Identification of Sputum Biomarkers Predictive of Pulmonary Exacerbations in COPD

Subpopulations and Intermediate Outcome Measures in COPD Study

doi:10.1016/j.chest.2021.10.049

Identification of Sputum Biomarkers Predictive of Pulmonary Exacerbations in COPD

Subpopulations and Intermediate Outcome Measures in COPD Study

Medicine

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

8 Scopus citations

Abstract

Background: Improved understanding of the pathways associated with airway pathophysiologic features in COPD will identify new predictive biomarkers and novel therapeutic targets. Research Question: Which physiologic pathways are altered in the airways of patients with COPD and will predict exacerbations? Study Design and Methods: We applied a mass spectrometric panel of metabolomic biomarkers related to mucus hydration and inflammation to sputa from the multicenter Subpopulations and Intermediate Outcome Measures in COPD Study. Biomarkers elevated in sputa from patients with COPD were evaluated for relationships to measures of COPD disease severity and their ability to predict future exacerbations. Results: Sputum supernatants from 980 patients were analyzed: 77 healthy nonsmokers, 341 smokers with preserved spirometry, and 562 patients with COPD (178 with Global Initiative on Chronic Obstructive Lung Disease [GOLD] stage 1 disease, 303 with GOLD stage 2 disease, and 81 with GOLD stage 3 disease) were analyzed. Biomarkers from multiple pathways were elevated in COPD and correlated with sputum neutrophil counts. Among the most significant analytes (false discovery rate, 0.1) were sialic acid, hypoxanthine, xanthine, methylthioadenosine, adenine, and glutathione. Sialic acid and hypoxanthine were associated strongly with measures of disease severity, and elevation of these biomarkers was associated with shorter time to exacerbation and improved prediction models of future exacerbations. Interpretation: Biomarker evaluation implicated pathways involved in mucus hydration, adenosine metabolism, methionine salvage, and oxidative stress in COPD airway pathophysiologic characteristics. Therapies that target these pathways may be of benefit in COPD, and a simple model adding sputum-soluble phase biomarkers improves prediction of pulmonary exacerbations. Trial Registry: ClinicalTrials.gov; No.: NCT01969344; URL: www.clinicaltrials.gov

Original language	English (US)
Pages (from-to)	1239-1249
Number of pages	11
Journal	CHEST
Volume	161
Issue number	5
DOIs	https://doi.org/10.1016/j.chest.2021.10.049
State	Published - May 1 2022

Keywords

adenosine
glutathione
inflammation
metabolomics
methionine salvage
mucus

ASJC Scopus subject areas

Pulmonary and Respiratory Medicine
Critical Care and Intensive Care Medicine
Cardiology and Cardiovascular Medicine

Access to Document

10.1016/j.chest.2021.10.049

Cite this

@article{416d32f3765e437d8dbee5dbfd5062ba,

title = "Identification of Sputum Biomarkers Predictive of Pulmonary Exacerbations in COPD",

abstract = "Background: Improved understanding of the pathways associated with airway pathophysiologic features in COPD will identify new predictive biomarkers and novel therapeutic targets. Research Question: Which physiologic pathways are altered in the airways of patients with COPD and will predict exacerbations? Study Design and Methods: We applied a mass spectrometric panel of metabolomic biomarkers related to mucus hydration and inflammation to sputa from the multicenter Subpopulations and Intermediate Outcome Measures in COPD Study. Biomarkers elevated in sputa from patients with COPD were evaluated for relationships to measures of COPD disease severity and their ability to predict future exacerbations. Results: Sputum supernatants from 980 patients were analyzed: 77 healthy nonsmokers, 341 smokers with preserved spirometry, and 562 patients with COPD (178 with Global Initiative on Chronic Obstructive Lung Disease [GOLD] stage 1 disease, 303 with GOLD stage 2 disease, and 81 with GOLD stage 3 disease) were analyzed. Biomarkers from multiple pathways were elevated in COPD and correlated with sputum neutrophil counts. Among the most significant analytes (false discovery rate, 0.1) were sialic acid, hypoxanthine, xanthine, methylthioadenosine, adenine, and glutathione. Sialic acid and hypoxanthine were associated strongly with measures of disease severity, and elevation of these biomarkers was associated with shorter time to exacerbation and improved prediction models of future exacerbations. Interpretation: Biomarker evaluation implicated pathways involved in mucus hydration, adenosine metabolism, methionine salvage, and oxidative stress in COPD airway pathophysiologic characteristics. Therapies that target these pathways may be of benefit in COPD, and a simple model adding sputum-soluble phase biomarkers improves prediction of pulmonary exacerbations. Trial Registry: ClinicalTrials.gov; No.: NCT01969344; URL: www.clinicaltrials.gov",

keywords = "adenosine, glutathione, inflammation, metabolomics, methionine salvage, mucus",

