APOE ε4对中年骨化平均扩散率峰值宽度随年龄增长的基因剂量效应

IF 1.9 Q3 CLINICAL NEUROLOGY
Elijah Mak , Maria-Eleni Dounavi , Audrey Low , Graciela Muniz Terrera , Paresh Malhotra , Ivan Koychev , Clare Mackay , Brian Lawlor , Lorina Naci , Katie Wells , Craig Ritchie , Karen Ritchie , Li Su , Juan Gispert , John O'Brien
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引用次数: 0

摘要

导言:人们对小血管疾病(SVD)与痴呆症之间的机理关联仍然知之甚少。APOE ε4等位基因被认为是阿尔茨海默病最强的遗传风险因素,以前曾被认为与SVD有关联,但目前仍不清楚这种关联是否与基因剂量有关。扩散加权成像(DWI)数据集的直方图分析得出的骨架化平均扩散率峰值宽度(PSMD)是SVD的一种新兴神经影像生物标志物。在此,我们研究了一组认知能力正常的中年人的 APOE ε4 基因剂量与作为 SVD 替代标记物的 PSMD 之间的关系。研究纳入了 ALFA(ALzheimer and FAmilies)和 PREVENT-Dementia 队列中 1954 名无症状中年人的数据(样本特征见表 1)。PSMD 是使用公开的脚本从 DWI 数据集中计算出来的,并使用 COMBAT 进行协调,以考虑与部位相关的差异。使用非参数置换模型,我们的主要分析集中于:(a) PSMD 的组间差异比较(APOE ε4 杂合子 vs 同合子 vs 非携带者),调整年龄、性别、正规教育年限和地点;(b) APOE ε4 基因剂量和年龄对 PSMD 值的潜在交互作用。结果非携带者(n=1,197)、杂合子携带者(n=659)和同源 APOE ε4携带者(n=98)的 PSMD 值无显著差异(p = 0.6;图 1)。然而,APOE ε4基因剂量与年龄对PSMD的影响存在统计学意义上的显著交互作用。具体而言,与非携带者和杂合子携带者相比,同源 APOE ε4 携带者的 PSMD 随年龄的增长而陡增(T = 4.7,p<0.01; 图 2)。边际效应分析显示,与非携带者和杂合子携带者相比,估计年龄为 57 岁的 APOE ε4 同源携带者的 PSMD 值更高。今后有必要进行纵向研究,以明确 APOE ε4 等位基因影响 PSMD 的分子机制,以及这是否会导致痴呆症的发生。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Gene-dose effects of APOE ε4 on age-dependent increases in Peak Width of Skeletonised Mean Diffusivity during midlife

Introduction

The mechanistic associations between small vessel disease (SVD) and dementia are still poorly understood. The APOE ε4 allele, recognised as the strongest genetic risk factor for Alzheimer's disease, has been previously implicated in SVD, although it remains unclear whether this association is gene-dose dependent. An emerging neuroimaging biomarker of SVD is Peak Width of Skeletonised Mean Diffusivity (PSMD), obtained from histogram analyses of diffusion weighted imaging (DWI) datasets. Here, we investigated the relationship between APOE ε4 gene dose and PSMD, as a surrogate marker of SVD, in a group of cognitively normal middle-aged adults.

Methods

The study included data from 1954 asymptomatic middle-aged adults from the ALFA (ALzheimer and FAmilies) and PREVENT-Dementia cohorts (See Table 1 for sample characteristics). PSMD was calculated from the DWI datasets using a publicly available script, and harmonised using COMBAT to account for site-related differences. Using non-parametric permutation models, our primary analyses focused on the (a) comparison of group differences (APOE ε4 heterozygotes vs homozygotes vs non-carriers) in PSMD, adjusting for age, sex, years of formal education, and sites; and (b) potential interactions between APOE ε4 gene dose and age on PSMD values. Marginal predictions were used to estimate the earliest age at which differences might emerge between the APOE ε4 groups and non-carriers.

Results

There were no significant differences in PSMD values across the non-carriers (n=1,197), heterozygous carriers (n=659), and homozygous APOE ε4 carriers (n=98) (p = 0.6; Figure 1). However, there was a statistically significant interaction between APOE ε4 gene dose and age on PSMD. Specifically, homozygous APOE ε4 carriers exhibited a steeper increase in PSMD with age compared to non-carriers and heterozygous carriers (T = 4.7, p<0.01; Figure 2). Marginal effect analyses revealed higher PSMD values in homozygous APOE ε4 carriers at the estimated age of 57 relative to non-carriers and heterozygous carriers.

Discussion

Homozygosity for APOE ε4 could hasten dementia onset by accelerating age-dependent increases in PSMD. Future studies with a longitudinal design are warranted to clarify the molecular mechanisms through which the APOE ε4 allele influences PSMD and if this contributes to the contributes to the development of dementia.

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来源期刊
Cerebral circulation - cognition and behavior
Cerebral circulation - cognition and behavior Neurology, Clinical Neurology
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