微环境通过旁分泌型弗林蛋白酶和 Pace4 蛋白水解活性来塑造多能性小鼠上胚层。

The microenvironment patterns the pluripotent mouse epiblast through paracrine Furin and Pace4 proteolytic activities.

机构信息

Ecole Polytechnique Fédérale de Lausanne (EPFL) SV ISREC, CH-1015 Lausanne, Switzerland.

出版信息

Genes Dev. 2011 Sep 1;25(17):1871-80. doi: 10.1101/gad.16738711.

DOI:10.1101/gad.16738711

PMID:21896659

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3175722/

Abstract

The fate of pluripotent cells in early mouse embryos is controlled by graded Nodal signals that are activated by the endoproteases Furin and Pace4. Soluble forms of Furin and Pace4 cleave proNodal in vitro and after secretion in transfected cells, but direct evidence for paracrine activity in vivo is elusive. Here, we show that Furin and Pace4 are released by the extraembryonic microenvironment, and that they cleave a membrane-bound reporter substrate in adjacent epiblast cells and activate Nodal to maintain pluripotency. Secreted Pace4 and Furin also stimulated mesoderm formation, whereas endoderm was only induced by Pace4, correlating with a difference in the spatiotemporal distribution of these proteolytic activities. Our analysis of paracrine Furin and Pace4 activities and their in vivo functions significantly advances our understanding of how the epiblast is patterned by its microenvironment. Adding cell-cell communication to the pleiotropic portfolio of these proteases provides a new framework to study proprotein processing also in other relevant contexts.

摘要

多能细胞在早期小鼠胚胎中的命运受 Nodal 信号的级联控制，该信号由内切蛋白酶 Fur in 和 Pace4 激活。Furin 和 Pace4 的可溶性形式在体外和转染细胞分泌后可切割 proNodal，但体内旁分泌活性的直接证据难以捉摸。在这里，我们表明 Fur in 和 Pace4 由胚外微环境释放，并且它们切割邻近的上胚层细胞中的膜结合报告底物，并激活 Nodal 以维持多能性。分泌的 Pace4 和 Fur in 还刺激中胚层形成，而内胚层仅由 Pace4 诱导，这与这些蛋白水解活性的时空分布差异相关。我们对旁分泌 Fur in 和 Pace4 活性及其体内功能的分析显著推进了我们对胚外环境如何对上胚层进行模式化的理解。将细胞间通讯添加到这些蛋白酶的多效性组合中，为研究其他相关情况下的前蛋白加工提供了一个新框架。

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