G-Quadruplex in the NRF2 mRNA 5′ Untranslated Region Regulates <i>De Novo</i> NRF2 Protein Translation under Oxidative Stress

Lee, Sang Cheol; Zhang, Jack; Strom, Joshua; Yang, Danzhou; Dinh, Thai Nho; Kappeler, Kyle V.; Chen, Qin M.

doi:10.1128/mcb.00122-16

Cited by 48 publications

(44 citation statements)

References 90 publications

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“…Given that YB‐1 functions as a translational activator of diverse stress‐adaptive mRNAs such as HIF1α and G3BP1 , we next tested whether YB‐1 also controls NFE2LE translation. First, we used a bicistronic reporter containing NFE2L2 5‐UTR sequences required for NFE2L2 translation linked to Firefly luciferase (LUC), as well as Renila LUC driven by the 5′‐UTR of HBB (beta‐globin). Using this reporter in cell‐free transcription/translation studies, recombinant YB‐1 markedly enhanced Firefly LUC translation in a dose‐dependent manner, but not of Renila LUC; therefore, YB‐1 translationally activates the NFE2L2 5′‐UTR but not a control HBB 5′‐UTR (Fig B).…”

Section: Resultsmentioning

confidence: 99%

Class I HDAC inhibitors enhance YB ‐1 acetylation and oxidative stress to block sarcoma metastasis

El-Naggar

Somasekharan²,

Wang

et al. 2019

EMBO Reports

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Outcomes for metastatic Ewing sarcoma and osteosarcoma are dismal and have not changed for decades. Oxidative stress attenuates melanoma metastasis, and melanoma cells must reduce oxidative stress to metastasize. We explored this in sarcomas by screening for oxidative stress sensitizers, which identified the class I HDAC inhibitor MS‐275 as enhancing vulnerability to reactive oxygen species (ROS) in sarcoma cells. Mechanistically, MS‐275 inhibits YB‐1 deacetylation, decreasing its binding to 5′‐UTRs of NFE2L2 encoding the antioxidant factor NRF2, thereby reducing NFE2L2 translation and synthesis of NRF2 to increase cellular ROS. By global acetylomics, MS‐275 promotes rapid acetylation of the YB‐1 RNA‐binding protein at lysine‐81, blocking binding and translational activation of NFE2L2, as well as known YB‐1 mRNA targets, HIF1A, and the stress granule nucleator, G3BP1. MS‐275 dramatically reduces sarcoma metastasis in vivo, but an MS‐275‐resistant YB‐1K81‐to‐alanine mutant restores metastatic capacity and NRF2, HIF1α, and G3BP1 synthesis in MS‐275‐treated mice. These studies describe a novel function for MS‐275 through enhanced YB‐1 acetylation, thus inhibiting YB‐1 translational control of key cytoprotective factors and its pro‐metastatic activity.

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Section: Resultsmentioning

confidence: 99%

Class I HDAC inhibitors enhance YB ‐1 acetylation and oxidative stress to block sarcoma metastasis

El-Naggar

Somasekharan²,

Wang

et al. 2019

EMBO Reports

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“…While the presence of bona fide IRESes in viral genomes is well characterized, whether cellular IRESes exist is a matter of debate 146 . Under oxidative stress, the 5'-UTR of NRF2 mRNA (encoding the transcription factor NRF2, which regulates expression of antioxidant and detoxification genes) stimulates its translation in a G4-dependent manner 147 . Similarly, the G4 in the 5'-UTR of the SNCA (α-synuclein) mRNA enhances SNCA production under conditions when cap-dependent translation is attenuated 148 .…”

Section: Proposed Functions Of Rna G-quadruplexesmentioning

confidence: 99%

RNA G-Quadruplexes in Biology: Principles and Molecular Mechanisms

Fay

Lyons

Ivanov

2017

Journal of Molecular Biology

360

306

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G-quadruplexes are extremely stable DNA or RNA secondary structures formed by sequences rich in guanine. These structures are implicated in many essential cellular processes and the number of biological functions attributed to them continues to grow. While DNA G-quadruplexes are well understood on structural and to some extent on functional levels, RNA G-quadruplexes and their functions have received less attention. The presence of bona fide RNA G-quadruplexes in cells has long been a matter of debate. The development of G-quadruplex-specific antibodies and ligands hinted on their presence in vivo but recent advances in RNA sequencing coupled with chemical footprinting suggested the opposite. In this review, we will critically discuss the biology of RNA G-quadruplexes focusing on the molecular mechanisms underlying their proposed functions.

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“…Degradation of KEAP1 via autophagy activation does not necessarily occur in an mTOR-dependent manner [102,103]. Moreover, mRNA expression of NRF2 is dependent on the transcriptional activity of eIF4F [104]. Activated mTORC1 signaling disturbs the inhibitory effect of 4E-BP1 on eIF4E through the phosphorylation of 4E-BP1 [105].…”

Section: Mtor-dependent Antioxidant Mechanism In Solidmentioning

confidence: 99%

mTOR-Mediated Antioxidant Activation in Solid Tumor Radioresistance

Woo

Lee

Jung

et al. 2019

Journal of Oncology

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Radiotherapy is widely used for the treatment of cancer patients, but tumor radioresistance presents serious therapy challenges. Tumor radioresistance is closely related to high levels of mTOR signaling in tumor tissues. Therefore, targeting the mTOR pathway might be a strategy to promote solid tumor sensitivity to ionizing radiation. Radioresistance is associated with enhanced antioxidant mechanisms in cancer cells. Therefore, examination of the relationship between mTOR signaling and antioxidant mechanism-linked radioresistance is required for effective radiotherapy. In particular, the effect of mTOR signaling on antioxidant glutathione induction by the Keap1-NRF2-xCT pathway is described in this review. This review is expected to assist in the identification of therapeutic adjuvants to increase the efficacy of radiotherapy.

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G-Quadruplex in the NRF2 mRNA 5′ Untranslated Region Regulates De Novo NRF2 Protein Translation under Oxidative Stress

Cited by 48 publications

References 90 publications

Class I HDAC inhibitors enhance YB ‐1 acetylation and oxidative stress to block sarcoma metastasis

Class I HDAC inhibitors enhance YB ‐1 acetylation and oxidative stress to block sarcoma metastasis

RNA G-Quadruplexes in Biology: Principles and Molecular Mechanisms

mTOR-Mediated Antioxidant Activation in Solid Tumor Radioresistance

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