Literature DB >> 32084377

A Conserved Mito-Cytosolic Translational Balance Links Two Longevity Pathways.

Marte Molenaars1, Georges E Janssens1, Evan G Williams2, Aldo Jongejan3, Jiayi Lan2, Sylvie Rabot4, Fatima Joly4, Perry D Moerland3, Bauke V Schomakers5, Marco Lezzerini1, Yasmine J Liu1, Mark A McCormick6, Brian K Kennedy7, Michel van Weeghel5, Antoine H C van Kampen3, Ruedi Aebersold8, Alyson W MacInnes1, Riekelt H Houtkooper9.   

Abstract

Slowing down translation in either the cytosol or the mitochondria is a conserved longevity mechanism. Here, we found a non-interventional natural correlation of mitochondrial and cytosolic ribosomal proteins (RPs) in mouse population genetics, suggesting a translational balance. Inhibiting mitochondrial translation in C. elegans through mrps-5 RNAi repressed cytosolic translation. Transcriptomics integrated with proteomics revealed that this inhibition specifically reduced translational efficiency of mRNAs required in growth pathways while increasing stress response mRNAs. The repression of cytosolic translation and extension of lifespan from mrps-5 RNAi were dependent on atf-5/ATF4 and independent from metabolic phenotypes. We found the translational balance to be conserved in mammalian cells upon inhibiting mitochondrial translation pharmacologically with doxycycline. Lastly, extending this in vivo, doxycycline repressed cytosolic translation in the livers of germ-free mice. These data demonstrate that inhibiting mitochondrial translation initiates an atf-5/ATF4-dependent cascade leading to coordinated repression of cytosolic translation, which could be targeted to promote longevity.
Copyright © 2020 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  ATF4; aging; cytosolic translation; doxycycline; longevity; mitochondrial translation; polysome; ribosomes; translational balance; translational efficiency

Mesh:

Substances:

Year:  2020        PMID: 32084377      PMCID: PMC7214782          DOI: 10.1016/j.cmet.2020.01.011

Source DB:  PubMed          Journal:  Cell Metab        ISSN: 1550-4131            Impact factor:   27.287


  69 in total

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