AI Article Synopsis
- Insulin/IGF-1 signaling is crucial for lifespan regulation in C. elegans, primarily involving the DAF-16 transcription factor, which has multiple isoforms that influence longevity and stress resistance.
- Researchers generated transgenic strains to study how the different DAF-16 isoforms (a and d/f) contribute to aging, revealing that DAF-16d/f expression increases significantly with age, promoting longevity through transcriptional regulation.
- Key regulators of DAF-16d/f expression were identified, including the GATA transcription factor elt-2 and core subunit swsn-1, suggesting that understanding FOXO transcriptional control could be important for insights into aging and related diseases in humans.
Article 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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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4022319 | PMC |
| http://dx.doi.org/10.1186/2046-2395-3-5 | DOI Listing |
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