体细胞干细胞的分化受PI3K/Tor信号传导调控，以响应局部信号。

Somatic stem cell differentiation is regulated by PI3K/Tor signaling in response to local cues.

作者信息

Amoyel Marc, Hillion Kenzo-Hugo, Margolis Shally R, Bach Erika A

机构信息

Department of Biochemistry and Molecular Pharmacology, NYU School of Medicine, 550 1st Avenue, New York, NY 10016, USA

Helen L. and Martin S. Kimmel Center for Stem Cell Biology, NYU School of Medicine, 550 1st Avenue, New York, NY 10016, USA.

出版信息

Development. 2016 Nov 1;143(21):3914-3925. doi: 10.1242/dev.139782. Epub 2016 Sep 15.

DOI:10.1242/dev.139782

PMID:27633989

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5117146/

Abstract

Stem cells reside in niches that provide signals to maintain self-renewal, and differentiation is viewed as a passive process that depends on loss of access to these signals. Here, we demonstrate that the differentiation of somatic cyst stem cells (CySCs) in the Drosophila testis is actively promoted by PI3K/Tor signaling, as CySCs lacking PI3K/Tor activity cannot differentiate properly. We find that an insulin peptide produced by somatic cells immediately outside of the stem cell niche acts locally to promote somatic differentiation through Insulin-like receptor (InR) activation. These results indicate that there is a local 'differentiation' niche that upregulates PI3K/Tor signaling in the early daughters of CySCs. Finally, we demonstrate that CySCs secrete the Dilp-binding protein ImpL2, the Drosophila homolog of IGFBP7, into the stem cell niche, which blocks InR activation in CySCs. Thus, we show that somatic cell differentiation is controlled by PI3K/Tor signaling downstream of InR and that the local production of positive and negative InR signals regulates the differentiation niche. These results support a model in which leaving the stem cell niche and initiating differentiation are actively induced by signaling.

摘要

干细胞存在于微环境中，微环境提供维持自我更新的信号，而分化被视为一个依赖于失去对这些信号的接触的被动过程。在此，我们证明果蝇睾丸中的体细胞性囊干细胞（CySCs）的分化是由PI3K/Tor信号通路积极促进的，因为缺乏PI3K/Tor活性的CySCs不能正常分化。我们发现，由紧邻干细胞微环境的体细胞产生的一种胰岛素肽通过激活胰岛素样受体（InR）在局部发挥作用，促进体细胞分化。这些结果表明，存在一个局部的“分化”微环境，它在CySCs的早期子代中上调PI3K/Tor信号通路。最后，我们证明CySCs将Dilp结合蛋白ImpL2（IGFBP7的果蝇同源物）分泌到干细胞微环境中，该蛋白会阻断CySCs中的InR激活。因此，我们表明体细胞分化受InR下游的PI3K/Tor信号通路控制，并且正负InR信号的局部产生调节分化微环境。这些结果支持了一种模型，即离开干细胞微环境并启动分化是由信号传导积极诱导的。

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