全球 H3.3 动态沉积定义了其在细胞命运转变中的双重作用模式。

Global H3.3 dynamic deposition defines its bimodal role in cell fate transition.

机构信息

Epigenetics and Cell Fates Laboratory, Programme in Stem Cell, Regenerative Medicine and Ageing, A*STAR Institute of Molecular and Cell Biology, Singapore, 138673, Singapore.

Department of Biological Sciences, National University of Singapore, Singapore, 117543, Singapore.

出版信息

Nat Commun. 2018 Apr 18;9(1):1537. doi: 10.1038/s41467-018-03904-7.

DOI:10.1038/s41467-018-03904-7

PMID:29670118

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5906632/

Abstract

H3.3 is a histone variant, which is deposited on genebodies and regulatory elements, by Hira, marking active transcription. Moreover, H3.3 is deposited on heterochromatin by Atrx/Daxx complex. The exact role of H3.3 in cell fate transition remains elusive. Here, we investigate the dynamic changes in the deposition of the histone variant H3.3 during cellular reprogramming. H3.3 maintains the identities of the parental cells during reprogramming as its removal at early time-point enhances the efficiency of the process. We find that H3.3 plays a similar role in transdifferentiation to hematopoietic progenitors and neuronal differentiation from embryonic stem cells. Contrastingly, H3.3 deposition on genes associated with the newly reprogrammed lineage is essential as its depletion at the later phase abolishes the process. Mechanistically, H3.3 deposition by Hira, and its K4 and K36 modifications are central to the role of H3.3 in cell fate conversion. Finally, H3.3 safeguards fibroblast lineage by regulating Mapk cascade and collagen synthesis.

摘要

H3.3 是一种组蛋白变体，由 Hira 沉积在基因体和调控元件上，标记活跃的转录。此外，H3.3 由 Atrx/Daxx 复合物沉积在异染色质上。H3.3 在细胞命运转变中的确切作用仍不清楚。在这里，我们研究了在细胞重编程过程中组蛋白变体 H3.3 的沉积的动态变化。H3.3 在重编程过程中保持亲本细胞的身份，因为在早期去除它会提高过程的效率。我们发现 H3.3 在造血祖细胞的转分化和胚胎干细胞向神经元分化中发挥类似的作用。相比之下，H3.3 沉积在与新重编程谱系相关的基因上是必不可少的，因为在后期去除它会使该过程终止。从机制上讲，Hira 介导的 H3.3 沉积及其 K4 和 K36 修饰是 H3.3 在细胞命运转换中的作用的核心。最后，H3.3 通过调节 Mapk 级联和胶原蛋白合成来保护成纤维细胞谱系。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b5f2/5906632/76bfa263f753/41467_2018_3904_Fig1_HTML.jpg

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全球 H3.3 动态沉积定义了其在细胞命运转变中的双重作用模式。

Global H3.3 dynamic deposition defines its bimodal role in cell fate transition.

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