HCN1膜的维持以及远端树突在神经元中的分布可能代表着有前景的癫痫疾病调节策略。
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来源期刊
Epilepsy Research
Epilepsy Research 医学-临床神经学
CiteScore
0.10
自引率
4.50%
发文量
143
审稿时长
62 days
期刊介绍: Epilepsy Research provides for publication of high quality articles in both basic and clinical epilepsy research, with a special emphasis on translational research that ultimately relates to epilepsy as a human condition. The journal is intended to provide a forum for reporting the best and most rigorous epilepsy research from all disciplines ranging from biophysics and molecular biology to epidemiological and psychosocial research. As such the journal will publish original papers relevant to epilepsy from any scientific discipline and also studies of a multidisciplinary nature. Clinical and experimental research papers adopting fresh conceptual approaches to the study of epilepsy and its treatment are encouraged. The overriding criteria for publication are novelty, significant clinical or experimental relevance, and interest to a multidisciplinary audience in the broad arena of epilepsy. Review articles focused on any topic of epilepsy research will also be considered, but only if they present an exceptionally clear synthesis of current knowledge and future directions of a research area, based on a critical assessment of the available data or on hypotheses that are likely to stimulate more critical thinking and further advances in an area of epilepsy research.
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