TY - JOUR
T1 - Frequency of loss of function variants in LRRK2 in Parkinson disease
AU - COURAGE-PD (Comprehensive Unbiased Risk Factor Assessment for Genetics and Environment in Parkinson's Disease) Consortium
AU - French Parkinson's Disease Consortium
AU - International Parkinson's Disease Genomics Consortium (IPDGC)
AU - Blauwendraat, Cornelis
AU - Reed, Xylena
AU - Kia, Demis A.
AU - Gan-Or, Ziv
AU - Lesage, Suzanne
AU - Pihlstrøm, Lasse
AU - Guerreiro, Rita
AU - Gibbs, J. Raphael
AU - Sabir, Marya
AU - Ahmed, Sarah
AU - Ding, Jinhui
AU - Alcalay, Roy N.
AU - Hassin-Baer, Sharon
AU - Pittman, Alan M.
AU - Brooks, Janet
AU - Edsall, Connor
AU - Hernandez, Dena G.
AU - Chung, Sun Ju
AU - Goldwurm, Stefano
AU - Toft, Mathias
AU - Schulte, Claudia
AU - Bras, Jose
AU - Wood, Nicholas W.
AU - Brice, Alexis
AU - Morris, Huw R.
AU - Scholz, Sonja W.
AU - Nalls, Mike A.
AU - Singleton, Andrew B.
AU - Cookson, Mark R.
AU - Gasser, Thomas
AU - Sharma, Manu
AU - Simón-Sánchez, Javier
AU - Heutink, Peter
AU - Giri, Anamika
AU - Brockmann, Kathrin
AU - Oertel, Wolfgang
AU - Klein, Christine
AU - Mohamed, Fatima
AU - Malard, Lucile
AU - Elbaz, Alexis
AU - Corti, Olga
AU - Drouet, Valérie
AU - Corvol, Jean Christophe
AU - Tesei, Silvana
AU - Canesi, Margherita
AU - Valente, Enza Maria
AU - Petrucci, Simona
AU - Ginevrino, Monia
AU - Aasly, Jan
AU - Houlden, Henry
PY - 2018/11
Y1 - 2018/11
N2 - IMPORTANCE Pathogenic variants in LRRK2 are a relatively common genetic cause of Parkinson disease (PD). Currently, the molecular mechanism underlying disease is unknown, and gain and loss of function (LOF) models of pathogenesis have been postulated. LRRK2 variants are reported to result in enhanced phosphorylation of substrates and increased cell death. However, the double knockout of Lrrk2 and its homologue Lrrk1 results in neurodegeneration in a mouse model, suggesting that disease may occur by LOF. Because LRRK2 inhibitors are currently in development as potential disease-modifying treatments in PD, it is critical to determine whether LOF variants in LRRK2 increase or decrease the risk of PD. OBJECTIVE To determine whether LRRK1 and LRRK2 LOF variants contribute to the risk of developing PD. DESIGN, SETTING, AND PARTICIPANTS To determine the prevailing mechanism of LRRK2-mediated disease in human populations, next-generation sequencing data from a large case-control cohort (>23 000 individuals) was analyzed for LOF variants in LRRK1 and LRRK2. Data were generated at 5 different sites and 5 different data sets, including cases with clinically diagnosed PD and neurologically normal control individuals. Data were collected from 2012 through 2017. MAIN OUTCOMES AND MEASURES Frequencies of LRRK1 and LRRK2 LOF variants present in the general population and compared between cases and controls. RESULTS Among 11 095 cases with PD and 12 615 controls, LRRK1 LOF variants were identified in 0.205%of cases and 0.139% of controls (odds ratio, 1.48; SE, 0.571; 95%CI, 0.45-4.44; P = .49) and LRRK2 LOF variants were found in 0.117%of cases and 0.087%of controls (odds ratio, 1.48; SE, 0.431; 95%CI, 0.63-3.50; P = .36). All association tests suggested lack of association between LRRK1 or LRRK2 variants and PD. Further analysis of lymphoblastoid cell lines from several heterozygous LOF variant carriers found that, as expected, LRRK2 protein levels are reduced by approximately half compared with wild-type alleles. CONCLUSIONS AND RELEVANCE Together these findings indicate that haploinsufficiency of LRRK1 or LRRK2 is neither a cause of nor protective against PD. Furthermore, these results suggest that kinase inhibition or allele-specific targeting of mutant LRRK2 remain viable therapeutic strategies in PD.
AB - IMPORTANCE Pathogenic variants in LRRK2 are a relatively common genetic cause of Parkinson disease (PD). Currently, the molecular mechanism underlying disease is unknown, and gain and loss of function (LOF) models of pathogenesis have been postulated. LRRK2 variants are reported to result in enhanced phosphorylation of substrates and increased cell death. However, the double knockout of Lrrk2 and its homologue Lrrk1 results in neurodegeneration in a mouse model, suggesting that disease may occur by LOF. Because LRRK2 inhibitors are currently in development as potential disease-modifying treatments in PD, it is critical to determine whether LOF variants in LRRK2 increase or decrease the risk of PD. OBJECTIVE To determine whether LRRK1 and LRRK2 LOF variants contribute to the risk of developing PD. DESIGN, SETTING, AND PARTICIPANTS To determine the prevailing mechanism of LRRK2-mediated disease in human populations, next-generation sequencing data from a large case-control cohort (>23 000 individuals) was analyzed for LOF variants in LRRK1 and LRRK2. Data were generated at 5 different sites and 5 different data sets, including cases with clinically diagnosed PD and neurologically normal control individuals. Data were collected from 2012 through 2017. MAIN OUTCOMES AND MEASURES Frequencies of LRRK1 and LRRK2 LOF variants present in the general population and compared between cases and controls. RESULTS Among 11 095 cases with PD and 12 615 controls, LRRK1 LOF variants were identified in 0.205%of cases and 0.139% of controls (odds ratio, 1.48; SE, 0.571; 95%CI, 0.45-4.44; P = .49) and LRRK2 LOF variants were found in 0.117%of cases and 0.087%of controls (odds ratio, 1.48; SE, 0.431; 95%CI, 0.63-3.50; P = .36). All association tests suggested lack of association between LRRK1 or LRRK2 variants and PD. Further analysis of lymphoblastoid cell lines from several heterozygous LOF variant carriers found that, as expected, LRRK2 protein levels are reduced by approximately half compared with wild-type alleles. CONCLUSIONS AND RELEVANCE Together these findings indicate that haploinsufficiency of LRRK1 or LRRK2 is neither a cause of nor protective against PD. Furthermore, these results suggest that kinase inhibition or allele-specific targeting of mutant LRRK2 remain viable therapeutic strategies in PD.
UR - http://www.scopus.com/inward/record.url?scp=85056328533&partnerID=8YFLogxK
U2 - 10.1001/jamaneurol.2018.1885
DO - 10.1001/jamaneurol.2018.1885
M3 - Journal articles
C2 - 30039155
AN - SCOPUS:85056328533
SN - 2168-6149
VL - 75
SP - 1416
EP - 1422
JO - JAMA Neurology
JF - JAMA Neurology
IS - 11
ER -