在人类组织中以高时间分辨率进行细胞谱系追踪的波动甲基化时钟。

Fluctuating methylation clocks for cell lineage tracing at high temporal resolution in human tissues.

机构信息

Evolution and Cancer Laboratory, Centre for Genomics and Computational Biology, Barts Cancer Institute, Barts and the London School of Medicine and Dentistry, Queen Mary University of London, London, UK.

Department of Cell and Developmental Biology, University College London, London, UK.

出版信息

Nat Biotechnol. 2022 May;40(5):720-730. doi: 10.1038/s41587-021-01109-w. Epub 2022 Jan 3.

DOI:10.1038/s41587-021-01109-w

PMID:34980912

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9110299/

Abstract

Molecular clocks that record cell ancestry mutate too slowly to measure the short-timescale dynamics of cell renewal in adult tissues. Here, we show that fluctuating DNA methylation marks can be used as clocks in cells where ongoing methylation and demethylation cause repeated 'flip-flops' between methylated and unmethylated states. We identify endogenous fluctuating CpG (fCpG) sites using standard methylation arrays and develop a mathematical model to quantitatively measure human adult stem cell dynamics from these data. Small intestinal crypts were inferred to contain slightly more stem cells than the colon, with slower stem cell replacement in the small intestine. Germline APC mutation increased the number of replacements per crypt. In blood, we measured rapid expansion of acute leukemia and slower growth of chronic disease. Thus, the patterns of human somatic cell birth and death are measurable with fluctuating methylation clocks (FMCs).

摘要

分子钟记录细胞祖先是突变太慢，无法测量成年组织中细胞更新的短时间尺度动态。在这里，我们表明，持续的甲基化和去甲基化导致甲基化和非甲基化状态之间反复“翻转”，因此波动的 DNA 甲基化标记可以用作细胞中的时钟。我们使用标准的甲基化阵列来识别内源性波动的 CpG（fCpG）位点，并开发了一个数学模型，从这些数据中定量测量人类成体干细胞的动力学。推测小肠隐窝比结肠含有略多的干细胞，小肠中的干细胞替代速度较慢。生殖系 APC 突变增加了每个隐窝的替换数量。在血液中，我们测量了急性白血病的快速扩张和慢性疾病的缓慢增长。因此，波动的甲基化钟（FMC）可以测量人类体细胞的出生和死亡模式。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8317/9110299/c37a574c77e9/41587_2021_1109_Fig1_HTML.jpg

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在人类组织中以高时间分辨率进行细胞谱系追踪的波动甲基化时钟。

Fluctuating methylation clocks for cell lineage tracing at high temporal resolution in human tissues.

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