Accurate long-read sequencing identified GBA1 as major risk factor in the Luxembourgish Parkinson’s study

Abstract Heterozygous variants in the glucocerebrosidase GBA1 gene are an increasingly recognized risk factor for Parkinson’s disease (PD). Due to the GBAP1 pseudogene, which shares 96% sequence homology with the GBA1 coding region, accurate variant calling by array-based or short-read sequencing methods remains a major challenge in understanding the genetic landscape of GBA1 -associated PD. We analyzed 660 patients with PD, 100 patients with Parkinsonism and 808 healthy controls from the Luxembourg Parkinson’s study, sequenced using amplicon-based long-read DNA sequencing technology. We found... Mehr ...

Verfasser: Pachchek, Sinthuja
Landoulsi, Zied
Pavelka, Lukas
Schulte, Claudia
Buena-Atienza, Elena
Gross, Caspar
Hauser, Ann-Kathrin
Reddy Bobbili, Dheeraj
Casadei, Nicolas
May, Patrick
Krüger, Rejko
Acharya, Geeta
Aguayo, Gloria
Alexandre, Myriam
Ali, Muhammad
Ammerlann, Wim
Arena, Giuseppe
Balling, Rudi
Bassis, Michele
Batutu, Roxane
Beaumont, Katy
Becker, Regina
Bellora, Camille
Berchem, Guy
Berg, Daniela
Bisdorff, Alexandre
Boussaad, Ibrahim
Bouvier, David
Brockmann, Kathrin
Calmes, Jessica
Castillo, Lorieza
Contesotto, Gessica
De Bremaeker, Nancy
Diederich, Nico
Dondelinger, Rene
E. Ramia, Nancy
Esteves, Daniela
Fagherazzi, Guy
Ferrand, Jean-Yves
Frauenknecht, Katrin
Gantenbein, Manon
Gasser, Thomas
Gawron, Piotr
Ghosh, Soumyabrata
Giraitis, Marijus
Glaab, Enrico
Goergen, Martine
Gómez De Lope, Elisa
Graas, Jérôme
Graziano, Mariella
Dokumenttyp: Artikel
Erscheinungsdatum: 2023
Reihe/Periodikum: npj Parkinson's Disease ; volume 9, issue 1 ; ISSN 2373-8057
Verlag/Hrsg.: Springer Science and Business Media LLC
Sprache: Englisch
Permalink: https://search.fid-benelux.de/Record/base-29104147
Datenquelle: BASE; Originalkatalog
Powered By: BASE
Link(s) : http://dx.doi.org/10.1038/s41531-023-00595-w

Abstract Heterozygous variants in the glucocerebrosidase GBA1 gene are an increasingly recognized risk factor for Parkinson’s disease (PD). Due to the GBAP1 pseudogene, which shares 96% sequence homology with the GBA1 coding region, accurate variant calling by array-based or short-read sequencing methods remains a major challenge in understanding the genetic landscape of GBA1 -associated PD. We analyzed 660 patients with PD, 100 patients with Parkinsonism and 808 healthy controls from the Luxembourg Parkinson’s study, sequenced using amplicon-based long-read DNA sequencing technology. We found that 12.1% (77/637) of PD patients carried GBA1 variants, with 10.5% (67/637) of them carrying known pathogenic variants (including severe, mild, risk variants). In comparison, 5% (34/675) of the healthy controls carried GBA1 variants, and among them, 4.3% (29/675) were identified as pathogenic variant carriers. We found four GBA1 variants in patients with atypical parkinsonism. Pathogenic GBA1 variants were 2.6-fold more frequently observed in PD patients compared to controls (OR = 2.6; CI = [1.6,4.1]). Three novel variants of unknown significance (VUS) were identified. Using a structure-based approach, we defined a potential risk prediction method for VUS. This study describes the full landscape of GBA1 -related parkinsonism in Luxembourg, showing a high prevalence of GBA1 variants as the major genetic risk for PD. Although the long-read DNA sequencing technique used in our study may be limited in its effectiveness to detect potential structural variants, our approach provides an important advancement for highly accurate GBA1 variant calling, which is essential for providing access to emerging causative therapies for GBA1 carriers.