Genotoxic stress triggers the activation of IRE1α-dependent RNA decay to modulate the DNA damage response

Estefanie Dufey; José Manuel Bravo‐San Pedro; Cristián Eggers; Matías González-Quiroz; Hery Urra; Alfredo Sagredo; Denisse Sepúlveda; Philippe Pihán; Amado Carreras-Sureda; Younis Hazari; Eduardo A. Sagredo; Daniela Gutiérrez; Cristian Valls; Alexandra Papaioannou; Diego Acosta‐Alvear; Gisela Campos; Pedro Domingos; Rémy Pedeux; Éric Chevet; Alejandra Álvarez; Patrício Godoy; Peter Walter; Álvaro Glavic; Guido Kroemer; Claudio Hetz

doi:10.1038/s41467-020-15694-y

Genotoxic stress triggers the activation of IRE1α-dependent RNA decay to modulate the DNA damage response

Estefanie Dufey(Center for Climate and Resilience Research), José Manuel Bravo‐San Pedro(Inserm), Cristián Eggers(University of Chile), Matías González-Quiroz(Inserm), Hery Urra(Center for Climate and Resilience Research), Alfredo Sagredo(Center for Climate and Resilience Research), Denisse Sepúlveda(Center for Climate and Resilience Research), Philippe Pihán(Center for Climate and Resilience Research), Amado Carreras-Sureda(Center for Climate and Resilience Research), Younis Hazari(Center for Climate and Resilience Research), Eduardo A. Sagredo(Stockholm University), Daniela Gutiérrez(Pontificia Universidad Católica de Chile), Cristian Valls(Pontificia Universidad Católica de Chile), Alexandra Papaioannou(Inserm), Diego Acosta‐Alvear(Howard Hughes Medical Institute), Gisela Campos(TU Dortmund University), Pedro Domingos(Universidade Nova de Lisboa), Rémy Pedeux(Inserm), Éric Chevet(Inserm), Alejandra Álvarez(Pontificia Universidad Católica de Chile), Patrício Godoy(TU Dortmund University), Peter Walter(Howard Hughes Medical Institute), Álvaro Glavic(University of Chile), Guido Kroemer(Karolinska University Hospital), Claudio Hetz(Buck Institute for Research on Aging)

Nature Communications

May 14, 2020

10.1038/s41467-020-15694-y

Cited by 96Open Access

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Abstract

The molecular connections between homeostatic systems that maintain both genome integrity and proteostasis are poorly understood. Here we identify the selective activation of the unfolded protein response transducer IRE1α under genotoxic stress to modulate repair programs and sustain cell survival. DNA damage engages IRE1α signaling in the absence of an endoplasmic reticulum (ER) stress signature, leading to the exclusive activation of regulated IRE1α-dependent decay (RIDD) without activating its canonical output mediated by the transcription factor XBP1. IRE1α endoribonuclease activity controls the stability of mRNAs involved in the DNA damage response, impacting DNA repair, cell cycle arrest and apoptosis. The activation of the c-Abl kinase by DNA damage triggers the oligomerization of IRE1α to catalyze RIDD. The protective role of IRE1α under genotoxic stress is conserved in fly and mouse. Altogether, our results uncover an important intersection between the molecular pathways that sustain genome stability and proteostasis.

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