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父亲年龄和祖父年龄越大,后代的端粒就越长。

Older paternal ages and grandpaternal ages at conception predict longer telomeres in human descendants.

机构信息

1 Department of Anthropology, University of Washington , Campus Box 353100, Seattle, WA 98195 , USA.

2 Center for Studies in Demography and Ecology, University of Washington , Campus Box 353100, Seattle, WA 98195 , USA.

出版信息

Proc Biol Sci. 2019 May 29;286(1903):20190800. doi: 10.1098/rspb.2019.0800.

DOI:10.1098/rspb.2019.0800
PMID:31138065
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6545073/
Abstract

Telomere length (TL) declines with age in most human tissues, and shorter TL appears to accelerate senescence. By contrast, men's sperm TL is positively correlated with age. Correspondingly, in humans, older paternal age at conception (PAC) predicts longer offspring TL. We have hypothesized that this PAC effect could persist across multiple generations, and thereby contribute to a transgenerational genetic plasticity that increases expenditures on somatic maintenance as the average age at reproduction is delayed within a lineage. Here, we examine TL data from 3282 humans together with PAC data across four generations. In this sample, the PAC effect is detectable in children and grandchildren. The PAC effect is transmitted through the matriline and patriline with similar strength and is characterized by a generational decay. PACs of more distant male ancestors were not significant predictors, although statistical power was limited in these analyses. Sensitivity analyses suggest that the PAC effect is linear, not moderated by offspring age, or maternal age, and is robust to controls for income, urbanicity and ancestry. These findings show that TL reflects the age at the reproduction of recent male matrilineal and patrilineal ancestors, with an effect that decays across generations.

摘要

端粒长度(TL)在大多数人体组织中随年龄的增长而缩短,而较短的 TL 似乎会加速衰老。相比之下,男性精子的 TL 与年龄呈正相关。相应地,在人类中,父亲在受孕时的年龄越大(PAC),则后代的 TL 越长。我们假设这种 PAC 效应可以在多个世代中持续存在,从而导致跨代遗传可塑性增加,即在一个谱系中,生殖年龄的平均延迟导致对体细胞维持的支出增加。在这里,我们研究了来自 3282 个人的 TL 数据以及四代人的 PAC 数据。在这个样本中,PAC 效应在儿童和孙辈中都可以检测到。PAC 效应通过母系和父系以相似的强度传递,并且具有代际衰减的特征。较远的男性祖先的 PAC 并不能成为显著的预测因素,尽管在这些分析中统计能力有限。敏感性分析表明,PAC 效应是线性的,不受后代年龄或母亲年龄的影响,并且不受收入、城市化程度和祖先的控制。这些发现表明,TL 反映了最近男性母系和父系祖先的生殖年龄,并且这种效应随着世代的推移而衰减。

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