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INO80对于近端-远端轴不对称性至关重要,部分原因是它通过调节Bmp4的表达来实现的。

Ino80 is essential for proximal-distal axis asymmetry in part by regulating Bmp4 expression.

作者信息

Qiu Zhijun, Elsayed Zeinab, Peterkin Veronica, Alkatib Suehyb, Bennett Dorothy, Landry Joseph W

机构信息

Department of Human and Molecular Genetics, Virginia Institute of Molecular Medicine, Massey Cancer Center, Virginia Commonwealth University School of Medicine, Richmond, VA, 23298, USA.

出版信息

BMC Biol. 2016 Mar 14;14:18. doi: 10.1186/s12915-016-0238-5.

DOI:10.1186/s12915-016-0238-5
PMID:26975355
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4790052/
Abstract

BACKGROUND

Understanding how embryos specify asymmetric axes is a major focus of biology. While much has been done to discover signaling pathways and transcription factors important for axis specification, comparatively little is known about how epigenetic regulators are involved. Epigenetic regulators operate downstream of signaling pathways and transcription factors to promote nuclear processes, most prominently transcription. To discover novel functions for these complexes in axis establishment during early embryonic development, we characterized phenotypes of a mouse knockout (KO) allele of the chromatin remodeling Ino80 ATPase.

RESULTS

Ino80 KO embryos implant, but fail to develop beyond the egg cylinder stage. Ino80 KO embryonic stem cells (ESCs) are viable and maintain alkaline phosphatase activity, which is suggestive of pluripotency, but they fail to fully differentiate as either embryoid bodies or teratomas. Gene expression analysis of Ino80 KO early embryos by in situ hybridization and embryoid bodies by RT-PCR shows elevated Bmp4 expression and reduced expression of distal visceral endoderm (DVE) markers Cer1, Hex, and Lefty1. In culture, Bmp4 maintains stem cell pluripotency and when overexpressed is a known negative regulator of DVE differentiation in the early embryo. Consistent with the early embryo, we observed upregulated Bmp4 expression and down-regulated Cer1, Hex, and Lefty1 expression when Ino80 KO ESCs are differentiated in a monolayer. Molecular studies in these same cells demonstrate that Ino80 bound to the Bmp4 promoter regulates its chromatin structure, which correlates with enhanced SP1 binding. These results in combination suggest that Ino80 directly regulates the chromatin structure of the Bmp4 promoter with consequences to gene expression.

CONCLUSIONS

In contrast to Ino80 KO differentiated cells, our experiments show that undifferentiated Ino80 KO ESCs are viable, but fail to differentiate in culture and in the early embryo. Ino80 KO ESCs and the early embryo up-regulate Bmp4 expression and down-regulate the expression of DVE markers Cer1, Hex and Lefty1. Based on this data, we propose a model where the Ino80 chromatin remodeling complex represses Bmp4 expression in the early embryo, thus promoting DVE differentiation and successful proximal-distal axis establishment. These results are significant because they show that epigenetic regulators have specific roles in establishing embryonic axes. By further characterizing these complexes, we will deepen our understanding of how the mammalian embryo is patterned by epigenetic regulators.

摘要

背景

了解胚胎如何确定不对称轴是生物学的一个主要研究重点。虽然在发现对轴确定重要的信号通路和转录因子方面已经做了很多工作,但对于表观遗传调节因子如何参与其中却知之甚少。表观遗传调节因子在信号通路和转录因子的下游发挥作用,以促进核过程,最显著的是转录。为了发现这些复合物在早期胚胎发育过程中轴建立中的新功能,我们对染色质重塑Ino80 ATP酶的小鼠敲除(KO)等位基因的表型进行了表征。

结果

Ino80 KO胚胎能够着床,但在卵柱期之后无法发育。Ino80 KO胚胎干细胞(ESC)是有活力的,并保持碱性磷酸酶活性,这表明具有多能性,但它们在作为胚状体或畸胎瘤时无法完全分化。通过原位杂交对Ino80 KO早期胚胎进行基因表达分析,以及通过RT-PCR对胚状体进行分析,结果显示Bmp4表达升高,而远端内脏内胚层(DVE)标记物Cer1、Hex和Lefty1的表达降低。在培养中,Bmp4维持干细胞的多能性,并且当过度表达时是早期胚胎中DVE分化的已知负调节因子。与早期胚胎一致,当Ino80 KO ESC在单层中分化时,我们观察到Bmp

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4c15/4790052/19ef4f9e9451/12915_2016_238_Fig5_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4c15/4790052/c1b33435ab97/12915_2016_238_Fig1_HTML.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4c15/4790052/19ef4f9e9451/12915_2016_238_Fig5_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4c15/4790052/c1b33435ab97/12915_2016_238_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4c15/4790052/7726c45eafc3/12915_2016_238_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4c15/4790052/b3dd362e8227/12915_2016_238_Fig3_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4c15/4790052/d13ad7b92312/12915_2016_238_Fig4_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4c15/4790052/19ef4f9e9451/12915_2016_238_Fig5_HTML.jpg

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