Genome-wide association study of Idiopathic Pulmonary Fibrosis susceptibility using clinically-curated European-ancestry datasets

  1. Daniel Chin
  2. Tamara Hernandez-Beeftink
  3. Lauren Donoghue
  4. Beatriz Guillen-Guio
  5. Olivia C Leavy
  6. Ayodeji Adegunsoye
  7. Helen L Booth
  8. CleanUP-IPF Investigators of the Pulmonary Trials Cooperative
  9. William A Fahy
  10. Tasha E Fingerlin
  11. Bibek Gooptu
  12. Ian P Hall
  13. Simon P Hart
  14. Mike R Hill
  15. Nik Hirani
  16. Richard B Hubbard
  17. Simon Johnson
  18. Naftali Kaminski
  19. Jose Miguel Lorenzo-Salazar
  20. Shwu-Fan Ma
  21. Robin J McAnulty
  22. Mark McCarthy
  23. Amy D Stockwell
  24. Toby M Maher
  25. Ann B Millar
  26. Philip L Molyneaux
  27. Maria Molina-Molina
  28. Vidya Navaratnam
  29. Margaret Neighbors
  30. Justin M Oldham
  31. Helen Parfrey
  32. Gauri Saini
  33. Ian Sayers
  34. X Rebecca Sheng
  35. Iain D Stewart
  36. Mary E Strek
  37. Martin D Tobin
  38. Moira KB Whyte
  39. Maria C Zarcone
  40. Yingze Zhang
  41. Fernando Martinez
  42. Brian L Yaspan
  43. Carl J Reynolds
  44. David A Schwartz
  45. Carlos Flores
  46. Imre Noth
  47. R Gisli Jenkins
  48. Richard J Allen
  49. Louise V Wain
Read the full article See related articles

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

Background

Idiopathic pulmonary fibrosis (IPF) is a rare, incurable lung disease with a median survival of 3-5 years after diagnosis. Treatment options are limited. Genetic association studies can identify new genes involved in disease that might represent potential new drug targets, and it has been shown that drug targets with support from genetic studies are more likely to be successful in clinical development. Previous genome-wide association studies (GWAS) of IPF susceptibility have identified more than 20 signals implicating genes involved in multiple mechanisms, including telomere dysfunction, cell-cell adhesion, host defence immunity, various signalling pathways and, more recently, mitotic spindle assembly complex.

Aim

To leverage new datasets and genotype imputation to discover further genes involved in development of IPF that could yield new pathobiological avenues for exploration and to guide future drug target discovery.

Methods

We conducted a GWAS of IPF susceptibility including seven IPF case-control studies comprising 5,159 IPF cases and 27,459 controls of European ancestry, where IPF diagnosis was made by a respiratory clinician according to international guidelines. Genotypes were obtained from Whole Genome Sequencing (WGS) or from array-based imputation to the TOPMed WGS reference panel. New signals were replicated in independent biobanks with IPF defined using Electronic Healthcare Records. Bayesian fine-mapping was performed to identify the most likely causal variant(s) and bioinformatic investigation undertaken to map associated variants to putative causal genes.

Results

We identified three novel genetic signals of association with IPF susceptibility. Genes prioritised by functional evidence at these signals included MUC1 , which encodes a large transmembrane glycoprotein and known biomarker of lung fibrosis, and NTN4 encoding Netrin-4 whose known roles include angiogenesis. The third signal may map to SLC6A6, a taurine and beta-alanine transporter gene, previously implicated in retinal, cardiac and kidney dysfunction.

Conclusion

Our study has identified new associations not previously identified by previous large biobank-based studies thereby highlighting the value of utilising clinically-curated IPF case-control studies, and new genotype imputation. We present new evidence for disease-driving roles of MUC1 and of endothelial cell and vascular changes in IPF.

Article activity feed

  1. Version published to 10.1101/2025.01.30.25321017v1 on medRxiv