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

Sinthuja Pachchek; Zied Landoulsi; Lukas Pavelka; Claudia Schulte; Elena Buena-Atienza; Caspar Gross; Ann Kathrin Hauser; Dheeraj Reddy Bobbili; Nicolas Casadei; Patrick May; Rejko Krüger; Geeta Acharya; Gloria Aguayo; Myriam Alexandre; Muhammad Ali; Wim Ammerlann; Giuseppe Arena; Rudi Balling; Michele Bassis; Roxane Batutu; Katy Beaumont; Regina Becker; Camille Bellora; Guy Berchem; Daniela Berg; Alexandre Bisdorff; Ibrahim Boussaad; David Bouvier; Kathrin Brockmann; Jessica Calmes; Lorieza Castillo; Gessica Contesotto; Nancy De Bremaeker; Nico Diederich; Rene Dondelinger; Nancy E. Ramia; Daniela Esteves; Guy Fagherazzi; Jean Yves Ferrand; Katrin Frauenknecht; Manon Gantenbein; Thomas Gasser; Piotr Gawron; Soumyabrata Ghosh; Marijus Giraitis; Enrico Glaab; Martine Goergen; Elisa Gómez De Lope; Jérôme Graas; Anne Marie Hanff; NCER-PD Consortium

doi:10.1038/s41531-023-00595-w

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

Sinthuja Pachchek^*, Zied Landoulsi, Lukas Pavelka, Claudia Schulte, Elena Buena-Atienza, Caspar Gross, Ann Kathrin Hauser, Dheeraj Reddy Bobbili, Nicolas Casadei, Patrick May^*, Rejko Krüger^*, Geeta Acharya, Gloria Aguayo, Myriam Alexandre, Muhammad Ali, Wim Ammerlann, Giuseppe Arena, Rudi Balling, Michele Bassis, Roxane BatutuKaty Beaumont, Regina Becker, Camille Bellora, Guy Berchem, Daniela Berg, Alexandre Bisdorff, Ibrahim Boussaad, David Bouvier, Kathrin Brockmann, Jessica Calmes, Lorieza Castillo, Gessica Contesotto, Nancy De Bremaeker, Nico Diederich, Rene Dondelinger, Nancy E. Ramia, Daniela Esteves, Guy Fagherazzi, Jean Yves Ferrand, Katrin Frauenknecht, Manon Gantenbein, Thomas Gasser, Piotr Gawron, Soumyabrata Ghosh, Marijus Giraitis, Enrico Glaab, Martine Goergen, Elisa Gómez De Lope, Jérôme Graas, Anne Marie Hanff, NCER-PD Consortium

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

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.

Original language	English
Article number	156
Number of pages	14
Journal	npj Parkinson's Disease
Volume	9
Issue number	1
DOIs	https://doi.org/10.1038/s41531-023-00595-w
Publication status	Published - 23 Nov 2023

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1 Erratum / corrigendum

Author Correction: Accurate long-read sequencing identified GBA1 as major risk factor in the Luxembourgish Parkinson’s study
Pachchek, S., Landoulsi, Z., Pavelka, L., Schulte, C., Buena-Atienza, E., Gross, C., Hauser, A. K., Reddy Bobbili, D., Casadei, N., May, P., Krüger, R., Acharya, G., Aguayo, G., Alexandre, M., Ali, M., Ammerlann, W., Arena, G., Balling, R., Bassis, M. & Batutu, R. & 31 others, Beaumont, K., Becker, R., Bellora, C., Berchem, G., Berg, D., Bisdorff, A., Boussaad, I., Bouvier, D., Brockmann, K., Calmes, J., Castillo, L., Contesotto, G., De Bremaeker, N., Diederich, N., Dondelinger, R., E. Ramia, N., Esteves, D., Fagherazzi, G., Ferrand, J. Y., Frauenknecht, K., Gantenbein, M., Gasser, T., Gawron, P., Ghosh, S., Giraitis, M., Glaab, E., Goergen, M., Gómez De Lope, E., Graas, J., Hanff, A. M. & NCER-PD Consortium, 18 Dec 2023, In: npj Parkinson's Disease. 9, 1, 1 p., 168.
Research output: Contribution to journal › Erratum / corrigendum › Academic

