eLife (May 2020)

mRNA decapping is an evolutionarily conserved modulator of neuroendocrine signaling that controls development and ageing

  • Fivos Borbolis,
  • John Rallis,
  • George Kanatouris,
  • Nikolitsa Kokla,
  • Antonis Karamalegkos,
  • Christina Vasileiou,
  • Katerina M Vakaloglou,
  • George Diallinas,
  • Dimitrios J Stravopodis,
  • Christos G Zervas,
  • Popi Syntichaki

DOI
https://doi.org/10.7554/eLife.53757
Journal volume & issue
Vol. 9

Abstract

Read online

Eukaryotic 5’−3’ mRNA decay plays important roles during development and in response to stress, regulating gene expression post-transcriptionally. In Caenorhabditis elegans, deficiency of DCAP-1/DCP1, the essential co-factor of the major cytoplasmic mRNA decapping enzyme, impacts normal development, stress survival and ageing. Here, we show that overexpression of dcap-1 in neurons of worms is sufficient to increase lifespan through the function of the insulin/IGF-like signaling and its effector DAF-16/FOXO transcription factor. Neuronal DCAP-1 affects basal levels of INS-7, an ageing-related insulin-like peptide, which acts in the intestine to determine lifespan. Short-lived dcap-1 mutants exhibit a neurosecretion-dependent upregulation of intestinal ins-7 transcription, and diminished nuclear localization of DAF-16/FOXO. Moreover, neuronal overexpression of DCP1 in Drosophila melanogaster confers longevity in adults, while neuronal DCP1 deficiency shortens lifespan and affects wing morphogenesis, cell non-autonomously. Our genetic analysis in two model-organisms suggests a critical and conserved function of DCAP-1/DCP1 in developmental events and lifespan modulation.

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