Associations of High Attenuation Area–Related Proteomic Biomarkers with Fibrotic or Subpleural Interstitial Lung Abnormalities

John S. Kim; Catherine L. Debban; Daniel E. Guzman; Riley T. Hannan; Mary Salvatore; Claire McGroder; David Zhang; Anna J. Podolanczuk; Daniel A. Duprez; Shwu Fan Ma; Yong Huang; Jeffrey M. Sturek; Stephen S. Rich; Jerome I. Rotter; Rajat Deo; Ruth F. Dubin; Janelle Vu Pugashetti; Jennifer M. Wang; Mei Lan K. Han; Justin M. Oldham; Imre Noth; Prescott G. Woodruff; Victor E. Ortega; Julie C. Fanburg-Smith; Edward B. Stelow; Christopher A. Moskaluk; Eric A. Hoffman; Christine Kim Garcia; Russell P. Bowler; Peter Ganz; R. Graham Barr; Ani Manichaikul

doi:10.1164/rccm.202503-0610OC

Associations of High Attenuation Area–Related Proteomic Biomarkers with Fibrotic or Subpleural Interstitial Lung Abnormalities

John S. Kim^*, Catherine L. Debban, Daniel E. Guzman, Riley T. Hannan, Mary Salvatore, Claire McGroder, David Zhang, Anna J. Podolanczuk, Daniel A. Duprez, Shwu Fan Ma, Yong Huang, Jeffrey M. Sturek, Stephen S. Rich, Jerome I. Rotter, Rajat Deo, Ruth F. Dubin, Janelle Vu Pugashetti, Jennifer M. Wang, Mei Lan K. Han, Justin M. OldhamImre Noth, Prescott G. Woodruff, Victor E. Ortega, Julie C. Fanburg-Smith, Edward B. Stelow, Christopher A. Moskaluk, Eric A. Hoffman, Christine Kim Garcia, Russell P. Bowler, Peter Ganz, R. Graham Barr, Ani Manichaikul

^*Corresponding author for this work

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Abstract

Rationale: High-attenuation area (HAA) is a computed tomography (CT) tool that correlates with lung inflammation and fibrosis. Systemic molecular correlates of HAA (e.g., plasma proteins) may inform biological processes involved in interstitial lung disease. Objectives: To identify plasma proteins that associate with HAA and correlate with a higher probability of developing new-onset fibrotic or subpleural interstitial lung abnormalities (ILAs). Methods: Plasma protein levels were measured using a semiquantitative aptamer-based platform in MESA (the Multi-Ethnic Study of Atherosclerosis; N = 5,486) and SPIROMICS (Subpopulations and Intermediate Outcome Measures in COPD Study; N = 1,781). Linear regression models identified HAA-associated proteins after adjustment for demographic and socioeconomic factors, CT scanner parameters, study center, and batch. Associations of HAA-related proteins with new-onset fibrotic or subpleural ILAs were examined in MESA participants with ILA assessments on full-lung CT 10 years later. Immunohistochemical staining of select proteins was performed in lung tissue from pulmonary fibrosis cases. Measurements and Main Results: There were 75 proteins detected that were significantly associated with HAA in MESA and SPIROMICS. Gene Ontology analysis of these proteins identified processes involved in immune cell chemotaxis and cellular growth and apoptosis. Seven proteins were associated with a higher probability of new-onset fibrotic or subpleural ILAs in MESA, and two of these, junctional adhesion molecule-like protein and GTP cyclohydrolase 1 feedback regulatory protein, stained in areas of fibrosis in lung tissue from patients with interstitial lung disease. Conclusions: Plasma proteins associated with more HAA are involved in immune and cellular processes and associate with new-onset fibrotic-subpleural ILA.

Original language	English
Pages (from-to)	1811-1822
Number of pages	12
Journal	American Journal of Respiratory and Critical Care Medicine
Volume	211
Issue number	10
DOIs	https://doi.org/10.1164/rccm.202503-0610OC
State	Published - Oct 2025

Keywords

interstitial lung disease
proteomics
radiomics

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10.1164/rccm.202503-0610OC

Cite this

Kim, J. S., Debban, C. L., Guzman, D. E., Hannan, R. T., Salvatore, M., McGroder, C., Zhang, D., Podolanczuk, A. J., Duprez, D. A., Ma, S. F., Huang, Y., Sturek, J. M., Rich, S. S., Rotter, J. I., Deo, R., Dubin, R. F., Pugashetti, J. V., Wang, J. M., Han, M. L. K., ... Manichaikul, A. (2025). Associations of High Attenuation Area–Related Proteomic Biomarkers with Fibrotic or Subpleural Interstitial Lung Abnormalities. American Journal of Respiratory and Critical Care Medicine, 211(10), 1811-1822. https://doi.org/10.1164/rccm.202503-0610OC

