Omic Risk Scores are Associated with COPD-related Traits Across Three Cohorts

  1. Iain R. Konigsberg
  2. Luciana B. Vargas
  3. Katherine A. Pratte
  4. Daniel E. Guzman
  5. Tess D. Pottinger
  6. Kristina L. Buschur
  7. Thomas W. Blackwell
  8. Yongmei Liu
  9. Kent D. Taylor
  10. W. Craig Johnson
  11. Peter Durda
  12. Russell P. Tracy
  13. Ani Manichaikul
  14. Elizabeth C. Oelsner
  15. Stacey Gabriel
  16. Namrata Gupta
  17. Suna Onengut-Gumuscu
  18. Joshua D. Smith
  19. Francois Aguet
  20. Kristin G. Ardlie
  21. Usman A. Tahir
  22. Robert E. Gerszten
  23. Clary Clish
  24. Eugene R. Bleecker
  25. Deborah A. Meyers
  26. Victor E. Ortega
  27. Stephanie A. Christenson
  28. Dawn L. DeMeo
  29. Brian D. Hobbs
  30. Craig P. Hersh
  31. Peter J. Castaldi
  32. Jeffrey L. Curtis
  33. R. Graham Barr
  34. Jerome I. Rotter
  35. Stephen S. Rich
  36. Prescott G. Woodruff
  37. Edwin K. Silverman
  38. Michael H. Cho
  39. Katerina J. Kechris
  40. Russell P. Bowler
  41. Ethan M. Lange
  42. Leslie A. Lange
  43. Matthew R. Moll
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Abstract

Background

Chronic obstructive pulmonary disease (COPD) exhibits marked heterogeneity in lung function decline, mortality, exacerbations, and other disease-related outcomes. Omic risk scores (ORS) estimate the cumulative contribution of omics, such as the transcriptome, proteome, and metabolome, to a particular trait. This study evaluates the predictive value of ORS for COPD-related traits in both smoking-enriched and general population cohorts.

Methods

ORS were developed and tested in 3,339 participants of Genetic Epidemiology of COPD (COPDGene) with blood RNA-sequencing, proteomic, and metabolomic. Single- and multi-omic risk scores were trained 24 cross-sectional and five longitudinal traits using 80% of the data, focusing on disease severity, exacerbations, and traits from spirometry and computed tomography scans. Multivariable models were used to test ORS associations with outcomes in remaining COPDGene participants and externally validated in SubPopulations and InteRmediate Outcome Measures in COPD Study (SPIROMICS) (n = 2,177) and Multi-Ethnic Study of Atherosclerosis (MESA) (n = 1,000).

Results

In the COPDGene testing set, 69 of 72 single-omic ORS showed significant associations with 24 cross-sectional traits (adjusted p -value < 0·05). One of 15 longitudinal ORS was associated with changes in trait values between COPDGene visits. Significant associations were observed for all 38 cross-sectional ORS tested in SPIROMICS and for 16 of 24 in MESA. Proteomic and metabolomic risk scores generally displayed stronger associations than transcriptomic scores.

Discussion

Blood-based ORS can predict cross-sectional and future COPD-related traits in both smoking-enriched and general population cohorts.

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  1. Version published to 10.1101/2025.06.01.25328699v1 on medRxiv