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雷帕霉素靶蛋白信号通路拮抗pha-4/FoxA以控制发育和衰老。

The Target of Rapamycin pathway antagonizes pha-4/FoxA to control development and aging.

作者信息

Sheaffer Karyn L, Updike Dustin L, Mango Susan E

机构信息

Department of Oncological Sciences, Huntsman Cancer Institute, University of Utah, Salt Lake City, UT 84112, USA.

出版信息

Curr Biol. 2008 Sep 23;18(18):1355-64. doi: 10.1016/j.cub.2008.07.097.

DOI:10.1016/j.cub.2008.07.097
PMID:18804378
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2615410/
Abstract

BACKGROUND

FoxA factors are critical regulators of embryonic development and postembryonic life, but little is know about the upstream pathways that modulate their activity. C. elegans pha-4 encodes a FoxA transcription factor that is required to establish the foregut in embryos and to control growth and longevity after birth. We previously identified the AAA+ ATPase homolog ruvb-1 as a potent suppressor of pha-4 mutations.

RESULTS

Here we show that ruvb-1 is a component of the Target of Rapamycin (TOR) pathway in C. elegans (CeTOR). Both ruvb-1 and let-363/TOR control nucleolar size and promote localization of box C/D snoRNPs to nucleoli, suggesting a role in rRNA maturation. Inactivation of let-363/TOR or ruvb-1 suppresses the lethality associated with reduced pha-4 activity. The CeTOR pathway controls protein homeostasis and also contributes to adult longevity. We find that pha-4 is required to extend adult lifespan in response to reduced CeTOR signaling. Mutations in the predicted CeTOR target rsks-1/S6 kinase or in ife-2/eIF4E also reduce protein biosynthesis and extend lifespan, but only rsks-1 mutations require pha-4 for adult longevity. In addition, rsks-1, but not ife-2, can suppress the larval lethality associated with pha-4 loss-of-function mutations.

CONCLUSIONS

The data suggest that pha-4 and the CeTOR pathway antagonize one another to regulate postembryonic development and adult longevity. We suggest a model in which nutrients promote TOR and S6 kinase signaling, which represses pha-4/FoxA, leading to a shorter lifespan. A similar regulatory hierarchy may function in other animals to modulate metabolism, longevity, or disease.

摘要

背景

FoxA因子是胚胎发育和胚后生命的关键调节因子,但对于调节其活性的上游信号通路却知之甚少。秀丽隐杆线虫的pha-4编码一种FoxA转录因子,该因子对于胚胎前肠的形成以及出生后生长和寿命的控制是必需的。我们之前鉴定出AAA+ATP酶同源物ruvb-1是pha-4突变的有效抑制因子。

结果

我们在此表明,ruvb-1是秀丽隐杆线虫雷帕霉素靶蛋白(CeTOR)信号通路的一个组分。ruvb-1和let-363/TOR都控制核仁大小,并促进C/D盒小核仁核糖核蛋白(snoRNPs)定位于核仁,提示其在核糖体RNA(rRNA)成熟中发挥作用。let-363/TOR或ruvb-1失活可抑制与pha-4活性降低相关的致死性。CeTOR信号通路控制蛋白质稳态,也对成虫寿命有影响。我们发现,响应CeTOR信号减弱,pha-4对于延长成虫寿命是必需的。预测的CeTOR靶标rsks-1/S6激酶或ife-2/eIF4E中的突变也会减少蛋白质生物合成并延长寿命,但只有rsks-1突变在成虫长寿方面需要pha-4。此外,rsks-1而非ife-2能够抑制与pha-4功能丧失突变相关的幼虫致死性。

结论

这些数据表明,pha-4和CeTOR信号通路相互拮抗,以调节胚后发育和成虫寿命。我们提出一个模型,其中营养物质促进TOR和S6激酶信号传导,从而抑制pha-4/FoxA,导致寿命缩短。类似的调控层级可能在其他动物中发挥作用,以调节代谢、寿命或疾病。

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WormBook. 2007 Aug 8:1-19. doi: 10.1895/wormbook.1.144.1.
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