6 research outputs found
RAN Translation at \u3cem\u3eC9orf72\u3c/em\u3e-Associated Repeat Expansions is Selectively Enhanced by the Integrated Stress Response
Repeat-associated non-AUG (RAN) translation allows for unconventional initiation at disease-causing repeat expansions. As RAN translation contributes to pathogenesis in multiple neurodegenerative disorders, determining its mechanistic underpinnings may inform therapeutic development. Here we analyze RAN translation at G4C2 repeat expansions that cause C9orf72-associated amyotrophic lateral sclerosis and frontotemporal dementia (C9RAN) and at CGG repeats that cause fragile X-associated tremor/ataxia syndrome. We find that C9RAN translation initiates through a cap- and eIF4A-dependent mechanism that utilizes a CUG start codon. C9RAN and CGG RAN are both selectively enhanced by integrated stress response (ISR) activation. ISR-enhanced RAN translation requires an eIF2Îą phosphorylation-dependent alteration in start codon fidelity. In parallel, both CGG and G4C2 repeats trigger phosphorylated-eIF2Îą-dependent stress granule formation and global translational suppression. These findings support a model whereby repeat expansions elicit cellular stress conditions that favor RAN translation of toxic proteins, creating a potential feed-forward loop that contributes to neurodegeneration
DDX3X and specific initiation factors modulate FMR1 repeatâassociated nonâAUGâinitiated translation
A CGG trinucleotide repeat expansion in the 5ⲠUTR of FMR1 causes the neurodegenerative disorder Fragile Xâassociated tremor/ataxia syndrome (FXTAS). This repeat supports a nonâcanonical mode of protein synthesis known as repeatâassociated, nonâAUG (RAN) translation. The mechanism underlying RAN translation at CGG repeats remains unclear. To identify modifiers of RAN translation and potential therapeutic targets, we performed a candidateâbased screen of eukaryotic initiation factors and RNA helicases in cellâbased assays and a Drosophila melanogaster model of FXTAS. We identified multiple modifiers of toxicity and RAN translation from an expanded CGG repeat in the context of the FMR1 5â˛UTR. These include the DEADâbox RNA helicase belle/DDX3X, the helicase accessory factors EIF4B/4H, and the start codon selectivity factors EIF1 and EIF5. Disrupting belle/DDX3X selectively inhibited FMR1 RAN translation in Drosophila in vivo and cultured human cells, and mitigated repeatâinduced toxicity in Drosophila and primary rodent neurons. These findings implicate RNA secondary structure and start codon fidelity as critical elements mediating FMR1 RAN translation and identify potential targets for treating repeatâassociated neurodegeneration.SynopsisFragile Xâassociated tremor/ataxia syndrome is caused by CGG repeatâassociated nonâAUG (RAN) translation that initiates within the 5â˛UTR of FMR1. A candidateâbased screen identified several initiation factorsâDDX3X/Belle, eIF4B, eIF4H, eIF1, and eIF5âcritical for FMR1 RAN translation.Knockdown of the RNA helicase DDX3X selectively suppresses FMR1 RAN translation in Drosophila melanogaster, cultured HeLa cells, and in vitro translation assays.DDX3X knockdown reduces CGG repeatâassociated toxicity in Drosophila and mammalian neurons.Eukaryotic initiation factors that modulate RNAâRNA secondary structure (DDX3X, EIF4B, EIF4H) or start codon fidelity (EIF1, EIF5) impact FMR1 RAN translation.FXTAS is caused by CGG repeatâassociated nonâAUG (RAN) translation that initiates within the 5â˛UTR of FMR1. A candidateâbased screen identified several initiation factorsâDDX3X/Belle, eIF4B, eIF4H, eIF1, and eIF5âcritical for FMR1 RAN translation.Peer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/151325/1/embr201847498.reviewer_comments.pdfhttps://deepblue.lib.umich.edu/bitstream/2027.42/151325/2/embr201847498-sup-0001-Appendix.pdfhttps://deepblue.lib.umich.edu/bitstream/2027.42/151325/3/embr201847498_am.pdfhttps://deepblue.lib.umich.edu/bitstream/2027.42/151325/4/embr201847498.pd
RAN translation at C9orf72-associated repeat expansions is selectively enhanced by the integrated stress response
A nucleotide repeat expansion in C9orf72 is a common genetic cause of neurodegenerative disorders. Here, the authors provide insight into the molecular mechanism by which this repeat undergoes Repeat-Associated Non-AUG (RAN) translation, implicating the integrated stress response and eIF2Îą phosphorylation
DDX
A CGG trinucleotide repeat expansion in the 5ⲠUTR of FMR1 causes the neurodegenerative disorder Fragile Xâassociated tremor/ataxia syndrome (FXTAS). This repeat supports a nonâcanonical mode of protein synthesis known as repeatâassociated, nonâAUG (RAN) translation. The mechanism underlying RAN translation at CGG repeats remains unclear. To identify modifiers of RAN translation and potential therapeutic targets, we performed a candidateâbased screen of eukaryotic initiation factors and RNA helicases in cellâbased assays and a Drosophila melanogaster model of FXTAS. We identified multiple modifiers of toxicity and RAN translation from an expanded CGG repeat in the context of the FMR1 5â˛UTR. These include the DEADâbox RNA helicase belle/DDX3X, the helicase accessory factors EIF4B/4H, and the start codon selectivity factors EIF1 and EIF5. Disrupting belle/DDX3X selectively inhibited FMR1 RAN translation in Drosophila in vivo and cultured human cells, and mitigated repeatâinduced toxicity in Drosophila and primary rodent neurons. These findings implicate RNA secondary structure and start codon fidelity as critical elements mediating FMR1 RAN translation and identify potential targets for treating repeatâassociated neurodegeneration.SynopsisFragile Xâassociated tremor/ataxia syndrome is caused by CGG repeatâassociated nonâAUG (RAN) translation that initiates within the 5â˛UTR of FMR1. A candidateâbased screen identified several initiation factorsâDDX3X/Belle, eIF4B, eIF4H, eIF1, and eIF5âcritical for FMR1 RAN translation.Knockdown of the RNA helicase DDX3X selectively suppresses FMR1 RAN translation in Drosophila melanogaster, cultured HeLa cells, and in vitro translation assays.DDX3X knockdown reduces CGG repeatâassociated toxicity in Drosophila and mammalian neurons.Eukaryotic initiation factors that modulate RNAâRNA secondary structure (DDX3X, EIF4B, EIF4H) or start codon fidelity (EIF1, EIF5) impact FMR1 RAN translation.FXTAS is caused by CGG repeatâassociated nonâAUG (RAN) translation that initiates within the 5â˛UTR of FMR1. A candidateâbased screen identified several initiation factorsâDDX3X/Belle, eIF4B, eIF4H, eIF1, and eIF5âcritical for FMR1 RAN translation.Peer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/151325/1/embr201847498.reviewer_comments.pdfhttps://deepblue.lib.umich.edu/bitstream/2027.42/151325/2/embr201847498-sup-0001-Appendix.pdfhttps://deepblue.lib.umich.edu/bitstream/2027.42/151325/3/embr201847498_am.pdfhttps://deepblue.lib.umich.edu/bitstream/2027.42/151325/4/embr201847498.pd