Homozygosity for rare or common hypomorphic IL23R variants confers a predisposition to tuberculosis in humans

  1. Diana Olguín Calderón
  2. Laura E. Kilpatrick
  3. Clément Conil
  4. Quentin Philippot
  5. Masato Ogishi
  6. Joseph Vellutini
  7. Ji Eun Han
  8. Narelle Keating
  9. Hailun Li
  10. Geetha Rao
  11. Jonathan Bohlen
  12. Charles S. Lay
  13. Simon Platt
  14. Gaspard Kerner
  15. Elsa Feredj
  16. Jessica N. Peel
  17. Mana Momenilandi
  18. Yoann Seeleuthner
  19. Candice Lainé
  20. Camille Soudée
  21. Claire Leloup
  22. Cecile Debuisson
  23. Fanny Lanternier
  24. Samuel Bitoun
  25. Stephan Pavy
  26. Xavier Mariette
  27. Aniss Rafik
  28. Hanaa Skhoun
  29. Hanane El Ouazzani
  30. Ismail Abderahmani-Ghorfi
  31. Jamila El-Bagdadi
  32. Andrés Baena
  33. Manuela Tejada-Giraldo
  34. Luis Fernando Barrera
  35. Andrés Augusto Arias
  36. Giovanna Fabio
  37. Maria Carrabba
  38. Melike Emiroglu
  39. Liliana Bezrodnik
  40. Loubna El Zein
  41. Hassan Hammoud
  42. Peter K. Gregersen
  43. Benjamin Terrier
  44. Rafael Leon Lopez
  45. Marion Touzet
  46. Vincent Pestre
  47. Marlène Pasquet
  48. Lars Rogge
  49. Marlène Pasquet
  50. Michael Fayon
  51. François Galode
  52. Eric Jeziorski
  53. Daragh Duffy
  54. Lluis Quintana-Murci
  55. Etienne Patin
  56. Charlotte Cunningham-Rundles
  57. Isabelle Meyts
  58. Shen-Ying Zhang
  59. Qian Zhang
  60. Emmanuelle Jouanguy
  61. Bertrand Boisson
  62. Jérémie Rosain
  63. Vivien Béziat
  64. Mohammad Shahrooei
  65. Seyed Alireza Mahdaviani
  66. Nima Rezaei
  67. Nima Parvaneh
  68. Zahra Chavoshzadeh
  69. Niloufar Yazdanpanah
  70. Nathalie Aladjidi
  71. Antoni Noguera-Julian
  72. Ana Esteve-Solé
  73. Laia Alsina Manrique
  74. Davood Mansouri
  75. Sevgi Keles
  76. Mediha Gonenc Ortakoylu
  77. Deniz Aygun
  78. Esra Yucel
  79. Ayca Kiykim
  80. Yildiz Camcioglu
  81. Cindy S. Ma
  82. Stuart G. Tangye
  83. Peng Zhang
  84. Laurent Abel
  85. Peter D. Craggs
  86. Jean-Laurent Casanova
  87. Aurélie Cobat
  88. Anne Puel
  89. Jacinta Bustamante
  90. Stephen J. Hill
  91. Stéphanie Boisson-Dupuis
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Abstract

Homozygosity for rare loss-of-function IL23R variants abolishes IL-23-dependent IFN-γ production by lymphocytes, including NK and innate-like T cells, thereby underlying clinical disease due to weakly virulent mycobacterial species. We report selective enrichment in homozygosity for four hypomorphic IL23R variants in our cohort of patients with tuberculosis. Three of these IL23R alleles are rare (G300V, G149R and L372F), with a minor allele frequency (MAF) under 1%, but the fourth (R381Q) is surprisingly common, with a MAF as high as 10.2% in certain populations. The other 15 missense alleles found in the homozygous state in public databases are isomorphic. The four hypomorphic IL-23R variants identified dimerize with IL-12Rβ1 and bind IL-23. However, their function is impaired by low levels of cell-surface expression (R381Q, G300V) and/or as a consequence of conformational changes altering agonist efficacy. IFN-γ production in response to IL-23 is impaired in innate-like T cells and NK cells. These data suggest that recessive partial IL-23R deficiency, whether due to rare or common variants, confers a predisposition to tuberculosis while preserving immunity to less virulent mycobacteria.

One sentence summary

Homozygous hypomorphic IL23R variants impair IL-23-dependent IFN-γ production and underlie tuberculosis.

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  1. Version published to 10.64898/2026.03.23.713554 on bioRxiv