FOXO/Fringe 对于响应胰岛素不足维持生殖干细胞巢是必要的。

FOXO/Fringe is necessary for maintenance of the germline stem cell niche in response to insulin insufficiency.

机构信息

Institute of Cellular and Organismic Biology, Academia Sinica, Taipei 11529, Taiwan.

出版信息

Dev Biol. 2013 Oct 1;382(1):124-35. doi: 10.1016/j.ydbio.2013.07.018. Epub 2013 Jul 27.

DOI:10.1016/j.ydbio.2013.07.018

Abstract

The stem cell niche houses and regulates stem cells by providing both physical contact and local factors that regulate stem cell identity. The stem cell niche also plays a role in integrating niche-local and systemic signals, thereby ensuring that the balance of stem cells meets the needs of the organism. However, it is not clear how these signals are merged within the niche. Nutrient-sensing insulin/FOXO signaling has been previously shown to directly control Notch activation in the Drosophila female germline stem cell (GSC) niche, which maintains the niche and GSC identity. Here, we demonstrate that FOXO directly activates transcription of fringe, a gene encoding a glycosyltransferase that modulates Notch glycosylation. Fringe facilitates Notch inactivation in the GSC niche when insulin signaling is low. We also show that the Notch ligand predominantly involved is GSC niche-derived Delta. These results reveal that FOXO-mediated regulation of fringe links the insulin and Notch signaling pathways in the GSC niche in response to nutrition, and emphasize that stem cells are regulated by complex interactions between niche-local and systemic signals.

摘要

干细胞龛通过提供物理接触和调节干细胞特性的局部因子来容纳和调节干细胞。干细胞龛还在整合局部龛位和全身信号方面发挥作用，从而确保干细胞的平衡满足机体的需要。然而，目前尚不清楚这些信号在龛位内是如何融合的。先前的研究表明，营养感应胰岛素/叉头框蛋白 O (FOXO) 信号通路可直接控制果蝇雌性生殖干细胞 (GSC) 龛位中 Notch 激活，该激活维持着龛位和 GSC 的特性。在这里，我们证明 FOXO 可直接激活编码糖基转移酶的 fringe 的转录，该酶可调节 Notch 的糖基化。当胰岛素信号较弱时，fringe 有助于 GSC 龛位中 Notch 的失活。我们还表明， Notch 配体主要涉及 GSC 龛位衍生的 Delta。这些结果表明，FOXO 介导的 fringe 调节将胰岛素和 Notch 信号通路在 GSC 龛位中联系起来，以响应营养，这强调了干细胞是由局部龛位和全身信号之间的复杂相互作用来调节的。

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FOXO/Fringe 对于响应胰岛素不足维持生殖干细胞巢是必要的。

FOXO/Fringe is necessary for maintenance of the germline stem cell niche in response to insulin insufficiency.

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