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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

2020eLife11 citationsDOIOpen Access PDF

Abstract

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.

Topics & Concepts

BiologyCaenorhabditis elegansCell biologyTranscription factorDrosophila melanogasterRNA interferenceEffectorGeneticsGeneRNAGenetics, Aging, and Longevity in Model OrganismsFOXO transcription factor regulationGDF15 and Related Biomarkers
mRNA decapping is an evolutionarily conserved modulator of neuroendocrine signaling that controls development and ageing | Litcius