Blocking RAN translation without altering repeat RNAs rescues C9ORF72-related ALS and FTD phenotypes

X. Jiang; L. Schaeffer; D. Patni; T. Russo; C.-Z. Lee; C. Aguilar; C. Marques; K. Jansen-West; M. Hruska-Plochan; A. Ray-Soni; S.M. Lim; A. Held; M. Yue; P.C. Otero; S. Aryal; H.D.A.M. Beaussant; H. Basu; H. Takakuwa; L.M. Daughrity; N. Ramesh; P.D. Costa; A.R.A.A. Quadros; M. Nolan; C.J.F. Reyes; H. Wheeler; L.C. Moran; G. Griesman; B. Wymann; B.A. Trombetta; E.S. Lopez-De-Silanes; M. Canori; G. Krishnan; Y.V.S. Da Silva; G. Eriani; M.W. Albers; S.E. Arnold; Y. Song; A. Jain; I.M. Chiu; Y.-J. Zhang; F.-B. Gao; B.J. Wainger; M. Polymenidou; L. Petrucelli; F. Martin; C. Lagier-Tourenne

doi:10.1126/science.adv2600

Journal article

Blocking RAN translation without altering repeat RNAs rescues C9ORF72-related ALS and FTD phenotypes

X. Jiang, L. Schaeffer, D. Patni, T. Russo, C.-Z. Lee, C. Aguilar, C. Marques, K. Jansen-West, M. Hruska-Plochan, A. Ray-Soni, …

Science, Vol.391(6785), eadv2600

2026

DOI: https://doi.org/10.1126/science.adv2600

PMID: 41643021

Abstract

abnormality

gene expression

mutation

phenotype

protein

RNA

survival

toxicity

GGGGCC (G4C2) repeat expansion in C9ORF72 is the most common genetic cause of amyotrophic lateral sclerosis (aLS) and frontotemporal dementia (FTD). Toxicity is thought to result from the accumulation of either repeat rNas and/or dipeptide repeat proteins (DPrs) translated from repeat-containing transcripts through repeat-associated non-auG (raN) translation. To disentangle rNa from DPr toxicity, we mutated a CuG codon predominantly used to initiate DPr translation from all three reading frames. This mutation disrupted DPr synthesis while preserving the expression of repeat-containing rNas. Despite the accumulation of rNa foci, behavioral deficits and pathological abnormalities, including p-TDP-43 inclusions, STING activation, motor neuron loss, neuroinflammation, and increased plasma neurofilament concentration, were alleviated in C9ORF72 mice. base editing of the CuG codon also improved molecular phenotypes and survival in patient induced pluripotent stem cell–derived neurons, which highlights the potential of therapeutically targeting DPr production rather than repeat rNas. Copyright © 2026 the authors, some rights reserved;

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Title: Blocking RAN translation without altering repeat RNAs rescues C9ORF72-related ALS and FTD phenotypes
Creators: X. Jiang - Broad Institute
L. Schaeffer - Centre National de la Recherche Scientifique
D. Patni - Harvard University
T. Russo - Harvard University
C.-Z. Lee - Broad Institute
C. Aguilar - Broad Institute
C. Marques - Harvard University
K. Jansen-West - Mayo Clinic in Florida
M. Hruska-Plochan - University of Zurich
A. Ray-Soni - Broad Institute
S.M. Lim - Broad Institute
A. Held - Harvard University
M. Yue - Mayo Clinic in Florida
P.C. Otero - Mayo Clinic in Florida
S. Aryal - Broad Institute
H.D.A.M. Beaussant - Harvard University
H. Basu - Harvard University
H. Takakuwa - Whitehead Institute for Biomedical Research
L.M. Daughrity - Mayo Clinic in Florida
N. Ramesh - Broad Institute
P.D. Costa
A.R.A.A. Quadros - Broad Institute
M. Nolan - Broad Institute
C.J.F. Reyes - Broad Institute
H. Wheeler - Harvard University
L.C. Moran
G. Griesman - Harvard University
B. Wymann - Harvard University
B.A. Trombetta
E.S. Lopez-De-Silanes - Harvard University
M. Canori - Broad Institute
G. Krishnan - University of Massachusetts Chan Medical School
Y.V.S. Da Silva - Harvard University
G. Eriani - Centre National de la Recherche Scientifique
M.W. Albers - Harvard University
S.E. Arnold
Y. Song - Marine Biological Laboratory
A. Jain - Whitehead Institute for Biomedical Research
I.M. Chiu - Harvard University
Y.-J. Zhang - Mayo Clinic in Florida
F.-B. Gao
B.J. Wainger - Broad Institute
M. Polymenidou - University of Zurich
L. Petrucelli - Mayo Clinic in Florida
F. Martin - Centre National de la Recherche Scientifique
C. Lagier-Tourenne - Broad Institute
Publication Details: Science, Vol.391(6785), eadv2600
Publisher: American Association for the Advancement of Science; WASHINGTON
Number of pages: 17
Grant note: ALS Association Milton Safenowitz Postdoctoral Fellowship Program: 19-PDF-474 Muscular Dystrophy Association Development grant: 21 869150 Association pour la Recherche sur la SLAAgence National de la Recherche: ANR-21-CE12-0028-01 Fondation pour la Recherche Medicale: ALZ201912009641, MND202310017885 Centre National de la Recherche ScientifiqueFrance Alzheimer et maladies apparentees: 6469 Association Francaise contre les Myopathies, AFM-Telethon: 21746 Chan Zuckerberg Initiative DAFNational Institutes of Health (NIH): R37NS057553, R01NS101986 MGH Healey and AMG Center for ALSNIH: RF1NS127407, RM1NS133601 Target ALS: BB-2024-C1
This study was supported by the ALS Association Milton Safenowitz Postdoctoral Fellowship Program 19-PDF-474 to X.J. and A.R.-S.; Muscular Dystrophy Association Development grant 21 869150 to X.J.; Association pour la Recherche sur la SLA to F.M.; Agence National de la Recherche, ANR-21-CE12-0028-01 to F.M.; Fondation pour la Recherche Medicale, ALZ201912009641 and MND202310017885 to F.M.; Centre National de la Recherche Scientifique to F.M.; France Alzheimer et maladies apparentees project no. 6469 to F.M.; Association Francaise contre les Myopathies, AFM-Telethon 21746 to F.M. and C.L.-T.; Chan Zuckerberg Initiative DAF to A.J. and C.L.-T.; National Institutes of Health (NIH), R37NS057553 and R01NS101986 to F.-B.G.; NIH, RF1NS127407 to B.W. and C.L.-T.; NIH, RM1NS133601; Target ALS, BB-2024-C1 to B.W., C.L.-T., M.W.A., and I.M.C.; and the MGH Healey and AMG Center for ALS to C.L.-T.
Comment: Export Date: 27 February 2026; Cited By: 1; CODEN: SCIEA
Academic Unit: Level 02 - Executives; Executives; UMMG Department of Neurology
Resource Type: Journal article
PMID: 41643021
Record Identifier: 991032995743602976