孟德尔随机化
端粒
医学
因果关系(物理学)
生物标志物
疾病
风险因素
生物信息学
老年学
遗传学
病理
基因型
生物
DNA
遗传变异
物理
基因
量子力学
作者
Tim De Meyer,Tim S. Nawrot,Sofie Bekaert,Marc De Buyzere,Ernst Rietzschel,Vicente Andrés
标识
DOI:10.1016/j.jacc.2018.06.014
摘要
Telomeres shorten with age, the major risk factor for atherosclerotic cardiovascular disease (aCVD). The observation of shorter telomeres in aCVD patients thus suggested that critical telomere shortening may contribute to premature biological aging and aCVD. Therefore, telomere length often is suggested as a causal aCVD risk factor, a proposal supported by recent Mendelian randomization studies; however, epidemiological research has shown disappointingly low effect sizes. It therefore remains uncertain whether telomere shortening is a cause of aCVD or merely a consequence. The authors argue that elucidating the mechanistic foundation of these findings is essential for any possible translation of telomere biology to the clinic. Here, they critically evaluate evidence for causality in animal models and human studies, and review popular hypotheses and discuss their clinical implications. The authors identify 4 key questions that any successful mechanistic theory should address, and they discuss how atherosclerosis-associated local telomere attrition may provide the answers.
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