肥胖与细胞老化标志相关疾病的风险:一项多队列研究。

IF 13.4 Q1 GERIATRICS & GERONTOLOGY
Prof Mika Kivimäki FMedSci , Philipp Frank PhD , Jaana Pentti MSc , Xiaolin Xu PhD , Prof Jussi Vahtera MD , Jenni Ervasti PhD , Solja T Nyberg PhD , Joni V Lindbohm MD , Prof Markus Jokela PhD , Prof Linda Partridge FMedSci
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引用次数: 0

摘要

背景:衰老标志是细胞衰老的特征,在许多与年龄有关的疾病的病理生理学中发挥作用。我们研究了肥胖是否与罹患此类标志性疾病的风险增加有关:在这项多队列研究中,我们纳入了年龄在 38-72 岁之间、在 2006 年 3 月 13 日至 2010 年 10 月 1 日期间接受临床检查时测量了体重、身高和腰围数据的人群,这些数据来自英国生物库,随访至 2021 年 11 月 12 日。为了检验研究结果的可重复性(复制分析),我们使用了芬兰公共部门研究和芬兰健康与社会支持研究中40岁或40岁以上人群的数据,这些人群对研究调查做出了回应,拥有体重指数数据,并与截至2016年12月31日的国家登记册电子健康记录成功链接。肥胖和临床特征在基线时进行了评估。通过与国家健康记录的链接,对参与者的 83 种疾病进行了随访,这些疾病与九种老化标志(基因组不稳定、端粒损耗、表观遗传学改变、蛋白稳态丧失、营养传感失调、线粒体功能障碍、细胞衰老、干细胞衰竭和细胞间通信改变)有关。结果是首次出现与标志性疾病相关的疾病,以及同时出现三种或三种以上与标志性疾病相关的疾病和死亡率:主要分析包括英国生物库中的 496 530 名成人(平均年龄 57-0 岁 [SD 8-1]),复制分析包括芬兰队列中的 83 249 名成人(平均年龄 48-2 岁 [6-4])。英国生物库的随访中位数为12-7年(IQR为12-0-13-4),芬兰队列的随访中位数为14-0年(8-0-15-0)。在对人口统计学特征、生活方式因素和抑郁进行调整后,英国生物库参与者中肥胖者(体重指数≥30-0 kg/m2)首次罹患标志性疾病的危险比是体重健康者(体重指数18-5-24-9 kg/m2)的1-40(95% CI 1-38-1-41)倍。三种并发疾病的相应危险比分别为:营养传感失调 2-92 (95% CI 2-64-3-22);端粒损耗 2-73 (2-46-3-02);表观遗传改变 2-33 (2-10-2-60);线粒体功能障碍 2-30 (2-14-2-48)、2-23(2-04-2-45)为干细胞衰竭,2-02(1-89-2-16)为细胞间交流改变,2-01(1-89-2-15)为细胞衰老,1-83(1-67-2-00)为蛋白稳态丧失,1-39(1-27-1-52)为基因组不稳定。这些结果在芬兰队列中得到了重复。在这两项研究中,其他风险因素(教育程度低、不健康饮食因素[仅在英国生物库中提供]、吸烟、高酒精消耗量、缺乏运动和抑郁)与标志性相关疾病之间的关联弱于与肥胖相关的关联。肥胖症患者45%-60%的超额死亡率可归因于标志性疾病:释义:肥胖可能在与细胞老化相关的疾病发展中扮演重要角色。解决老化机制问题可能有助于减轻肥胖症流行造成的疾病和死亡负担:惠康信托基金会、英国医学研究委员会、美国国家老龄化研究所、芬兰科学院和芬兰心血管研究基金会:摘要的德语和芬兰语译文见补充材料部分。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Obesity and risk of diseases associated with hallmarks of cellular ageing: a multicohort study

Background

Ageing hallmarks, characterising features of cellular ageing, have a role in the pathophysiology of many age-related diseases. We examined whether obesity is associated with an increased risk of developing such hallmark-related diseases.

