小胶质细胞
神经科学
IRF7
神经炎症
神经保护
调节器
生物
干扰素调节因子
内部收益率1
运动前神经元活动
癫痫
炎症
效应器
中枢神经系统
受体
神经退行性变
细胞生物学
信号转导
颞叶
转录因子
IRF8
作者
Jinkun Xu,Yihe Wang,Huaqiang Zhang,Chao Zhang,Ting Tang,Xuegang Niu,Quanlei Liu,Zesheng Li,Changkai Hou,Bin Fu,Yumin Luo,Yongzhi Shan,Guoguang Zhao
标识
DOI:10.1016/j.gendis.2026.102097
摘要
Temporal lobe epilepsy (TLE) is the most common and severe form of drug-resistant epilepsy. Glial cell-induced neuroinflammation is recognized as a key contributor to neuronal hyperexcitability in TLE. Previous studies utilizing single-cell sequencing have identified inflammatory responses in glial cells. However, no research has yet provided computational evidence to identify the major regulatory cell types and effector molecules involved in TLE. Our study constructed activated regulatory networks of TLE using single-nucleus RNA sequencing and identified interferon regulatory factor 7 (IRF7) in microglia as a key regulator of the TLE microenvironment, which leads to pro-inflammatory activation. By integrating microglia-neuron co-culture models and RNA sequencing, we revealed that IRF7 translocation and microglial IFN-β release contributed to neuronal injury. Notably, we highlight that microglia primarily interact with retinoic acid-related orphan receptor beta (RORB)-positive neurons and disrupt neuronal homeostasis by reducing RORB-mediated transcriptional activation of the stromal interaction molecule 1 (STIM1) through neuroinflammatory processes, thereby contributing to the epileptic phenotype. Our study positioned IRF7 as a central regulator of the TLE neuronal inflammation. It integrated IFN-related inflammation with neuronal RORB–STIM1 signaling to induce neuronal damage, suggesting that targeting IRF7 could be a potential neuroprotective therapy for TLE.
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