Genomic and proteomic evidence for hormonal and metabolic foundations of polycystic ovary syndrome

  1. Loes M.E. Moolhuijsen
  2. Jia Zhu
  3. Benjamin H. Mullin
  4. Natalia Pujol-Gualdo
  5. KyEra V. Actkins
  6. Jasmine A. Mack
  7. Hridya Rao
  8. Bhavi Trivedi
  9. Katherine A. Kentistou
  10. Yajie Zhao
  11. David Westergard
  12. Jaakko S. Tyrmi
  13. Gudmar Thorleifsson
  14. Yanfei Zhang
  15. Laura Wittemans
  16. Amber DeVries
  17. Kelly Brewer
  18. Ryan Sisk
  19. Rebecca Danning
  20. Michael H. Preuss
  21. Michelle R. Jones
  22. Katherine S. Ruth
  23. Marianne Andersen
  24. Ricardo Azziz
  25. Karina Banasik
  26. Michael Boehnke
  27. Linda Broer
  28. Soren Brunak
  29. Yee-Ming Chan
  30. Daniel I. Chasman
  31. Mark Daly
  32. David A. Ehrmann
  33. Bart C. Fauser
  34. Lars G. Fritsche
  35. M. Geoffrey Hayes
  36. Chunyan He
  37. Hongyan Huang
  38. Irina Kowalska
  39. Peter Kraft
  40. Richard S. Legro
  41. Nan Lin
  42. Ruth J. Loos
  43. Yvonne V. Louwers
  44. Reedik Magi
  45. Mark I. McCarthy
  46. Laure Morin-Papunen
  47. Jean V. Morrison
  48. Cynthia Morton
  49. Girish N. Nadkarni
  50. Benjamin M. Neale
  51. Henriette Svarre Nielsen
  52. Mette Nyegaard
  53. Sisse R. Ostrowski
  54. Ole B.V. Pedersen
  55. Erik Sorensen
  56. Christina Mikkelsen
  57. Christian Erikstrup
  58. Kathrine A. Kaspersen
  59. Mie T. Bruun
  60. Bitten Aagaard
  61. Henrik Ullum
  62. Barbara Obermayer-Pietsch
  63. Ken K. Ong
  64. Aarno Palotie
  65. Mary P. Reeve
  66. Andres Salumets
  67. Richa Saxena
  68. Timothy D. Spector
  69. Bronwyn G. A. Stuckey
  70. Unnur Thorsteinsdottir
  71. Andre G. Uitterlinden
  72. Margrit Urbanek
  73. Sebastian Zollner
  74. David A. Van Heel
  75. Genes and Health Research Team
  76. DBDS Genomic Consortium
  77. 23ndMe Research Team
  78. Joel N. Hirschhorn
  79. Kari Stefansson
  80. John R.B. Perry
  81. Unnur Styrkarsdottir
  82. Scott G. Wilson
  83. Terhi Piltonen
  84. Triin Laisk
  85. Marjo-Riitta Jarvelin
  86. Kharis Burns
  87. Anne E. Justice
  88. Hannele Laivuori
  89. Mark O. Goodarzi
  90. Lea K. Davis
  91. Andrea Dunaif
  92. Cecilia M. Lindgren
  93. Joop S.E. Laven
  94. Stephen Franks
  95. Jenny A. Visser
  96. Corrine K. Welt
  97. Tugce Karaderi
  98. Felix R. Day
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Abstract

Polycystic ovary syndrome (PCOS) and its underlying features remain poorly understood. In this genetic and proteomic study, we expand the number of genetic loci from 19 to 29, and identify 31 associated plasma proteins. Many risk-increasing loci were associated with later age at menopause, underscoring the reproductive longevity related to a larger functional ovarian reserve. Hormonal regulation in the aetiology of this condition, through metabolic and reproductive features, was emphasised. The proteomic analysis highlighted perturbations of metabolically-related biology that are typical in women with PCOS. A PCOS polygenic risk score was associated with adverse cardio-metabolic outcomes, with differing contributions of testosterone and BMI in women and men. Finally, while oligo- and anovulatory infertility are characteristic features of PCOS, we observed no impact of PCOS susceptibility on childlessness. We suggest that PCOS susceptibility confers balanced pleiotropic influences on fertility in women, and life-long adverse metabolic consequences in both sexes.

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  1. Version published to 10.1101/2024.04.18.24306020v1 on medRxiv