Black carbon content in airway macrophages is associated with increased severe exacerbations and worse COPD morbidity in SPIROMICS

Vickram Tejwani; Han Woo; Chen Liu; Anna K. Tillery; Amanda J. Gassett; Richard E. Kanner; Eric A. Hoffman; Fernando J. Martinez; Prescott G. Woodruff; R. Graham Barr; Ashraf Fawzy; Kirsten Koehler; Jeffrey L. Curtis; Christine M. Freeman; Christopher B. Cooper; Alejandro P. Comellas; Cheryl Pirozzi; Robert Paine; Donald Tashkin; Jerry A. Krishnan; Coralynn Sack; Nirupama Putcha; Laura Paulin; Marina Zusman; Joel D. Kaufman; Neil E. Alexis; Nadia N. Hansel

doi:10.1186/s12931-022-02225-0

Black carbon content in airway macrophages is associated with increased severe exacerbations and worse COPD morbidity in SPIROMICS

Vickram Tejwani, Han Woo, Chen Liu, Anna K. Tillery, Amanda J. Gassett, Richard E. Kanner, Eric A. Hoffman, Fernando J. Martinez, Prescott G. Woodruff, R. Graham Barr, Ashraf Fawzy, Kirsten Koehler, Jeffrey L. Curtis, Christine M. Freeman, Christopher B. Cooper, Alejandro P. Comellas, Cheryl Pirozzi, Robert Paine, Donald Tashkin, Jerry A. KrishnanCoralynn Sack, Nirupama Putcha, Laura Paulin, Marina Zusman, Joel D. Kaufman, Neil E. Alexis, Nadia N. Hansel

School of Medicine

Research output: Contribution to journal › Article › peer-review

Abstract

Background: Airway macrophages (AM), crucial for the immune response in chronic obstructive pulmonary disease (COPD), are exposed to environmental particulate matter (PM), which they retain in their cytoplasm as black carbon (BC). However, whether AM BC accurately reflects environmental PM_2.5 exposure, and can serve as a biomarker of COPD outcomes, is unknown. Methods: We analyzed induced sputum from participants at 7 of 12 sites SPIROMICS sites for AM BC content, which we related to exposures and to lung function and respiratory outcomes. Models were adjusted for batch (first vs. second), age, race (white vs. non-white), income (<$35,000, $35,000~$74,999, ≥$75,000, decline to answer), BMI, and use of long-acting beta-agonist/long-acting muscarinic antagonists, with sensitivity analysis performed with inclusion of urinary cotinine and lung function as covariates. Results: Of 324 participants, 143 were current smokers and 201 had spirometric-confirmed COPD. Modeled indoor fine (< 2.5 μm in aerodynamic diameter) particulate matter (PM_2.5) and urinary cotinine were associated with higher AM BC. Other assessed indoor and ambient pollutant exposures were not associated with higher AM BC. Higher AM BC was associated with worse lung function and odds of severe exacerbation, as well as worse functional status, respiratory symptoms and quality of life. Conclusion: Indoor PM_2.5 and cigarette smoke exposure may lead to increased AM BC deposition. Black carbon content in AMs is associated with worse COPD morbidity in current and former smokers, which remained after sensitivity analysis adjusting for cigarette smoke burden. Airway macrophage BC, which may alter macrophage function, could serve as a predictor of experiencing worse respiratory symptoms and impaired lung function.

Original language	English (US)
Article number	310
Journal	Respiratory research
Volume	23
Issue number	1
DOIs	https://doi.org/10.1186/s12931-022-02225-0
State	Published - Dec 2022

Keywords

Black carbon
COPD
Macrophage

ASJC Scopus subject areas

Pulmonary and Respiratory Medicine

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10.1186/s12931-022-02225-0

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Tejwani, V., Woo, H., Liu, C., Tillery, A. K., Gassett, A. J., Kanner, R. E., Hoffman, E. A., Martinez, F. J., Woodruff, P. G., Barr, R. G., Fawzy, A., Koehler, K., Curtis, J. L., Freeman, C. M., Cooper, C. B., Comellas, A. P., Pirozzi, C., Paine, R., Tashkin, D., ... Hansel, N. N. (2022). Black carbon content in airway macrophages is associated with increased severe exacerbations and worse COPD morbidity in SPIROMICS. Respiratory research, 23(1), Article 310. https://doi.org/10.1186/s12931-022-02225-0

