Transcriptional regulation of Caenorhabditis elegans FOXO/DAF-16 modulates lifespan.

Longevity & healthspan Pub Date : 2014-04-23 eCollection Date: 2014-01-01 DOI:10.1186/2046-2395-3-5

Ankita Bansal, Eun-Soo Kwon, Darryl Conte, Haibo Liu, Michael J Gilchrist, Lesley T MacNeil, Heidi A Tissenbaum

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引用次数: 50

Abstract

Background: Insulin/IGF-1 signaling plays a central role in longevity across phylogeny. In C. elegans, the forkhead box O (FOXO) transcription factor, DAF-16, is the primary target of insulin/IGF-1 signaling, and multiple isoforms of DAF-16 (a, b, and d/f) modulate lifespan, metabolism, dauer formation, and stress resistance. Thus far, across phylogeny modulation of mammalian FOXOs and DAF-16 have focused on post-translational regulation with little focus on transcriptional regulation. In C. elegans, we have previously shown that DAF-16d/f cooperates with DAF-16a to promote longevity. In this study, we generated transgenic strains expressing near-endogenous levels of either daf-16a or daf-16d/f, and examined temporal expression of the isoforms to further define how these isoforms contribute to lifespan regulation.

Results: Here, we show that DAF-16a is sensitive both to changes in gene dosage and to alterations in the level of insulin/IGF-1 signaling. Interestingly, we find that as worms age, the intestinal expression of daf-16d/f but not daf-16a is dramatically upregulated at the level of transcription. Preventing this transcriptional upregulation shortens lifespan, indicating that transcriptional regulation of daf-16d/f promotes longevity. In an RNAi screen of transcriptional regulators, we identify elt-2 (GATA transcription factor) and swsn-1 (core subunit of SWI/SNF complex) as key modulators of daf-16d/f gene expression. ELT-2 and another GATA factor, ELT-4, promote longevity via both DAF-16a and DAF-16d/f while the components of SWI/SNF complex promote longevity specifically via DAF-16d/f.

Conclusions: Our findings indicate that transcriptional control of C. elegans FOXO/daf-16 is an essential regulatory event. Considering the conservation of FOXO across species, our findings identify a new layer of FOXO regulation as a potential determinant of mammalian longevity and age-related diseases such as cancer and diabetes.

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秀丽隐杆线虫FOXO/DAF-16转录调控寿命。

背景:胰岛素/IGF-1信号在整个系统发育中对长寿起着核心作用。在秀丽隐杆线虫中，叉头盒O (FOXO)转录因子DAF-16是胰岛素/IGF-1信号传导的主要靶点，DAF-16的多种亚型(a、b和d/f)调节寿命、代谢、水分形成和抗逆性。到目前为止，哺乳动物FOXOs和DAF-16的跨系统调控主要集中在翻译后调控，很少关注转录调控。在秀丽隐杆线虫中，我们之前已经证明DAF-16d/f与DAF-16a协同促进寿命。在这项研究中，我们产生了表达近内源性daf-16a或daf-16d/f水平的转基因菌株，并检测了这些异构体的时间表达，以进一步确定这些异构体如何参与寿命调节。结果:在这里，我们发现DAF-16a对基因剂量的变化和胰岛素/IGF-1信号水平的改变都很敏感。有趣的是，我们发现随着蠕虫年龄的增长，肠道中daf-16d/f而非daf-16a的表达在转录水平上显著上调。阻止这种转录上调会缩短寿命，这表明daf-16d/f的转录调节可以促进寿命。在转录调节因子的RNAi筛选中，我们鉴定出elt-2 (GATA转录因子)和swsn-1 (SWI/SNF复合物的核心亚基)是daf-16d/f基因表达的关键调节因子。ELT-2和另一种GATA因子ELT-4通过DAF-16a和DAF-16d/f促进寿命，而SWI/SNF复合物的组分则通过DAF-16d/f促进寿命。结论:我们的研究结果表明，秀丽隐杆线虫FOXO/daf-16的转录控制是一个重要的调控事件。考虑到FOXO在物种间的保护，我们的发现确定了FOXO调控的一个新层面，作为哺乳动物寿命和年龄相关疾病(如癌症和糖尿病)的潜在决定因素。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Longevity & healthspan

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