@article{eede2263fe6040ab86d9f37c673747f2,

title = "Associations of High Attenuation Area–Related Proteomic Biomarkers with Fibrotic or Subpleural Interstitial Lung Abnormalities",

abstract = "Rationale: High-attenuation area (HAA) is a computed tomography (CT) tool that correlates with lung inflammation and fibrosis. Systemic molecular correlates of HAA (e.g., plasma proteins) may inform biological processes involved in interstitial lung disease. Objectives: To identify plasma proteins that associate with HAA and correlate with a higher probability of developing new-onset fibrotic or subpleural interstitial lung abnormalities (ILAs). Methods: Plasma protein levels were measured using a semiquantitative aptamer-based platform in MESA (the Multi-Ethnic Study of Atherosclerosis; N = 5,486) and SPIROMICS (Subpopulations and Intermediate Outcome Measures in COPD Study; N = 1,781). Linear regression models identified HAA-associated proteins after adjustment for demographic and socioeconomic factors, CT scanner parameters, study center, and batch. Associations of HAA-related proteins with new-onset fibrotic or subpleural ILAs were examined in MESA participants with ILA assessments on full-lung CT 10 years later. Immunohistochemical staining of select proteins was performed in lung tissue from pulmonary fibrosis cases. Measurements and Main Results: There were 75 proteins detected that were significantly associated with HAA in MESA and SPIROMICS. Gene Ontology analysis of these proteins identified processes involved in immune cell chemotaxis and cellular growth and apoptosis. Seven proteins were associated with a higher probability of new-onset fibrotic or subpleural ILAs in MESA, and two of these, junctional adhesion molecule-like protein and GTP cyclohydrolase 1 feedback regulatory protein, stained in areas of fibrosis in lung tissue from patients with interstitial lung disease. Conclusions: Plasma proteins associated with more HAA are involved in immune and cellular processes and associate with new-onset fibrotic-subpleural ILA.",

keywords = "interstitial lung disease, proteomics, radiomics",

author = "Kim, {John S.} and Debban, {Catherine L.} and Guzman, {Daniel E.} and Hannan, {Riley T.} and Mary Salvatore and Claire McGroder and David Zhang and Podolanczuk, {Anna J.} and Duprez, {Daniel A.} and Ma, {Shwu Fan} and Yong Huang and Sturek, {Jeffrey M.} and Rich, {Stephen S.} and Rotter, {Jerome I.} and Rajat Deo and Dubin, {Ruth F.} and Pugashetti, {Janelle Vu} and Wang, {Jennifer M.} and Han, {Mei Lan K.} and Oldham, {Justin M.} and Imre Noth and Woodruff, {Prescott G.} and Ortega, {Victor E.} and Fanburg-Smith, {Julie C.} and Stelow, {Edward B.} and Moskaluk, {Christopher A.} and Hoffman, {Eric A.} and Garcia, {Christine Kim} and Bowler, {Russell P.} and Peter Ganz and Barr, {R. Graham} and Ani Manichaikul",

note = "Publisher Copyright: Copyright {\textcopyright} 2025 by the American Thoracic Society.",

year = "2025",

month = oct,

doi = "10.1164/rccm.202503-0610OC",

language = "English",

volume = "211",

pages = "1811--1822",

journal = "American Journal of Respiratory and Critical Care Medicine",

issn = "1073-449X",

publisher = "American Thoracic Society",

number = "10",

}

Kim, JS, Debban, CL, Guzman, DE, Hannan, RT, Salvatore, M, McGroder, C, Zhang, D, Podolanczuk, AJ, Duprez, DA, Ma, SF, Huang, Y, Sturek, JM, Rich, SS, Rotter, JI, Deo, R, Dubin, RF, Pugashetti, JV, Wang, JM, Han, MLK, Oldham, JM, Noth, I, Woodruff, PG, Ortega, VE, Fanburg-Smith, JC, Stelow, EB, Moskaluk, CA, Hoffman, EA, Garcia, CK, Bowler, RP, Ganz, P, Barr, RG & Manichaikul, A 2025, 'Associations of High Attenuation Area–Related Proteomic Biomarkers with Fibrotic or Subpleural Interstitial Lung Abnormalities', American Journal of Respiratory and Critical Care Medicine, vol. 211, no. 10, pp. 1811-1822. https://doi.org/10.1164/rccm.202503-0610OC

TY - JOUR

T1 - Associations of High Attenuation Area–Related Proteomic Biomarkers with Fibrotic or Subpleural Interstitial Lung Abnormalities

AU - Kim, John S.

AU - Debban, Catherine L.

AU - Guzman, Daniel E.

AU - Hannan, Riley T.

AU - Salvatore, Mary

AU - McGroder, Claire

AU - Zhang, David

AU - Podolanczuk, Anna J.

AU - Duprez, Daniel A.

