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    Cell. 2008 Mar 21;132(6):1025-38.

    Direct inhibition of the longevity-promoting factor SKN-1 by insulin-like signaling in C. elegans.

    Tullet JM, Hertweck M, An JH, Baker J, Hwang JY, Liu S, Oliveira RP, Baumeister R, Blackwell TK.

    Section on Developmental and Stem Cell Biology, Joslin Diabetes Center; Department of Pathology, Harvard Medical School; Harvard Stem Cell Institute, 1 Joslin Place, Boston, MA 02215, USA.

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    Insulin/IGF-1-like signaling (IIS) is central to growth and metabolism and has a conserved role in aging. In C. elegans, reductions in IIS increase stress resistance and longevity, effects that require the IIS-inhibited FOXO protein DAF-16. The C. elegans transcription factor SKN-1 also defends against oxidative stress by mobilizing the conserved phase 2 detoxification response. Here we show that IIS not only opposes DAF-16 but also directly inhibits SKN-1 in parallel. The IIS kinases AKT-1, -2, and SGK-1 phosphorylate SKN-1, and reduced IIS leads to constitutive SKN-1 nuclear accumulation in the intestine and SKN-1 target gene activation. SKN-1 contributes to the increased stress tolerance and longevity resulting from reduced IIS and delays aging when expressed transgenically. Furthermore, SKN-1 that is constitutively active increases life span independently of DAF-16. Our findings indicate that the transcription network regulated by SKN-1 promotes longevity and is an important direct target of IIS.

    PMID: 18358814 [PubMed - indexed for MEDLINE]

    PMCID: PMC2367249

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