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Pachchek, S., Landoulsi, Z., Pavelka, L., Schulte, C., Buena-Atienza, E., Gross, C., Hauser, A. K., Reddy Bobbili, D., Casadei, N., May, P., Krüger, R., Acharya, G., Aguayo, G., Alexandre, M., Ali, M., Ammerlann, W., Arena, G., Balling, R., Bassis, M., ... NCER-PD Consortium (2023). Accurate long-read sequencing identified GBA1 as major risk factor in the Luxembourgish Parkinson’s study. npj Parkinson's Disease, 9(1), Article 156. https://doi.org/10.1038/s41531-023-00595-w

@article{6605fc438bcc4d2d9d147c2d2012ad36,

title = "Accurate long-read sequencing identified GBA1 as major risk factor in the Luxembourgish Parkinson{\textquoteright}s study",

abstract = "Heterozygous variants in the glucocerebrosidase GBA1 gene are an increasingly recognized risk factor for Parkinson{\textquoteright}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{\textquoteright}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.",

author = "Sinthuja Pachchek and Zied Landoulsi and Lukas Pavelka and Claudia Schulte and Elena Buena-Atienza and Caspar Gross and Hauser, \{Ann Kathrin\} and \{Reddy Bobbili\}, Dheeraj and Nicolas Casadei and Patrick May and Rejko Kr{\"u}ger and Geeta Acharya and Gloria Aguayo and Myriam Alexandre and Muhammad Ali and Wim Ammerlann and Giuseppe Arena and Rudi Balling and Michele Bassis and Roxane Batutu and Katy Beaumont and Regina Becker and Camille Bellora and Guy Berchem and Daniela Berg and Alexandre Bisdorff and Ibrahim Boussaad and David Bouvier and Kathrin Brockmann and Jessica Calmes and Lorieza Castillo and Gessica Contesotto and \{De Bremaeker\}, Nancy and Nico Diederich and Rene Dondelinger and \{E. Ramia\}, Nancy and Daniela Esteves and Guy Fagherazzi and Ferrand, \{Jean Yves\} and Katrin Frauenknecht and Manon Gantenbein and Thomas Gasser and Piotr Gawron and Soumyabrata Ghosh and Marijus Giraitis and Enrico Glaab and Martine Goergen and \{G{\'o}mez De Lope\}, Elisa and J{\'e}r{\^o}me Graas and Hanff, \{Anne Marie\} and \{NCER-PD Consortium\}",

