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Genetic variability in sporadic amyotrophic lateral sclerosis.

Sien Hilde Van DaeleMatthieu MoisseJoke J F A van VugtRamona A J ZwambornRick van der SpekWouter van RheenenKristel Van EijkKevin KennaPhilippe CorciaPatrick Vourc'hPhilippe CouratierOrla HardimanRussell Lewis McLaughlinMarc GotkineVivian DroryNicola TicozziVincenzo SilaniAntonia RattiMamede de CarvalhoJesús S Mora PardinaMonica PovedanoPeter M AndersenMarkus WeberNazli A BaşakChris ShawDame Pamela J ShawKaren E MorrisonJohn E LandersJonathan D GlassMichael A Van EsLeonard H van den BergAmmar Al ChalabiJan VeldinkPhilip Van Damme
Published in: Brain : a journal of neurology (2023)
With the advent of gene therapies for amyotrophic lateral sclerosis, there is a surge in gene testing for ALS. Although there is ample experience with gene testing for C9orf72, SOD1, FUS and TARDBP in familial ALS, large studies exploring genetic variation in all ALS-associated genes in sporadic ALS (sALS) are still scarce. Gene testing in a diagnostic setting is challenging given the complex genetic architecture of sALS with genetic variants with large and small effect sizes. Guidelines for interpretation of genetic variants in gene panels and for counselling of patients are lacking. We aimed to provide a thorough characterization of genetic variability in ALS genes by applying the ACMG criteria on whole genome sequencing data from a large cohort of 6013 sporadic ALS patients and 2411 matched controls from Project MinE. We studied genetic variation in 90 ALS-associated genes and applied customized ACMG-criteria to identify pathogenic and likely pathogenic variants. Variants of unknown significance were collected as well. In addition, we determined the length of repeat expansions in C9orf72, ATXN1, ATXN2 and NIPA1 using the ExpansionHunter tool. We found C9orf72 repeat expansions in 5.21% of sALS patients. In 50 ALS-associated genes, we did not identify any pathogenic or likely pathogenic variants. In 5.89%, a pathogenic or likely pathogenic variant was found, most commonly in SOD1, TARDBP, FUS, NEK1, OPTN or TBK1. Significantly more cases carried at least one pathogenic or likely pathogenic variant compared to controls (OR 1.75; p-value 1.64 × 10-5). Isolated risk factors in ATXN1, ATXN2, NIPA1 and/or UNC13A were detected in 17.33% of cases. In 71.83%, we did not find any genetic clues. A combination of variants was found in 2.88%. This study provides an inventory of pathogenic and likely pathogenic genetic variation in a large cohort of sALS. Overall, we identified pathogenic and likely pathogenic variants in 11.13% of ALS patients in 38 known ALS genes. In line with the oligogenic hypothesis, we found significantly more combinations of variants in cases compared to controls. Many variants of unknown significance may contribute to ALS risk, but diagnostic algorithms to reliably identify and weigh them are lacking. This work can serve as a resource for counselling and for the assembly of gene panels for ALS. Further characterization of the genetic architecture of sALS is necessary given the growing interest in gene testing in ALS.
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