Genome-wide association meta-regression identifies stem cell lineage orchestration as a key driver of acne risk

  1. Jessye Maxwell
  2. Brittany L. Mitchell
  3. Xinyi DuHarpur
  4. Luba M. Pardo
  5. Willemijn C. A. M. Witkam
  6. Nick Dand
  7. Meike Bartels
  8. Michael J Betti
  9. Dorret I. Boomsma
  10. Xianjun Dong
  11. Zachary Gerring
  12. Sarah Finer
  13. Genes & Health Research Team
  14. Fiona A Hagenbeek
  15. Jouke Jan Hottenga
  16. George Hripcsak
  17. Laura Huilaja
  18. Kristian Hveem
  19. Benjamin M. Jacobs
  20. Mart Kals
  21. James Kaufman-Cook
  22. Johannes Kettunen
  23. Atlas Khan
  24. Külli Kingo
  25. Krzysztof Kiryluk
  26. Mari Løset
  27. Gerton Lunter
  28. Michelle K Lupton
  29. Josine L. Min
  30. Nicholas G Martin
  31. Sarah E Medland
  32. Dorien Neijzen
  33. Tamar E. C. Nijsten
  34. Tiit Nikopensius
  35. Catherine M Olsen
  36. Lynn Petukhova
  37. Anu Reigo
  38. Miguel E Rentería
  39. Rossella Rispoli
  40. Jake Saklatvala
  41. Eeva Sliz
  42. Kaisa Tasanen-Määttä
  43. Laurent Thomas
  44. Richard C Trembath
  45. Mariliis Vaht
  46. David A van Heel
  47. Chunhua Weng
  48. David C Whiteman
  49. Jonathan N. Barker
  50. Catherine Smith
  51. Michael A. Simpson
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Abstract

Over 85% of the population experience acne at some point in their lives, with its severity spanning a quantitative spectrum, from mild, transient outbreaks to more persistent, severe forms of the condition. Moderate to severe disease poses a substantial global burden arising from both the physical and psychological impacts of this highly visible condition.

The analytical approach taken in this study aimed to address the impact of variation in the dichotomisation of acne case control status, driven by ascertainment and study design, on effect size estimates across independent genetic association studies of acne. Through a fixed intercept meta-regression framework, we combined evidence genome-wide for association with acne across studies in which case-control status had been ascertained in different settings, allowing for different severity threshold definitions. Across a combined sample of 73,997 cases and 1,103,940 controls of European, South Asian and African American ancestry we identify genetic variation at 165 genomic loci that influence acne risk. There is evidence for both shared and ancestry specific components to the genetic susceptibility to acne and for sex differences in the magnitude of effect of risk alleles at three loci.

We observe that common genetic variation explains 13.4% of acne heritability on the liability scale. Consistent with the hypothesis that genetic risk primarily operates at the level of individual pilosebaceous units, a polygenic score derived from this case-control study of acne susceptibility is associated with both self-reported and clinically assessed acne severity in adolescence, further strengthening the link between genetic risk and disease severity.

Prioritisation of causal genes at the identified acne risk loci, provides genetic validation of the targets of established and emerging acne therapies, including retinoid treatments. The identified acne risk loci are enriched for genes encoding downstream effectors of RXRA signalling, including SOX9 and components of the WNT and p53 pathways. Illustrating that the control of stem cell lineage plasticity and cellular fate are important mechanisms through which genetic variation influences acne susceptibility within the pilosebaceous unit.

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  1. Version published to 10.1101/2025.06.27.25330406v1 on medRxiv