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G-quadruplex structures contribute to the neuroprotective effects of angiogenin-induced tRNA fragments.

ABSTRACT: Angiogenin (ANG) is a stress-activated ribonuclease that promotes the survival of motor neurons. Ribonuclease inactivating point mutations are found in a subset of patients with ALS, a fatal neurodegenerative disease with no cure. We recently showed that ANG cleaves tRNA within anticodon loops to produce 5'- and 3'-fragments known as tRNA-derived, stress-induced RNAs (tiRNAs). Selected 5'-tiRNAs (e.g., tiRNA(Ala), tiRNA(Cys)) cooperate with the translational repressor Y-box binding protein 1 (YB-1) to displace the cap-binding complex eIF4F from capped mRNA, inhibit translation initiation, and induce the assembly of stress granules (SGs). Here, we show that translationally active tiRNAs assemble unique G-quadruplex (G4) structures that are required for translation inhibition. We show that tiRNA(Ala) binds the cold shock domain of YB-1 to activate these translational reprogramming events. We discovered that 5'-tiDNA(Ala) (the DNA equivalent of 5'-tiRNA(Ala)) is a stable tiRNA analog that displaces eIF4F from capped mRNA, inhibits translation initiation, and induces the assembly of SGs. The 5'-tiDNA(Ala) also assembles a G4 structure that allows it to enter motor neurons spontaneously and trigger a neuroprotective response in a YB-1-dependent manner. Remarkably, the ability of 5'-tiRNA(Ala) to induce SG assembly is inhibited by G4 structures formed by pathological GGGGCC repeats found in C9ORF72, the most common genetic cause of ALS, suggesting that functional interactions between G4 RNAs may contribute to neurodegenerative disease.

SUBMITTER: Ivanov P

PROVIDER: S-EPMC4280610 | biostudies-literature | 2014 Dec

REPOSITORIES: biostudies-literature

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G-quadruplex structures contribute to the neuroprotective effects of angiogenin-induced tRNA fragments.

Ivanov Pavel P O'Day Elizabeth E Emara Mohamed M MM Wagner Gerhard G Lieberman Judy J Anderson Paul P

Proceedings of the National Academy of Sciences of the United States of America 20141117 51

Angiogenin (ANG) is a stress-activated ribonuclease that promotes the survival of motor neurons. Ribonuclease inactivating point mutations are found in a subset of patients with ALS, a fatal neurodegenerative disease with no cure. We recently showed that ANG cleaves tRNA within anticodon loops to produce 5'- and 3'-fragments known as tRNA-derived, stress-induced RNAs (tiRNAs). Selected 5'-tiRNAs (e.g., tiRNA(Ala), tiRNA(Cys)) cooperate with the translational repressor Y-box binding protein 1 (YB ...[more]

PMID: 25404306

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Project description:DNA secondary structures are important for fundamental genome functions such as transcription and replication1. The G-quadruplex (G4) structural motif has been linked to gene regulation2,3 and genome instability4,5 and may be important to cancer development and other diseases6-8. Recently, ~700,000 discrete G4s have been observed in naked human single-stranded genomic DNA using G4-seq, a high-throughput sequencing technique that detects structural features in vitro.9 It is of vital importance to investigate G4 structures within an endogenous chromatin context, which until now remained elusive10,11. Herein, we address this via the development of G4 ChIP-seq, an antibody-based G4 chromatin immunoprecipitation and high-throughput sequencing approach. We identified ~10,000 endogenous G4 structures and show that G4s are predominantly seen in regulatory, nucleosome-depleted, chromatin regions. G4s were enriched in the promoters and 5âUTR regions of highly transcribed genes, particularly in genes related to cancer and in somatic copy number amplifications, such as MYC. Reorganization of the chromatin landscape using a histone deacetylase inhibitor, resulted in de novo G4 formation in new and more prominent regulatory, nucleosome-depleted regions associated with increased transcriptional output. Our findings suggest a striking relationship between promoter nucleosome-depleted regions, G4 formation and elevated transcriptional activity. Comparison between normal human epidermal keratinocytes and their immortalized counterparts revealed a ï¾7-fold greater G4 abundance in immortalized cells, of which 80 % were found in regulatory, nucleosome-depleted regions common to both cell types. Consequently, cells exhibiting more G4s displayed significantly increased transcriptional output and were more sensitive to growth inhibition by a small molecule G4 ligand. Overall, our results provide new mechanistic insights into where and when DNA adopts G4 structure in vivo. Our findings show for the first time that regulatory, nucleosome-depleted chromatin and transcriptional states predominantly shape the endogenous G4 DNA landscape. Two cell lines, treated with entinostat or untreated, analyzed to detect gene expression differences, presence of G-Qudruplexes and chromatin state. Each combination of conditions replicated in duplicates or triplicates.

Dataset Information

G-quadruplex structures contribute to the neuroprotective effects of angiogenin-induced tRNA fragments.

Publications

G-quadruplex structures contribute to the neuroprotective effects of angiogenin-induced tRNA fragments.

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