Rare variants in infection response protein pathways associated with sepsis in children

  1. Dylan Lawless
  2. Pauline Rogg
  3. Manon Bouzereau
  4. Robin Fallegger
  5. Zaira Seferbekova
  6. Valeriia Timonina
  7. Konstantin Popadin
  8. Ali Saadat
  9. Zhi Ming Xu
  10. Simon Boutry
  11. Christian W. Thorball
  12. Flavia Hodel
  13. Alessandro Borghesi
  14. Johannes Trück
  15. Martin Stocker
  16. Klara M Posfay-Barbe
  17. Ulrich Heininger
  18. Sara Bernhard-Stirnemann
  19. Anita Niederer-Loher
  20. Christian Kahlert
  21. Giancarlo Natalucci
  22. Christa Relly
  23. Thomas Riedel
  24. Christoph Aebi
  25. Christoph Berger
  26. Eric Giannoni
  27. Philipp Agyeman
  28. Jacques Fellay
  29. Luregn J Schlapbach
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Abstract

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Abstract

Sepsis is a major contributor to mortality in paediatric patients. We investigated the human genetic underpinnings of sepsis by analysing a large paediatric cohort with blood-culture confirmed sepsis through multi-tiered genomic assessments: single-case, single-variant, single-gene, and protein pathway analyses. We designed and applied novel analytical methods to automate for unbiased interpretation. We identified two pathways involved in susceptibility to sepsis, which contained 50 genes (42 and 8, respectively) includingKIR2DL4,KIR3DL3,KLRD1,LILRA1,SIGLEC1, andSIRPG. These pathways are central to immune cell regulation, antigen processing, cellular signalling, and prevention of excessive inflammatory responses. A third enriched pathway of 22 genes was related to regulation of transcription. We additionally found 66 variants for inborn errors of immunity. Our findings highlight the influence of deleterious genomic variants on a shared immunological phenotype resulting in sepsis vulnerability in children. These insights lay a foundation for more personalised approaches to sepsis in children.

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