全基因组范围内的组蛋白修饰图谱揭示了毛囊谱系体内染色质状态。

Genome-wide maps of histone modifications unwind in vivo chromatin states of the hair follicle lineage.

机构信息

Howard Hughes Medical Institute, Laboratory of Mammalian Cell Biology & Development, The Rockefeller University, New York, NY 10065, USA.

出版信息

Cell Stem Cell. 2011 Sep 2;9(3):219-32. doi: 10.1016/j.stem.2011.07.015.

DOI:10.1016/j.stem.2011.07.015

PMID:21885018

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3166618/

Abstract

Using mouse skin, where bountiful reservoirs of synchronized hair follicle stem cells (HF-SCs) fuel cycles of regeneration, we explore how adult SCs remodel chromatin in response to activating cues. By profiling global mRNA and chromatin changes in quiescent and activated HF-SCs and their committed, transit-amplifying (TA) progeny, we show that polycomb-group (PcG)-mediated H3K27-trimethylation features prominently in HF-lineage progression by mechanisms distinct from embryonic-SCs. In HF-SCs, PcG represses nonskin lineages and HF differentiation. In TA progeny, nonskin regulators remain PcG-repressed, HF-SC regulators acquire H3K27me3-marks, and HF-lineage regulators lose them. Interestingly, genes poised in embryonic stem cells, active in HF-SCs, and PcG-repressed in TA progeny encode not only key transcription factors, but also signaling regulators. We document their importance in balancing HF-SC quiescence, underscoring the power of chromatin mapping in dissecting SC behavior. Our findings explain how HF-SCs cycle through quiescent and activated states without losing stemness and define roles for PcG-mediated repression in governing a fate switch irreversibly.

摘要

利用富含同步毛囊干细胞 (HF-SC) 的小鼠皮肤，我们探索了成年干细胞如何响应激活信号重塑染色质。通过对静止和激活的 HF-SC 及其定向的、过渡扩增 (TA) 祖细胞的全局 mRNA 和染色质变化进行分析，我们发现多梳组 (PcG) 介导的 H3K27 三甲基化通过不同于胚胎干细胞的机制在 HF 谱系进展中具有重要作用。在 HF-SC 中，PcG 抑制非皮肤谱系和 HF 分化。在 TA 祖细胞中，非皮肤调节因子仍然被 PcG 抑制，HF-SC 调节因子获得 H3K27me3 标记，而 HF 谱系调节因子失去它们。有趣的是，在胚胎干细胞中处于静止状态、在 HF-SC 中活跃且在 TA 祖细胞中被 PcG 抑制的基因不仅编码关键转录因子，还编码信号调节因子。我们记录了它们在平衡 HF-SC 静止状态中的重要性，突出了染色质图谱在剖析干细胞行为方面的强大功能。我们的发现解释了 HF-SC 如何在不失去干细胞特性的情况下循环进入静止和激活状态，并定义了 PcG 介导的抑制在不可逆地控制命运转变中的作用。

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