载脂蛋白E
海马旁回
疾病
磁共振弥散成像
白质
生物
神经科学
生物标志物
基因型
额中回
扣带回(脑)
成像生物标志物
等位基因
颞中回
人脑
大脑定位
转录组
神经影像学
神经退行性变
脆弱性(计算)
遗传学
阿尔茨海默病神经影像学倡议
性别特征
医学
遗传关联
心理学
额上回
部分各向异性
作者
Qi Zeng,Minghui Wang,Erming Wang,Xianxiao Zhou,Peng Xu,Vahram Haroutunian,Dongming Cai,Bin Zhang,Members of the Alzheimers Disease Neuroimaging Initiative,Michael W. Weiner,Paul S Aisen,Ronald C Petersen,Clifford R. Jack,William Jagust,Susan Landau,Monica Rivera-Mindt,Ozioma Okonkwo,Leslie M. Shaw,Edward B. Lee,W. Toga
出处
期刊:GeroScience
[Springer International Publishing]
日期:2026-02-18
标识
DOI:10.1007/s11357-025-02089-4
摘要
Alzheimer's disease (AD) disproportionately affects women and carriers of the apolipoprotein E ε4 allele (APOE4), yet little is known about how sex and APOE interact to influence white matter (WM) integrity during disease progression. We integrated diffusion MRI and matched blood transcriptomic data to investigate these interactions and their underlying biological mechanisms. WM microstructure was quantified using diffusion tensor imaging (DTI) and neurite orientation dispersion and density imaging (NODDI), and regional vulnerability was assessed with a composite vulnerability score (CVS) derived from associations between diffusion features and AD severity across clinical traits in each of the four sex-APOE groups (female or male, with or without APOE4). Brain parcellation with the Eve atlas revealed regions consistently affected across sex-APOE groups (e.g., parahippocampal and superior temporal gyri) and regions specific to individual groups (e.g., the cingulum in females with APOE4 and the middle frontal gyrus in males without APOE4). Gene co-expression network analysis of the matched blood expression data identified gene subnetworks linked to group-specific regional vulnerability, including a muscle tissue morphogenesis module regulated by NEURL1B and HIST1H2BN associated with middle frontal gyrus vulnerability. These findings demonstrate that sex and APOE genotype jointly shape region-specific WM vulnerability and its molecular signatures in AD. Understanding these interactions provides novel mechanistic insights and may inform precision approaches to drug development, biomarker discovery, and clinical trial design for AD.
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