Genetic determinants of Multiple Sclerosis susceptibility in diverse ancestral backgrounds

  1. Benjamin M. Jacobs
  2. Luisa Schalk
  3. Emily Tregaskis-Daniels
  4. Antonio Scalfari
  5. Ashwini Nandoskar
  6. Angie Dunne
  7. Bruno Gran
  8. Charles A. Mein
  9. Charlotte Sellers
  10. Cord Spilker
  11. David Rog
  12. Elisa Visentin
  13. Elizabeth Lindsey Bezzina
  14. Emeka Uzochukwu
  15. Emma Tallantyre
  16. Eva Wozniak
  17. Eve Sacre
  18. Ghaniah Hassan-Smith
  19. Helen L. Ford
  20. Jade Harris
  21. Joan Bradley
  22. Joshua Breedon
  23. Judith Brooke
  24. Karim L. Kreft
  25. Katila George
  26. Maria Papachatzaki
  27. Martin O’Malley
  28. Michelle Peter
  29. Miriam Mattoscio
  30. Neisha Rhule
  31. Nikos Evangelou
  32. Nimisha Vinod
  33. Outi Quinn
  34. Ramya Shamji
  35. Rashmi Kaimal
  36. Rebecca Boulton
  37. Riffat Tanveer
  38. Rod Middleton
  39. Roxanne Murray
  40. Ruth Bellfield
  41. Sadid Hoque
  42. Shakeelah Patel
  43. Sonia Raj
  44. Stephanie Gumus
  45. Stephanie Mitchell
  46. Stephen Sawcer
  47. Tarunya Arun
  48. Tatiana Pogreban
  49. Terri-Louise Brown
  50. Thamanna Begum
  51. Veronica Antoine
  52. Waqar Rashid
  53. Grace Fawehinmi
  54. Claire Reidy
  55. Shanaz Begum
  56. Shannon Bernard Healey
  57. Harriet Cummins
  58. Kelly Westwood
  59. Deborah Spencer
  60. Shegufta Farooq
  61. Katharine Harding
  62. Sarah Williams
  63. Georgina Radford
  64. Selina White
  65. Nathan Alldred-Douglas
  66. Linford Fernandes
  67. Adil Harroud
  68. Jacob L. McCauley
  69. Ashley Beecham
  70. Nicolas Vince
  71. Nayane dos Santos Brito Silva
  72. Huw R Morris
  73. Eli Silber
  74. Gavin Giovannoni
  75. Alastair J. Noyce
  76. Ruth Dobson
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Abstract

The genetic architecture of Multiple Sclerosis (MS) susceptibility has been extensively assessed in populations of European ancestry. Greater ancestral diversity in genetic analyses of MS susceptibility is needed to improve the utility of Multiple Sclerosis genetic risk scores, fine map causal variants underlying established associations, and thereby enhance the identification of drug targets. Here we report findings from a genetic study of Multiple Sclerosis susceptibility in an ancestrally-diverse United Kingdom-based cohort.

Participants with Multiple Sclerosis were recruited via clinical sites, an online platform, and through the United Kingdom Multiple Sclerosis Register. Phenotype data were gathered using a standardised questionnaire. DNA was extracted from saliva samples obtained remotely or in person, and participants were genotyped using a commercial genotyping array. Following imputation, cases were combined with controls from the United Kingdom Biobank and subjected to stringent quality control and genetic ancestry inference. We defined two broad ancestral groups of South Asian and African ancestry. We performed within-ancestry case-control genome-wide association studies of Multiple Sclerosis susceptibility using logistic models accounting for population structure and sex. We examined both single nucleotide variants and imputed classical Human Leukocyte Antigen alleles.

We curated two ancestrally-matched case-control genetic datasets (South Asian ancestry: N Case =175, N Control =6744; African ancestry: N Case =113, N Control =5177). In both ancestries, we found genetic variants within the Major Histocompatibility Complex associated with Multiple Sclerosis susceptibility (South Asian ancestry: lead variant chr6:32600515:G:A on hg38 co-ordinates, Odds Ratio=1.84, nearest gene HLA-DRB1 , P= 4.6×10 −6 ; African ancestry: lead variant chr6:29919337:A:G, Odds Ratio=2.24, nearest gene HLA-A P= 4.3×10 −5 ). European-ancestry susceptibility alleles were over-represented in cases from both ancestries, with the degree of concordance stronger for the South Asian (ρ=0.31, P =8.1×10 −6 ) than African (ρ=0.1, P =0.3) ancestry cohort. European-derived genetic risk scores performed better than chance but less well than in European ancestry cohorts, explaining 1.6% (South Asian , P =1.0×10 −4 ) and 0.5% (African , P =0.08) of the liability to MS.

The genetic architecture of MS susceptibility shows strong concordance across ancestral groups suggesting shared disease mechanisms. Larger studies in diverse populations are likely to enhance our understanding of how genetic variation contributes to MS susceptibility in people of all ancestral backgrounds.

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  1. Version published to 10.1101/2025.01.16.25320672v1 on medRxiv