奇数跳过相关蛋白1是节点诱导的内胚层发育的负反馈调节因子。

Odd skipped related 1 is a negative feedback regulator of nodal-induced endoderm development.

作者信息

Terashima Alexandra V, Mudumana Sudha P, Drummond Iain A

机构信息

Department of Genetics, Harvard Medical School, Boston, Massachusetts.

出版信息

Dev Dyn. 2014 Dec;243(12):1571-80. doi: 10.1002/dvdy.24191. Epub 2014 Oct 18.

DOI:10.1002/dvdy.24191

PMID:25233796

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4278437/

Abstract

BACKGROUND

Early embryo patterning is orchestrated by tightly regulated morphogen gradients. The Nodal morphogen patterns the mesendoderm, giving rise to all endoderm and head and trunk mesoderm. High Nodal concentrations favor endoderm differentiation while lower promote mesoderm differentiation. Nodal signaling is controlled by both positive and negative feedback regulation to ensure robust developmental patterning.

RESULTS

Here we identify odd skipped related 1 (osr1), a zinc finger transcription factor, as a new element in Nodal feedback regulation affecting endoderm development. We show that osr1 expression in zebrafish germ ring mesendoderm requires Nodal signaling; osr1 expression was lost in embryos lacking Nodal signaling. Conversely, osr1 expression was ectopically induced by the activation of Nodal signaling. Furthermore we demonstrate that osr1 responds directly to Nodal signaling. Additionally, osr1 knockdown generated excess endoderm cells marked by sox32 expression while expression of osr1 mRNA was not affected in sox32-deficient embryos.

CONCLUSIONS

Our findings identify osr1 as a Nodal-induced, negative feedback regulator of Nodal signaling that acts at the earliest stages of endoderm differentiation to limit the number of endoderm progenitors. As such, we propose that osr1 represents a novel network motif controlling the output of Nodal signaling to regulate mesendoderm patterning.

摘要

背景

早期胚胎模式形成由严格调控的形态发生素梯度精心编排。Nodal形态发生素决定中内胚层模式，产生所有内胚层以及头部和躯干中胚层。高浓度的Nodal有利于内胚层分化，而低浓度则促进中胚层分化。Nodal信号传导受正反馈和负反馈调节的控制，以确保稳健的发育模式形成。

结果

在此，我们鉴定出锌指转录因子odd skipped相关1（osr1），它是影响内胚层发育的Nodal反馈调节中的一个新元件。我们表明，斑马鱼胚环中内胚层中的osr1表达需要Nodal信号传导；在缺乏Nodal信号传导的胚胎中，osr1表达缺失。相反，osr1表达通过Nodal信号传导的激活而被异位诱导。此外，我们证明osr1直接响应Nodal信号传导。另外，osr1敲低产生了以sox32表达为标记的过量内胚层细胞，而在sox32缺陷胚胎中osr1 mRNA的表达不受影响。

结论

我们的研究结果确定osr1是Nodal诱导的Nodal信号传导的负反馈调节因子，它在内胚层分化的最早阶段起作用，以限制内胚层祖细胞的数量。因此，我们提出osr1代表一种控制Nodal信号传导输出以调节中内胚层模式形成的新型网络基序。

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