Cell Reports (Mar 2016)

C. elegans S6K Mutants Require a Creatine-Kinase-like Effector for Lifespan Extension

  • Philip R. McQuary,
  • Chen-Yu Liao,
  • Jessica T. Chang,
  • Caroline Kumsta,
  • Xingyu She,
  • Andrew Davis,
  • Chu-Chiao Chu,
  • Sara Gelino,
  • Rafael L. Gomez-Amaro,
  • Michael Petrascheck,
  • Laurence M. Brill,
  • Warren C. Ladiges,
  • Brian K. Kennedy,
  • Malene Hansen

DOI
https://doi.org/10.1016/j.celrep.2016.02.012
Journal volume & issue
Vol. 14, no. 9
pp. 2059 – 2067

Abstract

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Deficiency of S6 kinase (S6K) extends the lifespan of multiple species, but the underlying mechanisms are unclear. To discover potential effectors of S6K-mediated longevity, we performed a proteomics analysis of long-lived rsks-1/S6K C. elegans mutants compared to wild-type animals. We identified the arginine kinase ARGK-1 as the most significantly enriched protein in rsks-1/S6K mutants. ARGK-1 is an ortholog of mammalian creatine kinase, which maintains cellular ATP levels. We found that argk-1 is possibly a selective effector of rsks-1/S6K-mediated longevity and that overexpression of ARGK-1 extends C. elegans lifespan, in part by activating the energy sensor AAK-2/AMPK. argk-1 is also required for the reduced body size and increased stress resistance observed in rsks-1/S6K mutants. Finally, creatine kinase levels are increased in the brains of S6K1 knockout mice. Our study identifies ARGK-1 as a longevity effector in C. elegans with reduced RSKS-1/S6K levels.