TY - JOUR
T1 - Exome-wide rare variant analysis in familial essential tremor
AU - University of Washington Center for Mendelian Genomics (UWCMG)
AU - Diez-Fairen, Monica
AU - Houle, Gabrielle
AU - Ortega-Cubero, Sara
AU - Bandres-Ciga, Sara
AU - Alvarez, Ignacio
AU - Carcel, Maria
AU - Ibañez, Laura
AU - Fernandez, Maria Victoria
AU - Budde, John P.
AU - Trotta, Jean Rémi
AU - Tonda, Raúl
AU - Chong, Jessica X.
AU - Bamshad, Michael J.
AU - Nickerson, Deborah A.
AU - Aguilar, Miquel
AU - Tartari, Juan P.
AU - Gironell, Alexandre
AU - García-Martín, Elena
AU - Agundez, Jose AG
AU - Alonso-Navarro, Hortensia
AU - Jimenez-Jimenez, Felix Javier
AU - Fernandez, Manel
AU - Valldeoriola, Francesc
AU - Marti, Maria Jose
AU - Tolosa, Eduard
AU - Coria, Francisco
AU - Pastor, Maria A.
AU - Vilariño-Güell, Carles
AU - Rajput, Alex
AU - Dion, Patrick A.
AU - Cruchaga, Carlos
AU - Rouleau, Guy A.
AU - Pastor, Pau
N1 - Publisher Copyright:
© 2020 Elsevier Ltd
PY - 2021/1
Y1 - 2021/1
N2 - Introduction: Essential tremor (ET) is one of the most common movement disorders. Despite its high prevalence and heritability, its genetic etiology remains elusive with only a few susceptibility genes identified and poorly replicated. Our aim was to find novel candidate genes involved in ET predisposition through whole exome sequencing. Methods: We studied eight multigenerational families (N = 40 individuals) with an autosomal-dominant inheritance using a comprehensive strategy combining whole exome sequencing followed by case-control association testing of prioritized variants in a separate cohort comprising 521 ET cases and 596 controls. We further performed gene-based burden analyses in an additional dataset comprising 789 ET patients and 770 healthy individuals to investigate whether there was an enrichment of rare deleterious variants within our candidate genes. Results: Fifteen variants co-segregated with disease status in at least one of the families, among which rs749875462 in CCDC183, rs535864157 in MMP10 and rs114285050 in GPR151 showed a nominal association with ET. However, we found no significant enrichment of rare variants within these genes in cases compared with controls. Interestingly, MMP10 protein is involved in the inflammatory response to neuronal damage and has been previously associated with other neurological disorders. Conclusions: We prioritized a set of promising genes, especially MMP10, for further genetic and functional studies in ET. Our study suggests that rare deleterious coding variants that markedly increase susceptibility to ET are likely to be found in many genes. Future studies are needed to replicate and further infer biological mechanisms and potential disease causality for our identified genes.
AB - Introduction: Essential tremor (ET) is one of the most common movement disorders. Despite its high prevalence and heritability, its genetic etiology remains elusive with only a few susceptibility genes identified and poorly replicated. Our aim was to find novel candidate genes involved in ET predisposition through whole exome sequencing. Methods: We studied eight multigenerational families (N = 40 individuals) with an autosomal-dominant inheritance using a comprehensive strategy combining whole exome sequencing followed by case-control association testing of prioritized variants in a separate cohort comprising 521 ET cases and 596 controls. We further performed gene-based burden analyses in an additional dataset comprising 789 ET patients and 770 healthy individuals to investigate whether there was an enrichment of rare deleterious variants within our candidate genes. Results: Fifteen variants co-segregated with disease status in at least one of the families, among which rs749875462 in CCDC183, rs535864157 in MMP10 and rs114285050 in GPR151 showed a nominal association with ET. However, we found no significant enrichment of rare variants within these genes in cases compared with controls. Interestingly, MMP10 protein is involved in the inflammatory response to neuronal damage and has been previously associated with other neurological disorders. Conclusions: We prioritized a set of promising genes, especially MMP10, for further genetic and functional studies in ET. Our study suggests that rare deleterious coding variants that markedly increase susceptibility to ET are likely to be found in many genes. Future studies are needed to replicate and further infer biological mechanisms and potential disease causality for our identified genes.
KW - Essential tremor
KW - Genetic risk
KW - MMP10
KW - Rare variants
KW - WES
UR - http://www.scopus.com/inward/record.url?scp=85097086882&partnerID=8YFLogxK
U2 - 10.1016/j.parkreldis.2020.11.021
DO - 10.1016/j.parkreldis.2020.11.021
M3 - Article
C2 - 33279834
AN - SCOPUS:85097086882
SN - 1353-8020
VL - 82
SP - 109
EP - 116
JO - Parkinsonism and Related Disorders
JF - Parkinsonism and Related Disorders
ER -