Genome-wide identification of the genetic basis of amyotrophic lateral sclerosis

Sai Zhang(Stanford University), Johnathan Cooper‐Knock(University of Sheffield), Annika K. Weimer(Stanford University), Minyi Shi(Stanford University), Tobias Moll(University of Sheffield), Jack N.G. Marshall(University of Sheffield), Calum Harvey(University of Sheffield), Helia Ghahremani Nezhad(University of Sheffield), John Franklin(University of Sheffield), Cleide Dos Santos Souza(University of Sheffield), Ke Ning(University of Sheffield), Cheng Wang(University of California, San Francisco), Jingjing Li(University of California, San Francisco), Allison A. Dilliott(Montreal Neurological Institute and Hospital), Sali M.K. Farhan(Montreal Neurological Institute and Hospital), Eran Elhaik(Lund University), Iris-Stefania Pasniceanu(University of Sheffield), Matthew R. Livesey(University of Sheffield), Chen Eitan(Weizmann Institute of Science), Eran Hornstein(Weizmann Institute of Science), Kevin P. Kenna(University Medical Center Utrecht), Ian P. Blair(University Medical Center Utrecht), Naomi R. Wray(University of Sheffield), Matthew C. Kiernan(University of Sheffield), Miguel Mitne‐Neto(Stanford University), Adriano Chiò(University of Sheffield), Ruben J. Cauchi, Wim Robberecht(University of Sheffield), Philip Van Damme, Philippe Corcia, Philippe Couratier, Orla Hardiman, Russell McLaughin, Marc Gotkine, Vivian E. Drory, Nicola Ticozzi, Vincenzo Silani, Jan H. Veldink(University Medical Center Utrecht), Leonard H. van den Berg, Mamede de Carvalho, Jesús S. Mora Pardina, Mónica Povedano(University Medical Center Utrecht), Peter M. Andersen, Markus Weber, Nazlı Başak, Ammar Al‐Chalabi, Christopher E. Shaw, Pamela J. Shaw(University of Sheffield), Karen Morrison, John E. Landers, Jonathan D. Glass(University of Sheffield), Jan H. Veldink(University Medical Center Utrecht), Laura Ferraiuolo(University of Sheffield), Pamela J. Shaw(University of Sheffield), M Snyder(Stanford Medicine)
Neuron
January 18, 2022
10.1016/j.neuron.2021.12.019
Cited by 121Open Access
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Abstract

Amyotrophic lateral sclerosis (ALS) is a complex disease that leads to motor neuron death. Despite heritability estimates of 52%, genome-wide association studies (GWASs) have discovered relatively few loci. We developed a machine learning approach called RefMap, which integrates functional genomics with GWAS summary statistics for gene discovery. With transcriptomic and epigenetic profiling of motor neurons derived from induced pluripotent stem cells (iPSCs), RefMap identified 690 ALS-associated genes that represent a 5-fold increase in recovered heritability. Extensive conservation, transcriptome, network, and rare variant analyses demonstrated the functional significance of candidate genes in healthy and diseased motor neurons and brain tissues. Genetic convergence between common and rare variation highlighted KANK1 as a new ALS gene. Reproducing KANK1 patient mutations in human neurons led to neurotoxicity and demonstrated that TDP-43 mislocalization, a hallmark pathology of ALS, is downstream of axonal dysfunction. RefMap can be readily applied to other complex diseases.

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