甲状腺激素的细胞内失活是肌肉干细胞增殖和谱系进展的一种存活机制。

Intracellular inactivation of thyroid hormone is a survival mechanism for muscle stem cell proliferation and lineage progression.

作者信息

Dentice Monica, Ambrosio Raffaele, Damiano Valentina, Sibilio Annarita, Luongo Cristina, Guardiola Ombretta, Yennek Siham, Zordan Paola, Minchiotti Gabriella, Colao Annamaria, Marsili Alessandro, Brunelli Silvia, Del Vecchio Luigi, Larsen P Reed, Tajbakhsh Shahragim, Salvatore Domenico

机构信息

Department of Clinical Medicine and Surgery, University of Naples Federico II, Naples 80131, Italy.

IRCCS SDN, Naples 80143, Italy.

出版信息

Cell Metab. 2014 Dec 2;20(6):1038-48. doi: 10.1016/j.cmet.2014.10.009. Epub 2014 Nov 13.

DOI:10.1016/j.cmet.2014.10.009

PMID:25456740

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4261081/

Abstract

Precise control of the thyroid hormone (T3)-dependent transcriptional program is required by multiple cell systems, including muscle stem cells. Deciphering how this is achieved and how the T3 signal is controlled in stem cell niches is essentially unknown. We report that in response to proliferative stimuli such as acute skeletal muscle injury, type 3 deiodinase (D3), the thyroid hormone-inactivating enzyme, is induced in satellite cells where it reduces intracellular thyroid signaling. Satellite cell-specific genetic ablation of dio3 severely impairs skeletal muscle regeneration. This impairment is due to massive satellite cell apoptosis caused by exposure of activated satellite cells to the circulating TH. The execution of this proapoptotic program requires an intact FoxO3/MyoD axis, both genes positively regulated by intracellular TH. Thus, D3 is dynamically exploited in vivo to chronically attenuate TH signaling under basal conditions while also being available to acutely increase gene programs required for satellite cell lineage progression.

摘要

包括肌肉干细胞在内的多种细胞系统都需要对甲状腺激素（T3）依赖的转录程序进行精确控制。目前对于如何实现这一点以及干细胞微环境中T3信号是如何被控制的，基本上还不清楚。我们报告称，在应对急性骨骼肌损伤等增殖性刺激时，甲状腺激素失活酶3型脱碘酶（D3）在卫星细胞中被诱导产生，它会降低细胞内的甲状腺信号传导。卫星细胞特异性的dio3基因敲除严重损害骨骼肌再生。这种损害是由于活化的卫星细胞暴露于循环中的甲状腺激素而导致大量卫星细胞凋亡所致。这种促凋亡程序的执行需要完整的FoxO3/MyoD轴，这两个基因都受到细胞内甲状腺激素的正向调控。因此，D3在体内被动态利用，在基础条件下长期减弱甲状腺信号，同时也可用于急性增加卫星细胞谱系进展所需的基因程序。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2915/4261081/88e4ee8b4185/fx1.jpg

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甲状腺激素的细胞内失活是肌肉干细胞增殖和谱系进展的一种存活机制。

Intracellular inactivation of thyroid hormone is a survival mechanism for muscle stem cell proliferation and lineage progression.

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