A C. elegans model of C9orf72-associated ALS/FTD uncovers a conserved role for eIF2D in RAN translation

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作者
Yoshifumi Sonobe
Jihad Aburas
Gopinath Krishnan
Andrew C. Fleming
Ghanashyam Ghadge
Priota Islam
Eleanor C. Warren
Yuanzheng Gu
Mark W. Kankel
André E. X. Brown
Evangelos Kiskinis
Tania F. Gendron
Fen-Biao Gao
Raymond P. Roos
Paschalis Kratsios
机构
[1] University of Chicago Medical Center,Department of Neurology
[2] University of Chicago Medical Center,The Grossman Institute for Neuroscience, Quantitative Biology, and Human Behavior
[3] University of Chicago,Department of Neurobiology
[4] University of Chicago,Department of Neurology
[5] University of Massachusetts Medical School,The Ken & Ruth Davee Department of Neurology, Feinberg School of Medicine
[6] Northwestern University,Institute of Clinical Sciences
[7] MRC London Institute of Medical Sciences,Department of Neuroscience
[8] Imperial College London,undefined
[9] Neuromuscular & Movement Disorders,undefined
[10] Biogen,undefined
[11] Mayo Clinic,undefined
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Nature Communications | / 12卷
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摘要
A hexanucleotide repeat expansion GGGGCC in the non-coding region of C9orf72 is the most common cause of inherited amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD). Toxic dipeptide repeats (DPRs) are synthesized from GGGGCC via repeat-associated non-AUG (RAN) translation. Here, we develop C. elegans models that express, either ubiquitously or exclusively in neurons, 75 GGGGCC repeats flanked by intronic C9orf72 sequence. The worms generate DPRs (poly-glycine-alanine [poly-GA], poly-glycine-proline [poly-GP]) and poly-glycine-arginine [poly-GR]), display neurodegeneration, and exhibit locomotor and lifespan defects. Mutation of a non-canonical translation-initiating codon (CUG) upstream of the repeats selectively reduces poly-GA steady-state levels and ameliorates disease, suggesting poly-GA is pathogenic. Importantly, loss-of-function mutations in the eukaryotic translation initiation factor 2D (eif-2D/eIF2D) reduce poly-GA and poly-GP levels, and increase lifespan in both C. elegans models. Our in vitro studies in mammalian cells yield similar results. Here, we show a conserved role for eif-2D/eIF2D in DPR expression.
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