胶质3
生物
神经嵴
刺猬
胚胎干细胞
音猬因子
刺猬信号通路
基因敲除
转录因子
人口
细胞生物学
神经科学
信号转导
颅神经嵴
条件基因敲除
干细胞
细胞分化
神经形成
神经干细胞
细胞信号
胶质2
中胚层
Notch信号通路
神经上皮细胞
成纤维细胞生长因子
前体细胞
胚胎发生
神经发育
发育生物学
FGF8型
神经管
细胞命运测定
作者
S Angeles Han,Vinit Adani,Edward Farrow,Bhaval Parmar,Ching-Fang Chang,Kim Cochran,Ronald R. Horne,Paige J.K. Ramkissoon,Ezekiel Esteban,Kelsey H. Elliott,Kevin A. Peterson,Brian Gebelein,Martín García-Castro,Samantha A. Brugmann
出处
期刊:Development
[The Company of Biologists]
日期:2025-12-29
卷期号:153 (1)
摘要
Neural crest cells (NCCs) are a population of multipotent cells that undergo specification, epithelial-to-mesenchymal transition, migration and differentiation into a plethora of cell types. A wealth of studies across various embryonic model systems have established a dogma as to the molecular mechanisms and signaling cascades that contribute to NCC development. While Wnt, FGF and BMP signaling pathways have well-established and essential roles in several aspects of NCC development, the Hedgehog (HH) signaling pathway has received limited attention for any specific role in this process. Herein, we propose two distinct, temporal roles for the transcription factor GLI3 in NCC development. Gli3, and other members of the HH pathway, were robustly co-expressed with established NCC induction and specification markers in chick, mouse and human embryonic stem cell-derived NCCs. Early knockdown of GLI3 reduced expression of key markers of NCC specification and conditional knockout of Gli3 post-specification specifically impaired the ability of cranial NCCs to differentiate into ectomesenchymal derivatives. Together, these results demonstrate dual roles for GLI3 in early NCC specification and later in cranial NCC differentiation.
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