Dysanapsis Genetic Risk Predicts Lung Function Across the Lifespan

Catherine L Debban¹, Amirthagowri Ambalavanan², Auyon Ghosh³, Zhonglin Li⁴, Kristina L Buschur^{5

6}, Yanlin Ma¹, Elizabeth George², Carrie Pistenmaa⁷, Alain G Bertoni⁸, Elizabeth C Oelsner⁶, Erin D Michos⁹, Theo J Moraes^{10

11}, David R Jacobs Jr¹², Stephanie Christenson¹³, Surya P Bhatt¹⁴, Robert J Kaner^{15

16}, Elinor Simons¹⁷, Stuart E Turvey¹⁸, Motahareh Vameghestahbanati¹⁹, James C Engert¹⁹, Miranda Kirby²⁰, Jean Bourbeau¹⁹, Wan C Tan²¹, Stacey B Gabriel²², Namrata Gupta²², Prescott G Woodruff¹³, Padmaja Subbarao^{23

24

25}, Victor E Ortega²⁶, Eugene R Bleecker²⁶, Deborah A Meyers²⁶, Stephen S Rich¹, Eric A Hoffman^{27

28

29}, R Graham Barr^{6

30}, Michael H Cho³¹, Yohan Bossé⁴, Qingling Duan², Ani Manichaikul¹, Benjamin M Smith^{6

19}

Affiliations

¹ Center for Public Health Genomics, University of Virginia, Charlottesville, Virginia.
² Department of Biomedical and Molecular Sciences, School of Computing, Queen's University, Kingston, Ontario, Canada.
³ Division of Pulmonary, Critical Care, and Sleep Medicine, SUNY Upstate Medical University, Syracuse, New York.
⁴ Institut Universitaire de Cardiologie et de Pneumologie de Québec, Université Laval, Québec City, Québec, Canada.
⁵ New York Genome Center, New York, New York.
⁶ Division of General Medicine and.
⁷ Division of Pulmonary and Critical Care Medicine and.
⁸ Department of Epidemiology and Prevention, Wake Forest University School of Medicine, Winston-Salem, North Carolina.
⁹ Division of Cardiology, Department of Medicine, Johns Hopkins University School of Medicine, Baltimore, Maryland.
¹⁰ Program in Translational Medicine and.
¹¹ Department of Pediatrics and.
¹² Division of Epidemiology and Community Health, School of Public Health, University of Minnesota, Minneapolis, Minnesota.
¹³ Division of Pulmonary, Critical Care, Allergy, and Sleep Medicine, University of California, San Francisco, San Francisco, California.
¹⁴ Division of Pulmonary, Allergy, and Critical Care Medicine, University of Alabama at Birmingham, Birmingham, Alabama.
¹⁵ Division of Pulmonary and Critical Care Medicine, Department of Medicine, and.
¹⁶ Department of Genetic Medicine, Weill Cornell Medicine, New York, New York.
¹⁷ Department of Pediatrics and Child Health, University of Manitoba, Winnipeg, Manitoba, Canada.
¹⁸ Department of Pediatrics, British Columbia Children's Hospital, and.
¹⁹ Department of Medicine, McGill University and McGill University Health Centre Research Institute, Montreal, Quebec, Canada.
²⁰ Department of Physics, Toronto Metropolitan University, Ottawa, Ontario, Canada.
²¹ Center for Heart Lung Innovation, The University of British Columbia, Vancouver, British Columbia, Canada.
²² Broad Institute of Massachusetts Institute of Technology and Harvard, Cambridge, Massachusetts.
²³ Department of Pediatrics, The Hospital for Sick Children, Toronto, Ontario, Canada.
²⁴ Department of Physiology, University of Toronto, Toronto, Ontario, Canada.
²⁵ Faculty of Medicine, McMaster University, Hamilton, Ontario, Canada.
²⁶ Division of Respiratory Medicine, Department of Medicine, Mayo Clinic, Scottsdale, Arizona; and.
²⁷ Department of Radiology.
²⁸ Department of Internal Medicine, and.
²⁹ Department of Biomedical Engineering, University of Iowa, Iowa City, Iowa.
³⁰ Department of Epidemiology, Columbia University Irving Medical Center, New York, New York.
³¹ Channing Division of Network Medicine, Department of Medicine, Brigham and Women's Hospital, Harvard Medical School, Boston, Massachusetts.

PMID: 38935874
PMCID: PMC11716030 (available on 2025-12-15)
DOI: 10.1164/rccm.202401-0011OC

Dysanapsis Genetic Risk Predicts Lung Function Across the Lifespan

Catherine L Debban et al. Am J Respir Crit Care Med. 2024.

. 2024 Dec 15;210(12):1421-1431.

doi: 10.1164/rccm.202401-0011OC.

