加速生物学年龄与遗传易感性联合与痴呆发病的相关性:英国生物库的前瞻性研究。
Associations of combined accelerated biological aging and genetic susceptibility with incident dementia: a prospective study in the UK Biobank.
机构信息
Key Laboratory of Health Technology Assessment of Fujian Province, School of Public Health, Xiamen University, Xiang'an Nan Road, Xiang'an District, Xiamen, Fujian, 361102, China.
National Institute for Data Science in Health and Medicine, Xiamen University, Xiang'an Nan Road, Xiang'an District, Xiamen, Fujian, 361102, China.
出版信息
BMC Med. 2024 Sep 30;22(1):425. doi: 10.1186/s12916-024-03640-4.
BACKGROUND
Accelerated biological aging has been verified to be a critical risk factor for a number of age-related diseases, but its role in dementia remained unclear. Whether it modified the effects of genetic factors was also unknown. This study evaluated the associations between accelerated biological aging and dementia and the moderating role of accelerated biological aging in the genetic susceptibility to the disease.
METHODS
We included 200,731 participants in the UK biobank. Nine clinical blood biomarkers and chronological age were used to calculate Phenotypic age acceleration (PhenoAgeAccel), which is a novel indicator for accelerated biological aging. The associations of PhenoAgeAccel with dementia, both young-onset and late-onset dementia, were assessed by Cox proportional hazard models. Apolipoprotein E (APOE) alleles and polygenic risk scores (PRS) were used to evaluate the genetic risk of dementia. The interactions between genetic susceptibility and biological aging were tested on both multiplicative and additive scales.
RESULTS
These findings showed individuals who were in the highest quartile of PhenoAgeAccel had a higher risk with incidence of dementia compared to individuals in the lowest quartile of PhenoAgeAccel (HR: 1.145 (95% CI: 1.050, 1.249)). Individuals with biologically older had a higher risk of dementia than individuals with biologically younger (HR: 1.069 (95% CI: 1.004, 1.138)). Furthermore, compared to individuals with biologically younger and low APOE ε4-related genetic risk, individuals with biologically younger and high APOE ε4-related genetic risk (HR:3.048 (95% CI: 2.811, 3.305)) had a higher risk of dementia than individuals with biologically older and high APOE ε4-related genetic risk (HR: 2.765 (95% CI: 2.523, 3.029)). Meanwhile, referring to low dementia PRS and biologically younger, the risk of dementia increased by 72.7% (HR: 1.727 (95% CI: 1.538, 1.939) in the biologically younger and high PRS group and 58.7% (HR: 1.587 (95% CI: 1.404, 1.793) in the biologically older and high PRS group, respectively. The negative interactions between PhenoAgeAccel with APOE ε4 and PRS were also tested on the additive scale.
CONCLUSIONS
Accelerated biological aging could bring the extra risk of dementia but attenuate the effects of genetic risk on dementia. These findings provide insights for precise prevention and intervention of dementia.
背景
加速的生物衰老已被证实是多种与年龄相关疾病的关键风险因素,但它在痴呆症中的作用仍不清楚。它是否改变了遗传因素的作用也不得而知。本研究评估了加速的生物衰老与痴呆症之间的关系,以及加速的生物衰老在疾病遗传易感性中的调节作用。
方法
我们纳入了英国生物库中的 200731 名参与者。使用 9 项临床血液生物标志物和实际年龄来计算表型年龄加速(PhenoAgeAccel),这是一种用于评估生物衰老的新指标。使用 Cox 比例风险模型评估 PhenoAgeAccel 与痴呆症(包括早发性和晚发性痴呆症)之间的关联。使用载脂蛋白 E(APOE)等位基因和多基因风险评分(PRS)来评估痴呆症的遗传风险。在乘法和加法尺度上测试了遗传易感性与生物衰老之间的相互作用。
结果
研究结果显示,与 PhenoAgeAccel 最低四分位数的个体相比,处于最高四分位数的个体患痴呆症的风险更高(HR:1.145(95%CI:1.050,1.249))。与生物学上较年轻的个体相比,生物学上较老的个体患痴呆症的风险更高(HR:1.069(95%CI:1.004,1.138))。此外,与生物学上较年轻且 APOE ε4 相关遗传风险较低的个体相比,生物学上较年轻且 APOE ε4 相关遗传风险较高的个体(HR:3.048(95%CI:2.811,3.305))患痴呆症的风险高于生物学上较老且 APOE ε4 相关遗传风险较高的个体(HR:2.765(95%CI:2.523,3.029))。同时,与低痴呆症 PRS 和生物学上较年轻相比,在生物学上较年轻且 PRS 较高的组中,痴呆症的风险增加了 72.7%(HR:1.727(95%CI:1.538,1.939)),在生物学上较老且 PRS 较高的组中,痴呆症的风险增加了 58.7%(HR:1.587(95%CI:1.404,1.793))。还在加法尺度上测试了 PhenoAgeAccel 与 APOE ε4 和 PRS 之间的负交互作用。
结论
加速的生物衰老可能会带来痴呆症的额外风险,但会减弱遗传风险对痴呆症的影响。这些发现为痴呆症的精准预防和干预提供了依据。
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