Oct4 is required for lineage priming in the developing inner cell mass of the mouse blastocyst

外胚层 生物 内细胞团 胚泡 同源盒蛋白纳米 内胚层 纳米同源盒蛋白 胚胎干细胞 细胞生物学 重编程 细胞分化 遗传学 胚胎 SOX2 干细胞 原肠化 胚胎发生 诱导多能干细胞 细胞 基因
作者
Gloryn Chia,Silvia Muñoz‐Descalzo,Agata Kurowski,Harry G. Leitch,Xinghua Lou,W Mansfield,Charles-Étienne Dumeau,Nils Grabole,Carla Mulas,Hitoshi Niwa,Anna‐Katerina Hadjantonakis,Jennifer Nichols
出处
期刊:Development [The Company of Biologists]
卷期号:141 (5): 1001-1010 被引量:170
标识
DOI:10.1242/dev.096875
摘要

The transcription factor Oct4 is required in vitro for establishment and maintenance of embryonic stem cells and for reprogramming somatic cells to pluripotency. In vivo, it prevents the ectopic differentiation of early embryos into trophoblast. Here, we further explore the role of Oct4 in blastocyst formation and specification of epiblast versus primitive endoderm lineages using conditional genetic deletion. Experiments involving mouse embryos deficient for both maternal and zygotic Oct4 suggest that it is dispensable for zygote formation, early cleavage and activation of Nanog expression. Nanog protein is significantly elevated in the presumptive inner cell mass of Oct4 null embryos, suggesting an unexpected role for Oct4 in attenuating the level of Nanog, which might be significant for priming differentiation during epiblast maturation. Induced deletion of Oct4 during the morula to blastocyst transition disrupts the ability of inner cell mass cells to adopt lineage-specific identity and acquire the molecular profile characteristic of either epiblast or primitive endoderm. Sox17, a marker of primitive endoderm, is not detected following prolonged culture of such embryos, but can be rescued by provision of exogenous FGF4. Interestingly, functional primitive endoderm can be rescued in Oct4-deficient embryos in embryonic stem cell complementation assays, but only if the host embryos are at the pre-blastocyst stage. We conclude that cell fate decisions within the inner cell mass are dependent upon Oct4 and that Oct4 is not cell-autonomously required for the differentiation of primitive endoderm derivatives, as long as an appropriate developmental environment is established.

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