Authors

Affiliations

¹ Center for Public Health Genomics, University of Virginia, Charlottesville, Virginia.
² Department of Biomedical and Molecular Sciences, School of Computing, Queen's University, Kingston, Ontario, Canada.
³ Division of Pulmonary, Critical Care, and Sleep Medicine, SUNY Upstate Medical University, Syracuse, New York.
⁴ Institut Universitaire de Cardiologie et de Pneumologie de Québec, Université Laval, Québec City, Québec, Canada.
⁵ New York Genome Center, New York, New York.
⁶ Division of General Medicine and.
⁷ Division of Pulmonary and Critical Care Medicine and.
⁸ Department of Epidemiology and Prevention, Wake Forest University School of Medicine, Winston-Salem, North Carolina.
⁹ Division of Cardiology, Department of Medicine, Johns Hopkins University School of Medicine, Baltimore, Maryland.
¹⁰ Program in Translational Medicine and.
¹¹ Department of Pediatrics and.
¹² Division of Epidemiology and Community Health, School of Public Health, University of Minnesota, Minneapolis, Minnesota.
¹³ Division of Pulmonary, Critical Care, Allergy, and Sleep Medicine, University of California, San Francisco, San Francisco, California.
¹⁴ Division of Pulmonary, Allergy, and Critical Care Medicine, University of Alabama at Birmingham, Birmingham, Alabama.
¹⁵ Division of Pulmonary and Critical Care Medicine, Department of Medicine, and.
¹⁶ Department of Genetic Medicine, Weill Cornell Medicine, New York, New York.
¹⁷ Department of Pediatrics and Child Health, University of Manitoba, Winnipeg, Manitoba, Canada.
¹⁸ Department of Pediatrics, British Columbia Children's Hospital, and.
¹⁹ Department of Medicine, McGill University and McGill University Health Centre Research Institute, Montreal, Quebec, Canada.
²⁰ Department of Physics, Toronto Metropolitan University, Ottawa, Ontario, Canada.
²¹ Center for Heart Lung Innovation, The University of British Columbia, Vancouver, British Columbia, Canada.
²² Broad Institute of Massachusetts Institute of Technology and Harvard, Cambridge, Massachusetts.
²³ Department of Pediatrics, The Hospital for Sick Children, Toronto, Ontario, Canada.
²⁴ Department of Physiology, University of Toronto, Toronto, Ontario, Canada.
²⁵ Faculty of Medicine, McMaster University, Hamilton, Ontario, Canada.
²⁶ Division of Respiratory Medicine, Department of Medicine, Mayo Clinic, Scottsdale, Arizona; and.
²⁷ Department of Radiology.
²⁸ Department of Internal Medicine, and.
²⁹ Department of Biomedical Engineering, University of Iowa, Iowa City, Iowa.
³⁰ Department of Epidemiology, Columbia University Irving Medical Center, New York, New York.
³¹ Channing Division of Network Medicine, Department of Medicine, Brigham and Women's Hospital, Harvard Medical School, Boston, Massachusetts.

PMID: 38935874
PMCID: PMC11716030 (available on 2025-12-15)
DOI: 10.1164/rccm.202401-0011OC

Abstract

Rationale: Dysanapsis refers to a mismatch between airway tree caliber and lung size arising early in life. Dysanapsis assessed by computed tomography (CT) is evident by early adulthood and associated with chronic obstructive pulmonary disease (COPD) risk later in life. Objectives: By examining the genetic factors associated with CT-assessed dysanapsis, we aimed to elucidate its molecular underpinnings and physiological significance across the lifespan. Methods: We performed a genome-wide association study of CT-assessed dysanapsis in 11,951 adults, including individuals from two population-based and two COPD-enriched studies. We applied colocalization analysis to integrate genome-wide association study and gene expression data from whole blood and lung. Genetic variants associated with dysanapsis were combined into a genetic risk score that was applied to examine association with lung function in children from a population-based birth cohort (n = 1,278) and adults from the UKBiobank (n = 369,157). Measurements and Main Results: CT-assessed dysanapsis was associated with genetic variants from 21 independent signals in 19 gene regions, implicating HHIP (hedgehog interacting protein), DSP, and NPNT as potential molecular targets based on colocalization of their expression. A higher dysanapsis genetic risk score was associated with obstructive spirometry among 5-year-old children and among adults in the fifth, sixth, and seventh decades of life. Conclusions: CT-assessed dysanapsis is associated with variation in genes previously implicated in lung development, and dysanapsis genetic risk is associated with obstructive lung function from early life through older adulthood. Dysanapsis may represent an endophenotype link between the genetic variations associated with lung function and COPD.

Keywords: airflow obstruction; chronic obstructive pulmonary disease; lung growth and development.

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Comment in

Unraveling Dysanapsis: Genetic Insights into Airway Lung Mismatch and COPD.
Yang A, Bon J. Yang A, et al. Am J Respir Crit Care Med. 2024 Dec 15;210(12):1391-1392. doi: 10.1164/rccm.202406-1256ED. Am J Respir Crit Care Med. 2024. PMID: 39078250 Free PMC article. No abstract available.

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Dysanapsis Genetic Risk Predicts Lung Function Across the Lifespan

Affiliations

Dysanapsis Genetic Risk Predicts Lung Function Across the Lifespan

Authors

Affiliations

Abstract

Comment in

References

MeSH terms

Grants and funding

LinkOut - more resources

Full Text Sources

Medical

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