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Loss of RNA-binding protein GRSF1 activates mTOR to elicit a proinflammatory transcriptional program.


ABSTRACT: The RNA-binding protein GRSF1 (G-rich RNA sequence-binding factor 1) critically maintains mitochondrial homeostasis. Accordingly, loss of GRSF1 impaired mitochondrial respiration and increased the levels of reactive oxygen species (ROS), triggering DNA damage, growth suppression, and a senescent phenotype characterized by elevated production and secretion of interleukin (IL)6. Here, we characterize the pathways that govern IL6 production in response to mitochondrial dysfunction in GRSF1-depleted cells. We report that loss of GRSF1 broadly altered protein expression programs, impairing the function of respiratory complexes I and IV. The rise in oxidative stress led to increased DNA damage and activation of mTOR, which in turn activated NF-?B to induce IL6 gene transcription and orchestrate a pro-inflammatory program. Collectively, our results indicate that GRSF1 helps preserve mitochondrial homeostasis, in turn preventing oxidative DNA damage and the activation of mTOR and NF-?B, and suppressing a transcriptional pro-inflammatory program leading to increased IL6 production.

SUBMITTER: Noh JH 

PROVIDER: S-EPMC6412117 | biostudies-literature | 2019 Mar

REPOSITORIES: biostudies-literature

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Loss of RNA-binding protein GRSF1 activates mTOR to elicit a proinflammatory transcriptional program.

Noh Ji Heon JH   Kim Kyoung Mi KM   Pandey Poonam R PR   Noren Hooten Nicole N   Munk Rachel R   Kundu Gautam G   De Supriyo S   Martindale Jennifer L JL   Yang Xiaoling X   Evans Michele K MK   Abdelmohsen Kotb K   Gorospe Myriam M  

Nucleic acids research 20190301 5


The RNA-binding protein GRSF1 (G-rich RNA sequence-binding factor 1) critically maintains mitochondrial homeostasis. Accordingly, loss of GRSF1 impaired mitochondrial respiration and increased the levels of reactive oxygen species (ROS), triggering DNA damage, growth suppression, and a senescent phenotype characterized by elevated production and secretion of interleukin (IL)6. Here, we characterize the pathways that govern IL6 production in response to mitochondrial dysfunction in GRSF1-depleted  ...[more]

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