note = "Funding Information: Data used in the preparation of this manuscript were obtained from the National Centre of Excellence in Research on Parkinson{\textquoteright}s Disease (NCER-PD). The National Centre of Excellence in Research on Parkinson{\textquoteright}s Disease (NCER-PD) is funded by the Luxembourg National Research Fund (FNR/NCER13/BM/11264123). The work presented here was funded by the Luxembourg National Research (FNR/NCER13/BM/11264123), the PEARL program (FNR/P13/6682797 to RK), MotaSYN (12719684 to RK), MAMaSyn (INTER/LEIR/18/12719318 to RK), MiRisk-PD (C17/BM/11676395 to RK, PM), the FNR/DFG Core INTER (ProtectMove, FNR11250962 to PM), and the PARK-QC DTU (PRIDE17/12244779/PARK-QC to RK, SP). We would like to thank all participants of the Luxembourg Parkinson{\textquoteright}s Study for their important support of our research. Furthermore, we acknowledge the joint effort of the National Centre of Excellence in Research on Parkinson{\textquoteright}s Disease (NCER-PD) Consortium members from the partner institutions Luxembourg Centre for Systems Biomedicine, Luxembourg Institute of Health, Centre Hospitalier de Luxembourg, and Laboratoire National de Sant{\'e} generally contributing to the Luxembourg Parkinson{\textquoteright}s Study as listed below: [list of authors]. Funding Information: Data used in the preparation of this manuscript were obtained from the National Centre of Excellence in Research on Parkinson{\textquoteright}s Disease (NCER-PD). The National Centre of Excellence in Research on Parkinson{\textquoteright}s Disease (NCER-PD) is funded by the Luxembourg National Research Fund (FNR/NCER13/BM/11264123). The work presented here was funded by the Luxembourg National Research (FNR/NCER13/BM/11264123), the PEARL program (FNR/P13/6682797 to RK), MotaSYN (12719684 to RK), MAMaSyn (INTER/LEIR/18/12719318 to RK), MiRisk-PD (C17/BM/11676395 to RK, PM), the FNR/DFG Core INTER (ProtectMove, FNR11250962 to PM), and the PARK-QC DTU (PRIDE17/12244779/PARK-QC to RK, SP). We would like to thank all participants of the Luxembourg Parkinson{\textquoteright}s Study for their important support of our research. Furthermore, we acknowledge the joint effort of the National Centre of Excellence in Research on Parkinson{\textquoteright}s Disease (NCER-PD) Consortium members from the partner institutions Luxembourg Centre for Systems Biomedicine, Luxembourg Institute of Health, Centre Hospitalier de Luxembourg, and Laboratoire National de Sant{\'e} generally contributing to the Luxembourg Parkinson{\textquoteright}s Study as listed below: [list of authors]. Publisher Copyright: {\textcopyright} 2023, The Author(s).",

year = "2023",

month = nov,

day = "23",

doi = "10.1038/s41531-023-00595-w",

language = "English",

volume = "9",

journal = "npj Parkinson's Disease",

issn = "2373-8057",

publisher = "Springer Nature",

number = "1",

}

Pachchek, S, Landoulsi, Z, Pavelka, L, Schulte, C, Buena-Atienza, E, Gross, C, Hauser, AK, Reddy Bobbili, D, Casadei, N, May, P, Krüger, R, Acharya, G, Aguayo, G, Alexandre, M, Ali, M, Ammerlann, W, Arena, G, Balling, R, Bassis, M, Batutu, R, Beaumont, K, Becker, R, Bellora, C, Berchem, G, Berg, D, Bisdorff, A, Boussaad, I, Bouvier, D, Brockmann, K, Calmes, J, Castillo, L, Contesotto, G, De Bremaeker, N, Diederich, N, Dondelinger, R, E. Ramia, N, Esteves, D, Fagherazzi, G, Ferrand, JY, Frauenknecht, K, Gantenbein, M, Gasser, T, Gawron, P, Ghosh, S, Giraitis, M, Glaab, E, Goergen, M, Gómez De Lope, E, Graas, J, Hanff, AM & NCER-PD Consortium 2023, 'Accurate long-read sequencing identified GBA1 as major risk factor in the Luxembourgish Parkinson’s study', npj Parkinson's Disease, vol. 9, no. 1, 156. https://doi.org/10.1038/s41531-023-00595-w

TY - JOUR

T1 - Accurate long-read sequencing identified GBA1 as major risk factor in the Luxembourgish Parkinson’s study

