血液的衰老可以通过仅三个CpG位点的DNA甲基化变化来追踪。

Aging of blood can be tracked by DNA methylation changes at just three CpG sites.

作者信息

Weidner Carola Ingrid, Lin Qiong, Koch Carmen Maike, Eisele Lewin, Beier Fabian, Ziegler Patrick, Bauerschlag Dirk Olaf, Jöckel Karl-Heinz, Erbel Raimund, Mühleisen Thomas Walter, Zenke Martin, Brümmendorf Tim Henrik, Wagner Wolfgang

出版信息

Genome Biol. 2014 Feb 3;15(2):R24. doi: 10.1186/gb-2014-15-2-r24.

DOI:10.1186/gb-2014-15-2-r24

PMID:24490752

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4053864/

Abstract

BACKGROUND

Human aging is associated with DNA methylation changes at specific sites in the genome. These epigenetic modifications may be used to track donor age for forensic analysis or to estimate biological age.

RESULTS

We perform a comprehensive analysis of methylation profiles to narrow down 102 age-related CpG sites in blood. We demonstrate that most of these age-associated methylation changes are reversed in induced pluripotent stem cells (iPSCs). Methylation levels at three age-related CpGs--located in the genes ITGA2B, ASPA and PDE4C--were subsequently analyzed by bisulfite pyrosequencing of 151 blood samples. This epigenetic aging signature facilitates age predictions with a mean absolute deviation from chronological age of less than 5 years. This precision is higher than age predictions based on telomere length. Variation of age predictions correlates moderately with clinical and lifestyle parameters supporting the notion that age-associated methylation changes are associated more with biological age than with chronological age. Furthermore, patients with acquired aplastic anemia or dyskeratosis congenita--two diseases associated with progressive bone marrow failure and severe telomere attrition--are predicted to be prematurely aged.

CONCLUSIONS

Our epigenetic aging signature provides a simple biomarker to estimate the state of aging in blood. Age-associated DNA methylation changes are counteracted in iPSCs. On the other hand, over-estimation of chronological age in bone marrow failure syndromes is indicative for exhaustion of the hematopoietic cell pool. Thus, epigenetic changes upon aging seem to reflect biological aging of blood.

摘要

背景

人类衰老与基因组中特定位点的DNA甲基化变化有关。这些表观遗传修饰可用于法医分析中追踪供体年龄或估计生物学年龄。

结果

我们对甲基化谱进行了全面分析，以缩小血液中102个与年龄相关的CpG位点范围。我们证明，这些与年龄相关的甲基化变化大多数在诱导多能干细胞（iPSC）中会发生逆转。随后通过对151份血液样本进行亚硫酸氢盐焦磷酸测序，分析了位于ITGA2B、ASPA和PDE4C基因中的三个与年龄相关的CpG的甲基化水平。这种表观遗传衰老特征有助于进行年龄预测，其与实际年龄的平均绝对偏差小于5岁。这种精度高于基于端粒长度的年龄预测。年龄预测的差异与临床和生活方式参数呈适度相关，这支持了与年龄相关的甲基化变化与生物学年龄而非实际年龄关联更大的观点。此外，获得性再生障碍性贫血或先天性角化不良患者（两种与进行性骨髓衰竭和严重端粒损耗相关的疾病）被预测为过早衰老。

结论

我们的表观遗传衰老特征提供了一种简单的生物标志物来估计血液中的衰老状态。与年龄相关的DNA甲基化变化在iPSC中会被抵消。另一方面，骨髓衰竭综合征中实际年龄的高估表明造血细胞池已耗尽。因此，衰老过程中的表观遗传变化似乎反映了血液的生物学衰老。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/221c/4053864/e1b049175f46/gb-2014-15-2-r24-1.jpg

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血液的衰老可以通过仅三个CpG位点的DNA甲基化变化来追踪。

Aging of blood can be tracked by DNA methylation changes at just three CpG sites.

作者信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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