Prioritizing Parkinson’s disease risk genes in genome-wide association loci

Lara M. Lange; Catalina Cerquera-Cleves; Marijn Schipper; Georgia Panagiotaropoulou; Alice Braun; Julia Kraft; Swapnil Awasthi; Nathaniel Bell; Danielle Posthuma; Stephan Ripke; Cornelis Blauwendraat; Karl Heilbron

doi:10.1038/s41531-025-00933-0

Prioritizing Parkinson’s disease risk genes in genome-wide association loci

Lara M. Lange, Catalina Cerquera-Cleves, Marijn Schipper, Georgia Panagiotaropoulou, Alice Braun, Julia Kraft, Swapnil Awasthi, Nathaniel Bell, Danielle Posthuma, Stephan Ripke, Cornelis Blauwendraat, Karl Heilbron

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Resumen

Many drug targets in ongoing Parkinson’s disease (PD) clinical trials have strong genetic links. While genome-wide association studies (GWAS) nominate regions associated with disease, pinpointing causal genes is challenging. Our aim was to prioritize additional druggable genes underlying PD GWAS signals. The polygenic priority score (PoPS) integrates genome-wide information from MAGMA gene-level associations and over 57,000 gene-level features. We applied PoPS to East Asian and European PD GWAS data and prioritized genes based on PoPS, distance to the GWAS signal, and non-synonymous credible set variants. We prioritized 46 genes, including well-established PD genes (SNCA, LRRK2, GBA1, TMEM175, VPS13C), genes with strong literature evidence supporting a mechanistic link to PD (RIT2, BAG3, SCARB2, FYN, DYRK1A, NOD2, CTSB, SV2C, ITPKB), and genes relatively unexplored in PD. Many hold potential for drug repurposing or development. We prioritized high-confidence genes with strong links to PD pathogenesis that may represent our next-best candidates for developing disease-modifying therapeutics.

Idioma original	Inglés
Número de artículo	77
Número de páginas	9
Publicación	npj Parkinson's Disease
Volumen	11
N.º	1
DOI	https://doi.org/10.1038/s41531-025-00933-0
Estado	Publicada - dic. 2025
Publicado de forma externa	Sí

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abstract = "Many drug targets in ongoing Parkinson{\textquoteright}s disease (PD) clinical trials have strong genetic links. While genome-wide association studies (GWAS) nominate regions associated with disease, pinpointing causal genes is challenging. Our aim was to prioritize additional druggable genes underlying PD GWAS signals. The polygenic priority score (PoPS) integrates genome-wide information from MAGMA gene-level associations and over 57,000 gene-level features. We applied PoPS to East Asian and European PD GWAS data and prioritized genes based on PoPS, distance to the GWAS signal, and non-synonymous credible set variants. We prioritized 46 genes, including well-established PD genes (SNCA, LRRK2, GBA1, TMEM175, VPS13C), genes with strong literature evidence supporting a mechanistic link to PD (RIT2, BAG3, SCARB2, FYN, DYRK1A, NOD2, CTSB, SV2C, ITPKB), and genes relatively unexplored in PD. Many hold potential for drug repurposing or development. We prioritized high-confidence genes with strong links to PD pathogenesis that may represent our next-best candidates for developing disease-modifying therapeutics.",

keywords = "alpha synuclein, autophagy (cellular), disease assessment, dopaminergic nerve cell, enzyme activity, gain of function mutation, gene, gene frequency, gene locus, gene mutation, genetic association, genetic risk, genetic variability, genetic variation, genome-wide association study, genotype, human, nerve degeneration, Parkinson disease, pathogenesis, polygenic priority score, quality control, single nucleotide polymorphism",

author = "Lange, \{Lara M.\} and Catalina Cerquera-Cleves and Marijn Schipper and Georgia Panagiotaropoulou and Alice Braun and Julia Kraft and Swapnil Awasthi and Nathaniel Bell and Danielle Posthuma and Stephan Ripke and Cornelis Blauwendraat and Karl Heilbron",

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doi = "10.1038/s41531-025-00933-0",

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AU - Lange, Lara M.

AU - Cerquera-Cleves, Catalina

AU - Schipper, Marijn

AU - Panagiotaropoulou, Georgia

AU - Braun, Alice

AU - Kraft, Julia

AU - Awasthi, Swapnil

AU - Bell, Nathaniel

AU - Posthuma, Danielle

AU - Ripke, Stephan

AU - Blauwendraat, Cornelis

AU - Heilbron, Karl

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PY - 2025/12

Y1 - 2025/12

N2 - Many drug targets in ongoing Parkinson’s disease (PD) clinical trials have strong genetic links. While genome-wide association studies (GWAS) nominate regions associated with disease, pinpointing causal genes is challenging. Our aim was to prioritize additional druggable genes underlying PD GWAS signals. The polygenic priority score (PoPS) integrates genome-wide information from MAGMA gene-level associations and over 57,000 gene-level features. We applied PoPS to East Asian and European PD GWAS data and prioritized genes based on PoPS, distance to the GWAS signal, and non-synonymous credible set variants. We prioritized 46 genes, including well-established PD genes (SNCA, LRRK2, GBA1, TMEM175, VPS13C), genes with strong literature evidence supporting a mechanistic link to PD (RIT2, BAG3, SCARB2, FYN, DYRK1A, NOD2, CTSB, SV2C, ITPKB), and genes relatively unexplored in PD. Many hold potential for drug repurposing or development. We prioritized high-confidence genes with strong links to PD pathogenesis that may represent our next-best candidates for developing disease-modifying therapeutics.

AB - Many drug targets in ongoing Parkinson’s disease (PD) clinical trials have strong genetic links. While genome-wide association studies (GWAS) nominate regions associated with disease, pinpointing causal genes is challenging. Our aim was to prioritize additional druggable genes underlying PD GWAS signals. The polygenic priority score (PoPS) integrates genome-wide information from MAGMA gene-level associations and over 57,000 gene-level features. We applied PoPS to East Asian and European PD GWAS data and prioritized genes based on PoPS, distance to the GWAS signal, and non-synonymous credible set variants. We prioritized 46 genes, including well-established PD genes (SNCA, LRRK2, GBA1, TMEM175, VPS13C), genes with strong literature evidence supporting a mechanistic link to PD (RIT2, BAG3, SCARB2, FYN, DYRK1A, NOD2, CTSB, SV2C, ITPKB), and genes relatively unexplored in PD. Many hold potential for drug repurposing or development. We prioritized high-confidence genes with strong links to PD pathogenesis that may represent our next-best candidates for developing disease-modifying therapeutics.

KW - alpha synuclein

KW - autophagy (cellular)

KW - disease assessment

KW - dopaminergic nerve cell

KW - enzyme activity

KW - gain of function mutation

KW - gene

KW - gene frequency

KW - gene locus

KW - gene mutation

KW - genetic association

KW - genetic risk

KW - genetic variability

KW - genetic variation

KW - genome-wide association study

KW - genotype

KW - human

KW - nerve degeneration

KW - Parkinson disease

KW - pathogenesis

KW - polygenic priority score

KW - quality control

KW - single nucleotide polymorphism

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DO - 10.1038/s41531-025-00933-0

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JO - npj Parkinson's Disease

JF - npj Parkinson's Disease

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M1 - 77

ER -

Prioritizing Parkinson’s disease risk genes in genome-wide association loci

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