AU - Pachchek, Sinthuja

AU - Landoulsi, Zied

AU - Pavelka, Lukas

AU - Schulte, Claudia

AU - Buena-Atienza, Elena

AU - Gross, Caspar

AU - Hauser, Ann Kathrin

AU - Reddy Bobbili, Dheeraj

AU - Casadei, Nicolas

AU - May, Patrick

AU - Krüger, Rejko

AU - Acharya, Geeta

AU - Aguayo, Gloria

AU - Alexandre, Myriam

AU - Ali, Muhammad

AU - Ammerlann, Wim

AU - Arena, Giuseppe

AU - Balling, Rudi

AU - Bassis, Michele

AU - Batutu, Roxane

AU - Beaumont, Katy

AU - Becker, Regina

AU - Bellora, Camille

AU - Berchem, Guy

AU - Berg, Daniela

AU - Bisdorff, Alexandre

AU - Boussaad, Ibrahim

AU - Bouvier, David

AU - Brockmann, Kathrin

AU - Calmes, Jessica

AU - Castillo, Lorieza

AU - Contesotto, Gessica

AU - De Bremaeker, Nancy

AU - Diederich, Nico

AU - Dondelinger, Rene

AU - E. Ramia, Nancy

AU - Esteves, Daniela

AU - Fagherazzi, Guy

AU - Ferrand, Jean Yves

AU - Frauenknecht, Katrin

AU - Gantenbein, Manon

AU - Gasser, Thomas

AU - Gawron, Piotr

AU - Ghosh, Soumyabrata

AU - Giraitis, Marijus

AU - Glaab, Enrico

AU - Goergen, Martine

AU - Gómez De Lope, Elisa

AU - Graas, Jérôme

AU - Hanff, Anne Marie

AU - NCER-PD Consortium

N1 - Funding Information: Data used in the preparation of this manuscript were obtained from the National Centre of Excellence in Research on Parkinson’s Disease (NCER-PD). The National Centre of Excellence in Research on Parkinson’s Disease (NCER-PD) is funded by the Luxembourg National Research Fund (FNR/NCER13/BM/11264123). The work presented here was funded by the Luxembourg National Research (FNR/NCER13/BM/11264123), the PEARL program (FNR/P13/6682797 to RK), MotaSYN (12719684 to RK), MAMaSyn (INTER/LEIR/18/12719318 to RK), MiRisk-PD (C17/BM/11676395 to RK, PM), the FNR/DFG Core INTER (ProtectMove, FNR11250962 to PM), and the PARK-QC DTU (PRIDE17/12244779/PARK-QC to RK, SP). We would like to thank all participants of the Luxembourg Parkinson’s Study for their important support of our research. Furthermore, we acknowledge the joint effort of the National Centre of Excellence in Research on Parkinson’s Disease (NCER-PD) Consortium members from the partner institutions Luxembourg Centre for Systems Biomedicine, Luxembourg Institute of Health, Centre Hospitalier de Luxembourg, and Laboratoire National de Santé generally contributing to the Luxembourg Parkinson’s Study as listed below: [list of authors]. Funding Information: Data used in the preparation of this manuscript were obtained from the National Centre of Excellence in Research on Parkinson’s Disease (NCER-PD). The National Centre of Excellence in Research on Parkinson’s Disease (NCER-PD) is funded by the Luxembourg National Research Fund (FNR/NCER13/BM/11264123). The work presented here was funded by the Luxembourg National Research (FNR/NCER13/BM/11264123), the PEARL program (FNR/P13/6682797 to RK), MotaSYN (12719684 to RK), MAMaSyn (INTER/LEIR/18/12719318 to RK), MiRisk-PD (C17/BM/11676395 to RK, PM), the FNR/DFG Core INTER (ProtectMove, FNR11250962 to PM), and the PARK-QC DTU (PRIDE17/12244779/PARK-QC to RK, SP). We would like to thank all participants of the Luxembourg Parkinson’s Study for their important support of our research. Furthermore, we acknowledge the joint effort of the National Centre of Excellence in Research on Parkinson’s Disease (NCER-PD) Consortium members from the partner institutions Luxembourg Centre for Systems Biomedicine, Luxembourg Institute of Health, Centre Hospitalier de Luxembourg, and Laboratoire National de Santé generally contributing to the Luxembourg Parkinson’s Study as listed below: [list of authors]. Publisher Copyright: © 2023, The Author(s).

PY - 2023/11/23

Y1 - 2023/11/23

N2 - 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.

AB - 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.

U2 - 10.1038/s41531-023-00595-w

DO - 10.1038/s41531-023-00595-w

M3 - Article

SN - 2373-8057

VL - 9

JO - npj Parkinson's Disease

JF - npj Parkinson's Disease

IS - 1

M1 - 156

ER -

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

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

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