Rare coding variant architecture and gene discovery from 130,000 sequenced cases of atrial fibrillation

  1. Sean Jurgens
  2. Nobuyuki Enzan
  3. Ian Dinsmore
  4. Seung Hoan Choi
  5. Jonathan Luo
  6. Alex Lipov
  7. Cassandra Hartle
  8. Xin Wang
  9. Nicholas Marston
  10. Lu-Chen Weng
  11. Giorgio Melloni
  12. Brandon Chalazan
  13. Michael Gray
  14. James Pirruccello
  15. Annette Diaz
  16. Mark Chaffin
  17. Aylin Ornelas-Loredo
  18. Owen Tang
  19. Faisal Darbar
  20. Shinwan Kany
  21. Yining Chen
  22. Aenne von Falkenhausen
  23. Alanna Morrison
  24. Andrea Natale
  25. Arnljot Tveit
  26. Bastiaan Geelhoed
  27. Brian Cade
  28. David Van Wagoner
  29. Doreen Haase
  30. Elsayed Z Soliman
  31. Giovanni Davogustto
  32. Hugh Calkins
  33. Jeffery Anderson
  34. Jennifer Brody
  35. John Barnard
  36. John Hokanson
  37. Jonathan Smith
  38. Joshua Bis
  39. Kendra Young
  40. Linda Johnson
  41. Leann Long
  42. Lorenz Risch
  43. Lorne Gula
  44. Lydia Kwee
  45. Michael Kühne
  46. Michael Preuss
  47. Namrata Gupta
  48. Navid Nafissi
  49. Nicholas Smith
  50. Peter Nilsson
  51. Pim van der Harst
  52. Quinn Wells
  53. Renae Judy
  54. Renate Schnabel
  55. Renee Johnson
  56. Roelof A. J. Smit
  57. Stacey Gabriel
  58. Stacey Knight
  59. Tetsushi Furukawa
  60. Yuan-I Min
  61. Zachary Yoneda
  62. Zachary Laksman
  63. Alvaro Alonso
  64. Bruce Psaty
  65. Christine Albert
  66. Dan Arking
  67. Dan Roden
  68. Daniel Chasman
  69. Daniel Rader
  70. David Conen
  71. David McManus
  72. Diane Fatkin
  73. Eric Boerwinkle
  74. Gregory Marcus
  75. Ingrid Christophersen
  76. J. Gustav Smith
  77. Jason Roberts
  78. Laura Raffield
  79. M. Benjamin Shoemaker
  80. Michael Cho
  81. Michael Cutler
  82. Mina Chung
  83. Morten Olesen
  84. Moritz Sinner
  85. Nona Sotoodehnia
  86. Paulus Kirchhof
  87. Ruth J.F. Loos
  88. Saman Nazarian
  89. Sanghamitra Mohanty
  90. Scott Damrauer
  91. Stefan Kaab
  92. Susan Heckbert
  93. Susan Redline
  94. Svati Shah
  95. Toshihiro Tanaka
  96. Yusuke Ebana
  97. Steven Lubitz
  98. Kathryn Lunetta
  99. Emelia Benjamin
  100. Michiel Rienstra
  101. Gemma Figtree
  102. Dawood Darbar
  103. Connie Bezzina
  104. Christian Ruff
  105. Marc Sabatine
  106. Tooraj Mirshahi
  107. Patrick Ellinor
Read the full article See related articles

Discuss this preprint

Start a discussion What are Sciety discussions?

Listed in

This article is not in any list yet, why not save it to one of your lists.
Log in to save this article

Abstract

Rare coding genetic variants may exert large effects on risk of common disease, yet their contribution to disease architecture and their utility in gene prioritization remain limited by inadequate sample sizes. Here, we performed a massive-scale rare variant association study (RVAS), analyzing over 1.1 million sequenced participants among which 130,000 had atrial fibrillation (AF). Through a multi-mask burden testing approach, we identified 15 genes significantly associated with AF through rare large-effect variation. Integrative analyses revealed strong convergence between genes implicated by rare and common variation, and highlighted instances where RVAS data may aid in GWAS prioritization. Nevertheless, several RVAS genes were not among GWAS loci ( FAM189A2 , ACTC1 , FNIP1 , FBN1 ), or were not nominated through contemporary GWAS prioritization ( KDM5B , ZFP36L2 ). Finally, we observed that ultra-rare protein-disrupting variants - concentrated in a small number of large-effect size genes - explained at least 2% of AF susceptibility across European and African ancestry groups. These findings refine the genetic architecture of AF, while highlighting the value and cost of RVAS for genomic discovery in common disease.

Article activity feed

  1. Version published to 10.21203/rs.3.rs-9191644/v1 on Research Square