神经退行性疾病与表观遗传衰老和人类长寿的因果关联和共同遗传病因。

IF 7.8 1区 医学 Q1 Biochemistry, Genetics and Molecular Biology Aging Cell Pub Date : 2024-09-19 DOI:10.1111/acel.14271
Yu Guo, Guojuan Ma, Yukai Wang, Tingyan Lin, Yang Hu, Tianyi Zang
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摘要

神经退行性疾病与表观遗传衰老和人类长寿之间的遗传关系的致病机制仍然模糊不清。我们的目的是检测神经退行性疾病与表观遗传衰老和人类长寿之间的因果关联和共同遗传病因。我们获得了表观遗传年龄(GrimAge、PhenoAge、IEAA 和 HannumAge)、多变量寿命(healthspan、lifespan、和超常寿命)(N = 1,349,462 人),以及多种神经退行性疾病(N = 6618-482,730 人),包括路易体痴呆症、阿尔茨海默病(AD)、帕金森病、肌萎缩侧索硬化症和多发性硬化症。主要分析采用了乘法随机效应反方差加权孟德尔随机化(MR)和条件/连接假发现率(cond/conjFDR)方法。对共享基因组位点进行了功能表征,以获得生物学理解。证据显示,AD 患者的超常寿命减少了 0.309 年(IVW beta = -0.309,95% CI:-0.38 至 -0.24,p = 1.51E-19)。我们还观察到 AD 与 GrimAge 年龄加速之间具有暗示意义的因果关系证据(IVW beta = -0.10,95% CI:-0.188 至 -0.013,p = 0.02)。在发现多基因重叠之后,我们确定 rs78143120 是 AD 与 GrimAge 年龄加速之间的共享基因组位点,而 rs12691088 则是 AD 与超常寿命之间的共享基因组位点。在这些基因位点中,rs78143120 是 AD 的新基因位点。总之,我们观察到只有 AD 对表观遗传衰老和人类寿命有因果影响,而其他神经退行性疾病则没有。它们之间存在遗传重叠,效应方向不一,这表明存在复杂的共同遗传病因和分子机制。
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Causal associations and shared genetic etiology of neurodegenerative diseases with epigenetic aging and human longevity

The causative mechanisms underlying the genetic relationships of neurodegenerative diseases with epigenetic aging and human longevity remain obscure. We aimed to detect causal associations and shared genetic etiology of neurodegenerative diseases with epigenetic aging and human longevity. We obtained large-scale genome-wide association study summary statistics data for four measures of epigenetic age (GrimAge, PhenoAge, IEAA, and HannumAge) (N = 34,710), multivariate longevity (healthspan, lifespan, and exceptional longevity) (N = 1,349,462), and for multiple neurodegenerative diseases (N = 6618–482,730), including Lewy body dementia, Alzheimer's disease (AD), Parkinson's disease, amyotrophic lateral sclerosis, and multiple sclerosis. Main analyses were conducted using multiplicative random effects inverse-variance weighted Mendelian randomization (MR), and conditional/conjunctional false discovery rate (cond/conjFDR) approach. Shared genomic loci were functionally characterized to gain biological understanding. Evidence showed that AD patients had 0.309 year less in exceptional longevity (IVW beta = −0.309, 95% CI: −0.38 to −0.24, p = 1.51E-19). We also observed suggestively significant causal evidence between AD and GrimAge age acceleration (IVW beta = −0.10, 95% CI: −0.188 to −0.013, p = 0.02). Following the discovery of polygenic overlap, we identified rs78143120 as shared genomic locus between AD and GrimAge age acceleration, and rs12691088 between AD and exceptional longevity. Among these loci, rs78143120 was novel for AD. In conclusion, we observed that only AD had causal effects on epigenetic aging and human longevity, while other neurodegenerative diseases did not. The genetic overlap between them, with mixed effect directions, suggested complex shared genetic etiology and molecular mechanisms.

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来源期刊
Aging Cell
Aging Cell 生物-老年医学
CiteScore
14.40
自引率
2.60%
发文量
212
审稿时长
8 weeks
期刊介绍: Aging Cell, an Open Access journal, delves into fundamental aspects of aging biology. It comprehensively explores geroscience, emphasizing research on the mechanisms underlying the aging process and the connections between aging and age-related diseases.
期刊最新文献
Issue Information Featured Cover Correction to ‘Increased transcriptome variation and localised DNA methylation changes in oocytes from aged mice revealed by parallel single-cell analysis’ RETRACTION: 1,25-Dihydroxyvitamin D exerts an antiaging role by activation of Nrf2-antioxidant signaling and inactivation of p16/p53-senescence signaling Issue Information
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