TY - JOUR
T1 - Mechanism-free repurposing of drugs for C9orf72-related ALS/FTD using large-scale genomic data
AU - The International ALS Genomics Consortium
AU - ITALSGEN Consortium
AU - SLAGEN Consortium
AU - Project MinE ALS Sequencing Consortium
AU - The American Genome Center
AU - Saez-Atienzar, Sara
AU - Souza, Cleide dos Santos
AU - Chia, Ruth
AU - Beal, Selina N.
AU - Lorenzini, Ileana
AU - Huang, Ruili
AU - Levy, Jennifer
AU - Burciu, Camelia
AU - Ding, Jinhui
AU - Gibbs, J. Raphael
AU - Jones, Ashley
AU - Dewan, Ramita
AU - Pensato, Viviana
AU - Peverelli, Silvia
AU - Corrado, Lucia
AU - van Vugt, Joke J.F.A.
AU - van Rheenen, Wouter
AU - Tunca, Ceren
AU - Bayraktar, Elif
AU - Xia, Menghang
AU - Baloh, Robert H.
AU - Bowser, Robert
AU - Brady, Christopher B.
AU - Brice, Alexis
AU - Broach, James
AU - Camu, William
AU - Chio, Adriano
AU - Cooper-Knock, John
AU - Cusi, Daniele
AU - Drepper, Carsten
AU - Drory, Vivian E.
AU - Dunckley, Travis L.
AU - Feldman, Eva
AU - Floeter, Mary Kay
AU - Fratta, Pietro
AU - Gerhard, Glenn
AU - Gibson, Summer B.
AU - Glass, Jonathan D.
AU - Goutman, Stephen A.
AU - Hardy, John
AU - Harms, Matthew B.
AU - Heiman-Patterson, Terry D.
AU - Jansson, Lilja
AU - Kirby, Janine
AU - Laaksovirta, Hannu
AU - Landers, John E.
AU - Landi, Francesco
AU - Le Ber, Isabelle
AU - Lumbroso, Serge
AU - Simmons, Zachary
N1 - Publisher Copyright:
© 2024
PY - 2024/11/13
Y1 - 2024/11/13
N2 - Repeat expansions in the C9orf72 gene are the most common genetic cause of (ALS) and frontotemporal dementia (FTD). Like other genetic forms of neurodegeneration, pinpointing the precise mechanism(s) by which this mutation leads to neuronal death remains elusive, and this lack of knowledge hampers the development of therapy for C9orf72-related disease. We used an agnostic approach based on genomic data (n = 41,273 ALS and healthy samples, and n = 1,516 C9orf72 carriers) to overcome these bottlenecks. Our drug-repurposing screen, based on gene- and expression-pattern matching and information about the genetic variants influencing onset age among C9orf72 carriers, identified acamprosate, a γ-aminobutyric acid analog, as a potentially repurposable treatment for patients carrying C9orf72 repeat expansions. We validated its neuroprotective effect in cell models and showed comparable efficacy to riluzole, the current standard of care. Our work highlights the potential value of genomics in repurposing drugs in situations where the underlying pathomechanisms are inherently complex.
AB - Repeat expansions in the C9orf72 gene are the most common genetic cause of (ALS) and frontotemporal dementia (FTD). Like other genetic forms of neurodegeneration, pinpointing the precise mechanism(s) by which this mutation leads to neuronal death remains elusive, and this lack of knowledge hampers the development of therapy for C9orf72-related disease. We used an agnostic approach based on genomic data (n = 41,273 ALS and healthy samples, and n = 1,516 C9orf72 carriers) to overcome these bottlenecks. Our drug-repurposing screen, based on gene- and expression-pattern matching and information about the genetic variants influencing onset age among C9orf72 carriers, identified acamprosate, a γ-aminobutyric acid analog, as a potentially repurposable treatment for patients carrying C9orf72 repeat expansions. We validated its neuroprotective effect in cell models and showed comparable efficacy to riluzole, the current standard of care. Our work highlights the potential value of genomics in repurposing drugs in situations where the underlying pathomechanisms are inherently complex.
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U2 - 10.1016/j.xgen.2024.100679
DO - 10.1016/j.xgen.2024.100679
M3 - Article
C2 - 39437787
AN - SCOPUS:85207811426
SN - 2666-979X
VL - 4
JO - Cell Genomics
JF - Cell Genomics
IS - 11
M1 - 100679
ER -