胚胎干细胞
双稳态
Wnt信号通路
细胞生物学
生物
干细胞
激活剂(遗传学)
细胞分化
原始条纹
化学
神经科学
调节器
福斯科林
神经干细胞
SOX2
节点信号
细胞命运测定
定向微分
物理
光遗传学
信号转导
KLF4公司
生殖系
干草叉分叉
成纤维细胞生长因子
拓扑(电路)
祖细胞
诱导多能干细胞
作者
Peng Chen,Zhenhua Zhu,Baoxing Dong,Junxiang Ji,Yuqing Zhu,Junbo Duan,Lefan Wu,Qian Ban,Wenqiang Liu,Shoudong Ye
标识
DOI:10.1083/jcb.202504054
摘要
While current pluripotency models capture discrete embryonic stages, they inadequately resolve transitional states during peri-implantation development. Here, we establish rosette-formative intermediate stem cells (rfISCs) from mouse embryonic stem cells using the MEK inhibitor PD0325901, the Wnt inhibitor IWR1, and the PKA activator Forskolin. These cells exhibit transcriptomic/epigenetic profiles mirroring those of E5.0‒5.5 epiblasts, bridging rosette-stage and formative pluripotency. rfISCs demonstrate developmental bipotency, retaining in vitro germline differentiation capacity while generating germline-competent chimeras in vivo. Mechanistically, we identified opposing signaling axes that govern rfISC identification through the regulation of lineage priming: IWR1 stabilizes Tcf7l1 to drive Otx2-mediated rfISC specification and neural priming, whereas Forskolin activates PKA to induce Id1-dependent neural suppression. This creates a bistable regulatory circuit in which Otx2/Id1 synergy maintains pluripotency plasticity under MEK inhibition. Notably, rfISCs can be directly derived from E5.25 epiblasts, confirming their physiological relevance. Our work bridges a fundamental gap in pluripotency modeling by capturing the RSC-to-FSC transition through dynamic signaling equilibria.
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