Methods

In this multicohort study, we included people aged 38–72 years with data on weight, height, and waist circumference measured during a clinical examination at baseline between March 13, 2006, and Oct 1, 2010, from the UK Biobank with follow-up until Nov 12, 2021. To test reproducibility of the findings (replication analysis), we used data from people aged 40 years or older included in the Finnish Public Sector study and the Finnish Health and Social Support study who responded to the study surveys, had data on BMI, and were successfully linked to electronic health records from national registers up to Dec 31, 2016. Obesity and clinical characteristics were assessed at baseline. Via linkage to national health records, participants were followed up for 83 diseases related to nine ageing hallmarks (genomic instability, telomere attrition, epigenetic alterations, loss of proteostasis, deregulated nutrient sensing, mitochondrial dysfunction, cellular senescence, stem cell exhaustion, and altered intercellular communication). Outcomes were the first instance of hallmark-related disease, in addition to co-occurrence of three or more hallmark-related diseases and mortality.

Findings

496 530 adults (mean age 57·0 years [SD 8·1]) from the UK Biobank were included in the primary analysis, and 83 249 (mean age 48·2 years [6·4]) adults from the Finnish cohorts were included in the replication analysis. Median follow-up was 12·7 years (IQR 12·0–13·4) in the UK Biobank and 14·0 years (8·0–15·0) in the Finnish cohorts. After adjusting for demographic characteristics, lifestyle factors, and depression, UK Biobank participants with obesity (BMI ≥30·0 kg/m2) had a 1·40 (95% CI 1·38–1·41) times higher hazard ratio for the first hallmark-related disease than those with a healthy weight (BMI 18·5–24·9 kg/m2). The corresponding hazard ratios for three co-occurring diseases were 2·92 (95% CI 2·64–3·22) for deregulated nutrient sensing, 2·73 (2·46–3·02) for telomere attrition, 2·33 (2·10–2·60) for epigenetic alterations, 2·30 (2·14–2·48) for mitochondrial dysfunction, 2·23 (2·04–2·45) for stem cell exhaustion, 2·02 (1·89–2·16) for altered intercellular communication, 2·01 (1·89–2·15) for cellular senescence, 1·83 (1·67–2·00) for loss of proteostasis, and 1·39 (1·27–1·52) for genomic instability. These findings were replicated in the Finnish cohorts. In both studies, the associations between other risk factors (low education, unhealthy dietary factors [available only in the UK Biobank], smoking, high alcohol consumption, physical inactivity, and depression) and hallmark-related diseases were weaker than those with obesity. 45–60% of the excess mortality in people with obesity was attributable to hallmark-related diseases.

Interpretation

Obesity might have an important role in the development of diseases associated with cellular ageing. Tackling ageing mechanisms could potentially help to reduce the disease and mortality burden resulting from the obesity epidemic.

Funding

Wellcome Trust, UK Medical Research Council, US National Institute on Aging, Academy of Finland, and Finnish Foundation for Cardiovascular Research.

Translations

For the German and Finnish translations of the abstract see Supplementary Materials section.

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来源期刊
Lancet Healthy Longevity
Lancet Healthy Longevity GERIATRICS & GERONTOLOGY-
CiteScore
16.30
自引率
2.30%
发文量
192
审稿时长
12 weeks
期刊介绍: The Lancet Healthy Longevity, a gold open-access journal, focuses on clinically-relevant longevity and healthy aging research. It covers early-stage clinical research on aging mechanisms, epidemiological studies, and societal research on changing populations. The journal includes clinical trials across disciplines, particularly in gerontology and age-specific clinical guidelines. In line with the Lancet family tradition, it advocates for the rights of all to healthy lives, emphasizing original research likely to impact clinical practice or thinking. Clinical and policy reviews also contribute to shaping the discourse in this rapidly growing discipline.
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