Zeng Lang, Lu Xuanzhen, Huang Yuzhen, Tu Qin, He Yongqi, Fang Ziwei, Nie Shuyi, Huang Yi, Yu Maling, Min Xiaoli, Zhang Cuntai, Yu Jiasheng, Zhang Le
Key Laboratory of Vascular Aging, Ministry of Education, Tongji Hospital, Tongji Medical College, Huazhong University of Science and Technology, 1095 Jiefang Avenue, Wuhan, 430030, China.
Department of Neurosurgery, Tongji Hospital, Tongji Medical College, Huazhong University of Science and Technology, Wuhan, 430030, Hubei, China.
Neurosurg Rev. 2025 Mar 25;48(1):321. doi: 10.1007/s10143-025-03489-y.
The incidence of intracranial aneurysms (IAs) is markedly elevated in postmenopausal women compared to men and premenopausal women, a disparity historically linked to declining estrogen levels. Emerging evidence, however, suggests that the expression and functional roles of estrogen receptors (ERs), including ERα, ERβ, and GPER1, in vascular tissues may implicate estrogen-independent pathways in vascular aging and related pathologies. An integrative bioinformatics approach, combining three IA datasets (GSE75436, GSE122897, GSE54083) and two vascular endothelial cell senescence (VECS) datasets (GSE214476, GSE102397) from the Gene Expression Omnibus (GEO) database, was employed to investigate this hypothesis and define shared molecular mechanisms. This cross-disease differential expression analysis identified 452 significantly downregulated genes, suggesting conserved pathogenic pathways in IA and VECS. Among ERs, GPER1 was uniquely downregulated in both conditions. Subsequent weighted gene co-expression network analysis and subsequent module clustering revealed ACACB as a hub gene co-expressed with GPER1 and inversely correlated with IA and VECS progression. In vitro validation confirmed that GPER1 expression was reduced during VECS and that GPER1 silencing decreased ACACB expression and accelerated endothelial senescence, supporting its estrogen-independent role in vascular homeostasis. Computational pharmacological screening further identified PD0325901, SCH772984, and selumetinib as potential therapeutic agents targeting both GPER1 and ACACB, offering a dual-pathway therapeutic strategy. The identification of GPER1 and ACACB as potential target genes associated with IA and VECS provides a framework for developing therapies that circumvent hormone dependency, addressing an unmet need in the treatment of IA and age-related vascular pathologies.
与男性和绝经前女性相比,绝经后女性颅内动脉瘤(IA)的发病率显著升高,这一差异历来与雌激素水平下降有关。然而,新出现的证据表明,雌激素受体(ERs),包括ERα、ERβ和GPER1,在血管组织中的表达和功能作用可能涉及血管衰老和相关病理过程中与雌激素无关的途径。采用综合生物信息学方法,结合来自基因表达综合数据库(GEO)的三个IA数据集(GSE75436、GSE122897、GSE54083)和两个血管内皮细胞衰老(VECS)数据集(GSE214476、GSE102397),以研究这一假设并确定共同的分子机制。这种跨疾病差异表达分析确定了452个显著下调的基因,表明IA和VECS中存在保守的致病途径。在ERs中,GPER1在两种情况下均独特地下调。随后的加权基因共表达网络分析和模块聚类显示,ACACB是与GPER1共表达且与IA和VECS进展呈负相关的枢纽基因。体外验证证实,在VECS过程中GPER1表达降低,并且GPER1沉默会降低ACACB表达并加速内皮细胞衰老,支持其在血管稳态中与雌激素无关的作用。计算药理学筛选进一步确定PD0325901、SCH772984和司美替尼为靶向GPER1和ACACB的潜在治疗药物,提供了一种双途径治疗策略。将GPER1和ACACB鉴定为与IA和VECS相关的潜在靶基因,为开发规避激素依赖性的疗法提供了框架,满足了IA和年龄相关血管疾病治疗中未满足的需求。