Tejwani, V, Woo, H, Liu, C, Tillery, AK, Gassett, AJ, Kanner, RE, Hoffman, EA, Martinez, FJ, Woodruff, PG, Barr, RG, Fawzy, A , Koehler, K, Curtis, JL, Freeman, CM, Cooper, CB, Comellas, AP, Pirozzi, C, Paine, R, Tashkin, D, Krishnan, JA, Sack, C, Putcha, N, Paulin, L, Zusman, M, Kaufman, JD, Alexis, NE & Hansel, NN 2022, 'Black carbon content in airway macrophages is associated with increased severe exacerbations and worse COPD morbidity in SPIROMICS', Respiratory research, vol. 23, no. 1, 310. https://doi.org/10.1186/s12931-022-02225-0

@article{14385b0cd4eb4ba0a314798674eb0059,

title = "Black carbon content in airway macrophages is associated with increased severe exacerbations and worse COPD morbidity in SPIROMICS",

abstract = "Background: Airway macrophages (AM), crucial for the immune response in chronic obstructive pulmonary disease (COPD), are exposed to environmental particulate matter (PM), which they retain in their cytoplasm as black carbon (BC). However, whether AM BC accurately reflects environmental PM2.5 exposure, and can serve as a biomarker of COPD outcomes, is unknown. Methods: We analyzed induced sputum from participants at 7 of 12 sites SPIROMICS sites for AM BC content, which we related to exposures and to lung function and respiratory outcomes. Models were adjusted for batch (first vs. second), age, race (white vs. non-white), income (<$35,000, $35,000~$74,999, ≥$75,000, decline to answer), BMI, and use of long-acting beta-agonist/long-acting muscarinic antagonists, with sensitivity analysis performed with inclusion of urinary cotinine and lung function as covariates. Results: Of 324 participants, 143 were current smokers and 201 had spirometric-confirmed COPD. Modeled indoor fine (< 2.5 μm in aerodynamic diameter) particulate matter (PM2.5) and urinary cotinine were associated with higher AM BC. Other assessed indoor and ambient pollutant exposures were not associated with higher AM BC. Higher AM BC was associated with worse lung function and odds of severe exacerbation, as well as worse functional status, respiratory symptoms and quality of life. Conclusion: Indoor PM2.5 and cigarette smoke exposure may lead to increased AM BC deposition. Black carbon content in AMs is associated with worse COPD morbidity in current and former smokers, which remained after sensitivity analysis adjusting for cigarette smoke burden. Airway macrophage BC, which may alter macrophage function, could serve as a predictor of experiencing worse respiratory symptoms and impaired lung function.",

keywords = "Black carbon, COPD, Macrophage",

author = "Vickram Tejwani and Han Woo and Chen Liu and Tillery, {Anna K.} and Gassett, {Amanda J.} and Kanner, {Richard E.} and Hoffman, {Eric A.} and Martinez, {Fernando J.} and Woodruff, {Prescott G.} and Barr, {R. Graham} and Ashraf Fawzy and Kirsten Koehler and Curtis, {Jeffrey L.} and Freeman, {Christine M.} and Cooper, {Christopher B.} and Comellas, {Alejandro P.} and Cheryl Pirozzi and Robert Paine and Donald Tashkin and Krishnan, {Jerry A.} and Coralynn Sack and Nirupama Putcha and Laura Paulin and Marina Zusman and Kaufman, {Joel D.} and Alexis, {Neil E.} and Hansel, {Nadia N.}",

note = "Publisher Copyright: {\textcopyright} 2022, The Author(s).",

year = "2022",

month = dec,

doi = "10.1186/s12931-022-02225-0",

language = "English (US)",

volume = "23",

journal = "Respiratory research",

issn = "1465-9921",

publisher = "BioMed Central",

number = "1",

}

TY - JOUR

T1 - Black carbon content in airway macrophages is associated with increased severe exacerbations and worse COPD morbidity in SPIROMICS

AU - Tejwani, Vickram

AU - Woo, Han

AU - Liu, Chen

AU - Tillery, Anna K.

AU - Gassett, Amanda J.

AU - Kanner, Richard E.

AU - Hoffman, Eric A.

AU - Martinez, Fernando J.

AU - Woodruff, Prescott G.

AU - Barr, R. Graham

AU - Fawzy, Ashraf

AU - Koehler, Kirsten

AU - Curtis, Jeffrey L.

AU - Freeman, Christine M.

