Genotype-phenotype association study conducted on LARGE-PD reveals novel loci associated with Parkinson’s Disease

  1. Thiago P Leal
  2. Emily Waldo
  3. Felipe Duarte-Zambrano
  4. Miguel Inca-Martinez
  5. Janvi Ramchandra
  6. Henry Mauricio Chaparro-Solano
  7. Anna E Anello
  8. Victor Borda
  9. Mateus Henrique Gouveia
  10. Daniel Teixeira-dos-Santos
  11. Paula Reyes-Pérez
  12. Emilia Mabel Gatto
  13. Bruno Lopes Santos-Lobato
  14. Gracivane Eufraseo
  15. Grace Helena Letro
  16. Gonzalo Arboleda
  17. Oscar Bernal-Pacheco
  18. Jorge L Orozco
  19. Beatriz Munoz
  20. Pedro Chana-Cuevas
  21. David Aguillon
  22. Sonia Moreno
  23. Gabriel Torrealba-Acosta
  24. Tanya Lobo-Prada
  25. Valentina Muller
  26. C Matias Lopez Razquin
  27. Pedro Braga-Neto
  28. Reyna M Durón
  29. Mayela Rodríguez-Violante
  30. Ana Jimena Hernández-Medrano
  31. Amin Cervantes-Arriaga
  32. Daniel Martinez-Ramirez
  33. Artur F S Schuh
  34. Carlos Roberto de Mello Rieder
  35. Mario Cornejo-Olivas
  36. Julia Rios-Pinto
  37. Angel C Medina
  38. Ivan Cornejo-Herrera
  39. Koni Mejia-Rojas
  40. Angel Vinuela
  41. Vitor Tumas
  42. Angela Vieira Pimentel
  43. Vanderci Borges
  44. Cesar L Avila
  45. Patricio Olguin
  46. Alicia Colombo
  47. Juan Cristobal Nuñez
  48. Alejandra Medina-Rivera
  49. Alejandra E. Ruiz-Contreras
  50. Sarael Alcauter
  51. Elena Dieguez
  52. Karen Nuytemans
  53. Global Parkinson’s Genetics Program
  54. Ignacio F Mata
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Abstract

Background

The Latin American Research Consortium on the Genetics of Parkinson’s Disease (LARGE-PD) is a multicenter collaboration aimed at understanding the genetic architecture of Parkinson’s disease (PD) in this underrepresented population using data from 15 countries across the Americas and the Caribbean. In this study, we conducted the largest genome-wide association studies (GWAS) for PD susceptibility in Latin Americans.

Methods

We analyzed genotype data from LARGE-PD Phase 1 (n = 1,498) and Phase 2 (n = 4,401) using multiple GWAS approaches: SAIGE, which incorporates a genetic relationship matrix in the model; ATT, which includes global ancestry on the model; TRACTOR, which splits allele dosages by ancestry to detect ancestry-specific risk loci; and admixture mapping. We also assessed linkage disequilibrium (LD) patterns and performed Meta-Regression of Multi-AncEstry Genetic Association (MR-MEGA), integrating data from both LARGE-PD phases and two South Asian GWAS.

Results

We identified PD-associated loci on chromosomes 1 and 4. Our results replicated previous findings, including the well-established SNCA variant rs356182-A (OR = 1.517, p = 1.62×10 −16 ). Notably, we identified a locus in ITPKB (rs117185933-A, OR = 1.75, p = 3.8×10 −12 ), which had the highest CADD Phred score (17.92, top ∼3% most deleterious) among all candidate variants, suggesting strong functional relevance. Functional annotation predicted that this variant may create a premature start codon in the 5′ UTR of ITPKB . Although rs117185933-A is in high LD (r 2 > 0.8) with a variant previously reported by Kishore et al., our LD analysis and MR-MEGA results indicate that this signal is correlated with ancestry heterogeneity and likely represents an independent PD risk locus and a novel putative causal variant. This variant is most frequent in Peruvians from the 1000 Genomes Project (MAF = 0.20) and more common in admixed American populations in gnomAD (MAF = 0.0835), but nearly absent in non-Finnish Europeans (MAF = 0.0002).

Conclusion

We identified PD-associated variants in SNCA and ITPKB, the latter not previously reported in European-ancestry studies. The ITPKB variant may lead to a start codon gain in a gene with known protective effects against α-synuclein aggregation in vivo and in vitro models. These findings underscore the critical importance of including underrepresented populations in genetic research to uncover ancestry-specific risk loci and advance precision medicine for Parkinson’s disease.

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  1. Version published to 10.1101/2025.07.18.25331793 on medRxiv