AU - Ma, Shwu Fan

AU - Huang, Yong

AU - Sturek, Jeffrey M.

AU - Rich, Stephen S.

AU - Rotter, Jerome I.

AU - Deo, Rajat

AU - Dubin, Ruth F.

AU - Pugashetti, Janelle Vu

AU - Wang, Jennifer M.

AU - Han, Mei Lan K.

AU - Oldham, Justin M.

AU - Noth, Imre

AU - Woodruff, Prescott G.

AU - Ortega, Victor E.

AU - Fanburg-Smith, Julie C.

AU - Stelow, Edward B.

AU - Moskaluk, Christopher A.

AU - Hoffman, Eric A.

AU - Garcia, Christine Kim

AU - Bowler, Russell P.

AU - Ganz, Peter

AU - Barr, R. Graham

AU - Manichaikul, Ani

PY - 2025/10

Y1 - 2025/10

N2 - Rationale: High-attenuation area (HAA) is a computed tomography (CT) tool that correlates with lung inflammation and fibrosis. Systemic molecular correlates of HAA (e.g., plasma proteins) may inform biological processes involved in interstitial lung disease. Objectives: To identify plasma proteins that associate with HAA and correlate with a higher probability of developing new-onset fibrotic or subpleural interstitial lung abnormalities (ILAs). Methods: Plasma protein levels were measured using a semiquantitative aptamer-based platform in MESA (the Multi-Ethnic Study of Atherosclerosis; N = 5,486) and SPIROMICS (Subpopulations and Intermediate Outcome Measures in COPD Study; N = 1,781). Linear regression models identified HAA-associated proteins after adjustment for demographic and socioeconomic factors, CT scanner parameters, study center, and batch. Associations of HAA-related proteins with new-onset fibrotic or subpleural ILAs were examined in MESA participants with ILA assessments on full-lung CT 10 years later. Immunohistochemical staining of select proteins was performed in lung tissue from pulmonary fibrosis cases. Measurements and Main Results: There were 75 proteins detected that were significantly associated with HAA in MESA and SPIROMICS. Gene Ontology analysis of these proteins identified processes involved in immune cell chemotaxis and cellular growth and apoptosis. Seven proteins were associated with a higher probability of new-onset fibrotic or subpleural ILAs in MESA, and two of these, junctional adhesion molecule-like protein and GTP cyclohydrolase 1 feedback regulatory protein, stained in areas of fibrosis in lung tissue from patients with interstitial lung disease. Conclusions: Plasma proteins associated with more HAA are involved in immune and cellular processes and associate with new-onset fibrotic-subpleural ILA.

AB - Rationale: High-attenuation area (HAA) is a computed tomography (CT) tool that correlates with lung inflammation and fibrosis. Systemic molecular correlates of HAA (e.g., plasma proteins) may inform biological processes involved in interstitial lung disease. Objectives: To identify plasma proteins that associate with HAA and correlate with a higher probability of developing new-onset fibrotic or subpleural interstitial lung abnormalities (ILAs). Methods: Plasma protein levels were measured using a semiquantitative aptamer-based platform in MESA (the Multi-Ethnic Study of Atherosclerosis; N = 5,486) and SPIROMICS (Subpopulations and Intermediate Outcome Measures in COPD Study; N = 1,781). Linear regression models identified HAA-associated proteins after adjustment for demographic and socioeconomic factors, CT scanner parameters, study center, and batch. Associations of HAA-related proteins with new-onset fibrotic or subpleural ILAs were examined in MESA participants with ILA assessments on full-lung CT 10 years later. Immunohistochemical staining of select proteins was performed in lung tissue from pulmonary fibrosis cases. Measurements and Main Results: There were 75 proteins detected that were significantly associated with HAA in MESA and SPIROMICS. Gene Ontology analysis of these proteins identified processes involved in immune cell chemotaxis and cellular growth and apoptosis. Seven proteins were associated with a higher probability of new-onset fibrotic or subpleural ILAs in MESA, and two of these, junctional adhesion molecule-like protein and GTP cyclohydrolase 1 feedback regulatory protein, stained in areas of fibrosis in lung tissue from patients with interstitial lung disease. Conclusions: Plasma proteins associated with more HAA are involved in immune and cellular processes and associate with new-onset fibrotic-subpleural ILA.

KW - interstitial lung disease

KW - proteomics

KW - radiomics

UR - http://www.scopus.com/inward/record.url?scp=105017581337&partnerID=8YFLogxK

U2 - 10.1164/rccm.202503-0610OC

DO - 10.1164/rccm.202503-0610OC

M3 - Article

C2 - 40845333

AN - SCOPUS:105017581337

SN - 1073-449X

VL - 211

SP - 1811

EP - 1822

JO - American Journal of Respiratory and Critical Care Medicine

JF - American Journal of Respiratory and Critical Care Medicine

IS - 10

ER -