👤 Alexandra Durr

Spinocerebellar Ataxia Type 3 (SCA3) is an autosomal dominant neurodegenerative Polyglutamine (polyQ) disease, caused by a cytosine-adenine-guanine (CAG) repeat expansion in the ATXN3 gene, resulting in an expanded polyQ tract in the Ataxin-3 protein. Although the principal genetic determinant of the age at onset (AAO) in polyQ diseases is the expanded CAG repeat length, variability in AAO has been explained only partly, suggesting the existence of additional genetic modifiers. Apolipoprotein E (APOE) haplotypes are associated with the risk of numerous, especially degenerative, diseases. Investigations of a potential role of APOE haplotypes in AAO variability of SCA3 have resulted in partly conflicting outcomes, with current evidence lacking power and patient diversity. To further clarify a potential modifying effect of APOE haplotypes on the AAO in SCA3, over 800 SCA3 patients from different origins were enrolled in the present study. While we did not find an association of common APOE haplotypes or singular APOE alleles with AAO in SCA3, rare ε4 homozygosity was linked to an earlier AAO in individuals from Brazil, with a mean disease onset six years earlier than carriers of other APOE haplotypes. Our study thus provides initial evidence for a relevant impact of ε4 homozygosity on disease onset in SCA3 and provides evidence supporting an allele-dosage effect of APOE ε4 in polyQ diseases. Show less

The 17q21.31 region with various structural forms characterized by the H1/H2 haplotypes and three large copy number variations (CNVs) represents the strongest risk locus in progressive supranuclear palsy (PSP). To investigate the association between CNVs and structural forms on 17q.21.31 with the risk of PSP. Utilizing whole genome sequencing data from 1684 PSP cases and 2392 controls, the three large CNVs (α, β, and γ) and structural forms within 17q21.31 were identified and analyzed for their association with PSP. We found that the copy number of γ was associated with increased PSP risk (odds ratio [OR] = 1.10, P = 0.0018). From H1β1γ1 (OR = 1.21) and H1β2γ1 (OR = 1.24) to H1β1γ4 (OR = 1.57), structural forms of H1 with additional copies of γ displayed a higher risk for PSP. The frequency of the risk sub-haplotype H1c rises from 1% in individuals with two γ copies to 88% in those with eight copies. Additionally, γ duplication up-regulates expression of ARL17B, LRRC37A/LRRC37A2, and NSFP1, while down-regulating KANSL1. Single-nucleus RNA-seq of the dorsolateral prefrontal cortex analysis reveals γ duplication primarily up-regulates LRRC37A/LRRC37A2 in neuronal cells. The copy number of γ is associated with the risk of PSP after adjusting for H1/H2, indicating that the complex structure at 17q21.31 is an important consideration when evaluating the genetic risk of PSP. © 2025 The Author(s). Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society. Show less

Autosomal-recessive early-onset parkinsonism is clinically and genetically heterogeneous. The genetic causes of approximately 50% of autosomal-recessive early-onset forms of Parkinson disease (PD) remain to be elucidated. Homozygozity mapping and exome sequencing in 62 isolated individuals with early-onset parkinsonism and confirmed consanguinity followed by data mining in the exomes of 1,348 PD-affected individuals identified, in three isolated subjects, homozygous or compound heterozygous truncating mutations in vacuolar protein sorting 13C (VPS13C). VPS13C mutations are associated with a distinct form of early-onset parkinsonism characterized by rapid and severe disease progression and early cognitive decline; the pathological features were striking and reminiscent of diffuse Lewy body disease. In cell models, VPS13C partly localized to the outer membrane of mitochondria. Silencing of VPS13C was associated with lower mitochondrial membrane potential, mitochondrial fragmentation, increased respiration rates, exacerbated PINK1/Parkin-dependent mitophagy, and transcriptional upregulation of PARK2 in response to mitochondrial damage. This work suggests that loss of function of VPS13C is a cause of autosomal-recessive early-onset parkinsonism with a distinctive phenotype of rapid and severe progression. Show less