癫痫
蛋白质组
蛋白质组学
生命银行
疾病
多发性硬化
生物信息学
生物
医学
癫痫发生
免疫系统
定量蛋白质组学
计算生物学
神经退行性变
神经科学
生物标志物
血液蛋白质类
神经病理学
免疫学
置信区间
抗惊厥药
基因分型
药品
内科学
微阵列
作者
Dandan Zhang,Ziyi Wang,Yi Zhang,Qizheng Hao,Peiyang Gao,Zeyu LI,Xiaoyu He,Yujie Zhao,Wei Cheng,Jianfeng Feng,Lan Tan,Jin-Tai Yu,Dandan Zhang,Ziyi Wang,Yi Zhang,Qizheng Hao,Peiyang Gao,Zeyu LI,Xiaoyu He,Yujie Zhao
标识
DOI:10.1016/j.xcrm.2025.102330
摘要
The clinical diagnosis of epilepsy is predominantly based on history taking, morbidity records, and imaging during seizures. The emergence of proteomics has enhanced disease marker detection and potential drug target identification. We perform a longitudinal survival analysis of 2,920 plasma proteins and epilepsy onset, utilizing plasma proteome data from 52,372 UK Biobank participants (440 incident cases). We identify 103 proteins with significant associations with epilepsy, with neurofilament light polypeptide (NEFL) (hazard ratio [HR] [95% confidence interval (CI)]: 2.13 [1.85-2.46]) and growth differentiation factor 1 (GDF15) (1.82 [1.60-2.07]) exhibiting the strongest correlations. Enrichment and network analyses uncovered the pivotal role of the immune response and pinpointed four central hubs. Furthermore, 103 screened proteins are significantly associated with brain regions implicated in epileptogenesis and show stronger correlation with stress-related events than genetic predisposition. We investigate the predictive ability of top-ranked proteins for future epilepsy risk and their potential as drug targets. These findings are crucial for identifying early biomarkers and optimizing therapeutic strategies.
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