H3K18ac Primes Mesendodermal Differentiation upon Nodal Signaling

Publication date: Available online 26 September 2019Source: Stem Cell ReportsAuthor(s): Maoguo Luo, Jianbo Bai, Bofeng Liu, Peiqiang Yan, Feifei Zuo, Hongyao Sun, Ye Sun, Xuanhao Xu, Zhihong Song, Yang Yang, Joan Massagué, Xun Lan, Zhi Lu, Ye-Guang Chen, Haiteng Deng, Wei Xie, Qiaoran XiSummaryCellular responses to transforming growth factor β (TGF-β) depend on cell context. Here, we explored how TGF-β/nodal signaling crosstalks with the epigenome to promote mesendodermal differentiation. We find that expression of a group of mesendodermal genes depends on both TRIM33 and nodal signaling in embryoid bodies (EBs) but not in embryonic stem cells (ESCs). Only in EBs, TRIM33 binds these genes in the presence of expanded H3K18ac marks. Furthermore, the H3K18ac landscape at mesendodermal genes promotes TRIM33 recruitment. We reveal that HDAC1 binds to active gene promoters and interferes with TRIM33 recruitment to mesendodermal gene promoters. However, the TRIM33-interacting protein p300 deposits H3K18ac and further enhances TRIM33 recruitment. ATAC-seq data demonstrate that TRIM33 primes mesendodermal genes for activation by maintaining chromatin accessibility at their regulatory regions. Altogether, our study suggests that HDAC1 and p300 are key factors linking the epigenome through TRIM33 to the cell context-dependent nodal response during mesendodermal differentiation.
Source: Stem Cell Reports - Category: Stem Cells Source Type: research