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Τρίτη 29 Αυγούστου 2017

Multilayered Reprogramming in Response to Persistent DNA Damage in C. elegans

Publication date: 29 August 2017
Source:Cell Reports, Volume 20, Issue 9
Author(s): Diletta Edifizi, Hendrik Nolte, Vipin Babu, Laia Castells-Roca, Michael M. Mueller, Susanne Brodesser, Marcus Krüger, Björn Schumacher
DNA damage causally contributes to aging and age-related diseases. Mutations in nucleotide excision repair (NER) genes cause highly complex congenital syndromes characterized by growth retardation, cancer susceptibility, and accelerated aging in humans. Orthologous mutations in Caenorhabditis elegans lead to growth delay, genome instability, and accelerated functional decline, thus allowing investigation of the consequences of persistent DNA damage during development and aging in a simple metazoan model. Here, we conducted proteome, lipidome, and phosphoproteome analysis of NER-deficient animals in response to UV treatment to gain comprehensive insights into the full range of physiological adaptations to unrepaired DNA damage. We derive metabolic changes indicative of a tissue maintenance program and implicate an autophagy-mediated proteostatic response. We assign central roles for the insulin-, EGF-, and AMPK-like signaling pathways in orchestrating the adaptive response to DNA damage. Our results provide insights into the DNA damage responses in the organismal context.

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Teaser

Edifizi et al. provide a comprehensive proteomics, phosphoproteomics, and lipidomics analysis of the response to persistent DNA damage in a metazoan organism. Proteostasis shifts toward autophagy, fatty acid metabolism is attenuated, and the insulin-, EGF-, and AMPK-like signaling pathways form the center of the response network.


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