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. 2024 Jul;96(1):133-149.
doi: 10.1002/ana.26949. Epub 2024 May 20.

Polygenic Risk Scores Validated in Patient-Derived Cells Stratify for Mitochondrial Subtypes of Parkinson's Disease

Giuseppe Arena  1 Zied Landoulsi  1 Dajana Grossmann  1   2 Thomas Payne  3 Armelle Vitali  1 Sylvie Delcambre  1 Alexandre Baron  1 Paul Antony  1 Ibrahim Boussaad  1 Dheeraj Reddy Bobbili  1 Ashwin Ashok Kumar Sreelatha  4 Lukas Pavelka  1   5   6 Nico J Diederich  7 Christine Klein  8 Philip Seibler  8 Enrico Glaab  1 Thomas Foltynie  9 Oliver Bandmann  3 Manu Sharma  4 Rejko Krüger  1   5   6 Patrick May  1 Anne Grünewald  1   8 NCER‐PD and COURAGE‐PD Consortia
Affiliations

Polygenic Risk Scores Validated in Patient-Derived Cells Stratify for Mitochondrial Subtypes of Parkinson's Disease

Giuseppe Arena et al. Ann Neurol. 2024 Jul.

Abstract

Objective: The aim of our study is to better understand the genetic architecture and pathological mechanisms underlying neurodegeneration in idiopathic Parkinson's disease (iPD). We hypothesized that a fraction of iPD patients may harbor a combination of common variants in nuclear-encoded mitochondrial genes ultimately resulting in neurodegeneration.

Methods: We used mitochondria-specific polygenic risk scores (mitoPRSs) and created pathway-specific mitoPRSs using genotype data from different iPD case-control datasets worldwide, including the Luxembourg Parkinson's Study (412 iPD patients and 576 healthy controls) and COURAGE-PD cohorts (7,270 iPD cases and 6,819 healthy controls). Cellular models from individuals stratified according to the most significant mitoPRS were subsequently used to characterize different aspects of mitochondrial function.

Results: Common variants in genes regulating Oxidative Phosphorylation (OXPHOS-PRS) were significantly associated with a higher PD risk in independent cohorts (Luxembourg Parkinson's Study odds ratio, OR = 1.31[1.14-1.50], p-value = 5.4e-04; COURAGE-PD OR = 1.23[1.18-1.27], p-value = 1.5e-29). Functional analyses in fibroblasts and induced pluripotent stem cells-derived neuronal progenitors revealed significant differences in mitochondrial respiration between iPD patients with high or low OXPHOS-PRS (p-values < 0.05). Clinically, iPD patients with high OXPHOS-PRS have a significantly earlier age at disease onset compared to low-risk patients (false discovery rate [FDR]-adj p-value = 0.015), similar to prototypic monogenic forms of PD. Finally, iPD patients with high OXPHOS-PRS responded more effectively to treatment with mitochondrially active ursodeoxycholic acid.

Interpretation: OXPHOS-PRS may provide a precision medicine tool to stratify iPD patients into a pathogenic subgroup genetically defined by specific mitochondrial impairment, making these individuals eligible for future intelligent clinical trial designs. ANN NEUROL 2024;96:133-149.

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