AU - Cooper, Christopher B.

AU - Comellas, Alejandro P.

AU - Pirozzi, Cheryl

AU - Paine, Robert

AU - Tashkin, Donald

AU - Krishnan, Jerry A.

AU - Sack, Coralynn

AU - Putcha, Nirupama

AU - Paulin, Laura

AU - Zusman, Marina

AU - Kaufman, Joel D.

AU - Alexis, Neil E.

AU - Hansel, Nadia N.

PY - 2022/12

Y1 - 2022/12

N2 - Background: Airway macrophages (AM), crucial for the immune response in chronic obstructive pulmonary disease (COPD), are exposed to environmental particulate matter (PM), which they retain in their cytoplasm as black carbon (BC). However, whether AM BC accurately reflects environmental PM2.5 exposure, and can serve as a biomarker of COPD outcomes, is unknown. Methods: We analyzed induced sputum from participants at 7 of 12 sites SPIROMICS sites for AM BC content, which we related to exposures and to lung function and respiratory outcomes. Models were adjusted for batch (first vs. second), age, race (white vs. non-white), income (<$35,000, $35,000~$74,999, ≥$75,000, decline to answer), BMI, and use of long-acting beta-agonist/long-acting muscarinic antagonists, with sensitivity analysis performed with inclusion of urinary cotinine and lung function as covariates. Results: Of 324 participants, 143 were current smokers and 201 had spirometric-confirmed COPD. Modeled indoor fine (< 2.5 μm in aerodynamic diameter) particulate matter (PM2.5) and urinary cotinine were associated with higher AM BC. Other assessed indoor and ambient pollutant exposures were not associated with higher AM BC. Higher AM BC was associated with worse lung function and odds of severe exacerbation, as well as worse functional status, respiratory symptoms and quality of life. Conclusion: Indoor PM2.5 and cigarette smoke exposure may lead to increased AM BC deposition. Black carbon content in AMs is associated with worse COPD morbidity in current and former smokers, which remained after sensitivity analysis adjusting for cigarette smoke burden. Airway macrophage BC, which may alter macrophage function, could serve as a predictor of experiencing worse respiratory symptoms and impaired lung function.

AB - Background: Airway macrophages (AM), crucial for the immune response in chronic obstructive pulmonary disease (COPD), are exposed to environmental particulate matter (PM), which they retain in their cytoplasm as black carbon (BC). However, whether AM BC accurately reflects environmental PM2.5 exposure, and can serve as a biomarker of COPD outcomes, is unknown. Methods: We analyzed induced sputum from participants at 7 of 12 sites SPIROMICS sites for AM BC content, which we related to exposures and to lung function and respiratory outcomes. Models were adjusted for batch (first vs. second), age, race (white vs. non-white), income (<$35,000, $35,000~$74,999, ≥$75,000, decline to answer), BMI, and use of long-acting beta-agonist/long-acting muscarinic antagonists, with sensitivity analysis performed with inclusion of urinary cotinine and lung function as covariates. Results: Of 324 participants, 143 were current smokers and 201 had spirometric-confirmed COPD. Modeled indoor fine (< 2.5 μm in aerodynamic diameter) particulate matter (PM2.5) and urinary cotinine were associated with higher AM BC. Other assessed indoor and ambient pollutant exposures were not associated with higher AM BC. Higher AM BC was associated with worse lung function and odds of severe exacerbation, as well as worse functional status, respiratory symptoms and quality of life. Conclusion: Indoor PM2.5 and cigarette smoke exposure may lead to increased AM BC deposition. Black carbon content in AMs is associated with worse COPD morbidity in current and former smokers, which remained after sensitivity analysis adjusting for cigarette smoke burden. Airway macrophage BC, which may alter macrophage function, could serve as a predictor of experiencing worse respiratory symptoms and impaired lung function.

KW - Black carbon

KW - COPD

KW - Macrophage

UR - http://www.scopus.com/inward/record.url?scp=85141940705&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85141940705&partnerID=8YFLogxK

U2 - 10.1186/s12931-022-02225-0

DO - 10.1186/s12931-022-02225-0

M3 - Article

C2 - 36376879

AN - SCOPUS:85141940705

SN - 1465-9921

VL - 23

JO - Respiratory research

JF - Respiratory research

IS - 1

M1 - 310

ER -

Black carbon content in airway macrophages is associated with increased severe exacerbations and worse COPD morbidity in SPIROMICS

Abstract

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