持续去极化在人胆碱能细胞模型中诱导与突触可塑性相关的基因表达模式变化。

Sustained Depolarization Induces Gene Expression Pattern Changes Related to Synaptic Plasticity in a Human Cholinergic Cellular Model.

作者信息

Carrese Anna Maria, Vitale Rossella, Turco Manuela, Masola Valeria, Aniello Francesco, Vitale Emilia, Donizetti Aldo

机构信息

Department of Biology, University of Naples Federico II, Naples, 80126, Italy.

Institute of Biochemistry and Cell Biology, National Research Council (CNR), Naples, 80131, Italy.

出版信息

Mol Neurobiol. 2025 Jan;62(1):935-945. doi: 10.1007/s12035-024-04262-w. Epub 2024 Jun 28.

DOI:10.1007/s12035-024-04262-w

PMID:38941065

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11711863/

Abstract

Neuronal gene expression in the brain dynamically responds to synaptic activity. The interplay among synaptic activity, gene expression, and synaptic plasticity has crucial implications for understanding the pathophysiology of diseases such as Alzheimer's disease and epilepsy. These diseases are marked by synaptic dysfunction that affects the expression patterns of neuroprotective genes that are incompletely understood. In our study, we developed a cellular model of synaptic activity using human cholinergic neurons derived from SH-SY5Y cell differentiation. Depolarization induction modulates the expression of neurotrophic genes and synaptic markers, indicating a potential role in synaptic plasticity regulation. This hypothesis is further supported by the induction kinetics of various long non-coding RNAs, including primate-specific ones. Our experimental model showcases the utility of SH-SY5Y cells in elucidating the molecular mechanisms underlying synaptic plasticity in human cellular systems.

摘要

大脑中的神经元基因表达会动态响应突触活动。突触活动、基因表达和突触可塑性之间的相互作用对于理解诸如阿尔茨海默病和癫痫等疾病的病理生理学具有至关重要的意义。这些疾病的特征是突触功能障碍，其影响了尚未完全了解的神经保护基因的表达模式。在我们的研究中，我们使用源自SH-SY5Y细胞分化的人胆碱能神经元开发了一种突触活动的细胞模型。去极化诱导调节神经营养基因和突触标记物的表达，表明其在突触可塑性调节中具有潜在作用。包括灵长类动物特有的各种长链非编码RNA的诱导动力学进一步支持了这一假设。我们的实验模型展示了SH-SY5Y细胞在阐明人类细胞系统中突触可塑性潜在分子机制方面的实用性。

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持续去极化在人胆碱能细胞模型中诱导与突触可塑性相关的基因表达模式变化。

Sustained Depolarization Induces Gene Expression Pattern Changes Related to Synaptic Plasticity in a Human Cholinergic Cellular Model.

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