author = "{Subpopulations and Intermediate Outcome Measures in COPD Study} and Esther, {Charles R.} and O'Neal, {Wanda K.} and Anderson, {Wayne H.} and Mehmet Kesimer and Agathe Ceppe and Doerschuk, {Claire M.} and Alexis, {Neil E.} and Hastie, {Annette T.} and Barr, {R. Graham} and Bowler, {Russell P.} and Wells, {J. Michael} and Oelsner, {Elizabeth C.} and Comellas, {Alejandro P.} and Yohannes Tesfaigzi and Victor Kim and Paulin, {Laura M.} and Cooper, {Christopher B.} and Han, {Mei Lan K.} and Huang, {Yvonne J.} and Labaki, {Wassim W.} and Curtis, {Jeffrey L.} and Boucher, {Richard C.} and Mehrdad Arjomandi and Igor Barjaktarevic and Bateman, {Lori A.} and Bhatt, {Surya P.} and Bleecker, {Eugene R.} and Christenson, {Stephanie A.} and Couper, {David J.} and Criner, {Gerard J.} and Crystal, {Ronald G.} and Dransfield, {Mark T.} and Brad Drummond and Freeman, {Christine M.} and Craig Galban and Hansel, {Nadia N.} and Hoffman, {Eric A.} and Kaner, {Robert J.} and Kanner, {Richard E.} and Kleerup, {Eric C.} and Krishnan, {Jerry A.} and LaVange, {Lisa M.} and Lazarus, {Stephen C.} and Martinez, {Fernando J.} and Meyers, {Deborah A.} and Moore, {Wendy C.} and Newell, {John D.} and Robert Paine and Laura Paulin and Peters, {Stephen P.}",

note = "Funding Information: FUNDING/SUPPORT: This work was supported by SPIROMICS, which was supported by the National Heart, Lung, and Blood Institute of the National Institutes of Health [Grants HHSN268200900013C , HHSN268200900014C , HHSN268200900015C , HHSN268200900016C , HHSN268200900017C , HHSN268200900018C , HHSN268200900019C , HHSN268200900020C , U01 HL137880 , and U24 HL141762 ]. C. R. E. was supported by the National Institutes of Health [Grants R01-HL136961-01S1 and P30-ES10126 ]. R. C. B. was supported by the National Institutes of Health [Grants UH3-HL123645 , P01-HL108808 , P30-DK065988 , P01-HL110873 , P50-HL107168 , and R01-HL136961 ]. Funding Information: Financial/nonfinancial disclosures: The authors have reported to CHEST the following: SPIROMICS is supplemented by contributions made through the Foundation for the National Institutes of Health and the COPD Foundation from AstraZeneca/MedImmune, Bayer, Bellerophon Therapeutics, BoehringerIngelheim Pharmaceuticals, Inc., Chiesi Farmaceutici S.p.A., Forest Research Institute, Inc., GlaxoSmithKline, Grifols Therapeutics, Inc., Ikaria, Inc., Novartis Pharmaceuticals Corporation, Nycomed GmbH, ProterixBio, Regeneron Pharmaceuticals, Inc., Sanofi, Sunovion, Takeda Pharmaceutical Company, and Theravance Biopharma and Mylan. R. G. B. reports receiving grants from the Alpha1 Foundation. R. P. B. reports grants and personal fees from Boehringer Ingelheim; personal fees from Mylan Pharmaceuticals; and personal fees from Theravance; grants, personal fees, and nonfinancial support from GSK. J. M. W. reports grants from Bayer, grants and other from GSK, other from Boehringer Ingelheim, grants and other from Mereo BioPharma, and other from PRA. V. K. reports personal fees from Medscape, personal fees from Gala Therapeutics, personal fees from ABIM Critical Care Testwriting Committee, personal fees from AstraZeneca, and personal fees from Boehringer Ingelheim. A. P. C. reports personal fees from GSK and nonfinancial support from VIDA. C. B. C. reports personal fees from PulmonX, other from GlaxoSmithKline, personal fees from NUVAIRA, and personal fees from MGC Diagnostics. M. K. H. reports personal fees from GSK, personal fees from BI, personal fees from AZ, other from Sunovion, other from Novartis, and personal fees from Merck. J. L. C. reports personal fees from AstraZeneca. R. C. B. reports receiving fees from Parion Sciences. All disclosures are outside of the submitted work. None declared (C. R. E., W. K. O., W. H. A., M. K., A. C., C. M. D., N. E. A., A. T. H., E. C. O., A. P. C., Y. T., L. M. P., Y. J. H., W. W. L.). Publisher Copyright: {\textcopyright} 2021 American College of Chest Physicians",

year = "2022",

month = may,

day = "1",

doi = "10.1016/j.chest.2021.10.049",

language = "English (US)",

volume = "161",

pages = "1239--1249",

journal = "Diseases of the chest",

issn = "0012-3692",

publisher = "American College of Chest Physicians",

number = "5",

}

TY - JOUR

T1 - Identification of Sputum Biomarkers Predictive of Pulmonary Exacerbations in COPD

AU - Subpopulations and Intermediate Outcome Measures in COPD Study

AU - Esther, Charles R.

AU - O'Neal, Wanda K.

AU - Anderson, Wayne H.

AU - Kesimer, Mehmet

AU - Ceppe, Agathe

AU - Doerschuk, Claire M.

AU - Alexis, Neil E.

AU - Hastie, Annette T.

AU - Barr, R. Graham

AU - Bowler, Russell P.

AU - Wells, J. Michael

AU - Oelsner, Elizabeth C.

AU - Comellas, Alejandro P.

AU - Tesfaigzi, Yohannes

AU - Kim, Victor

AU - Paulin, Laura M.

AU - Cooper, Christopher B.

AU - Han, Mei Lan K.

AU - Huang, Yvonne J.

AU - Labaki, Wassim W.

AU - Curtis, Jeffrey L.

AU - Boucher, Richard C.

AU - Arjomandi, Mehrdad

AU - Barjaktarevic, Igor

AU - Bateman, Lori A.

AU - Bhatt, Surya P.

AU - Bleecker, Eugene R.

AU - Christenson, Stephanie A.

AU - Couper, David J.

AU - Criner, Gerard J.

AU - Crystal, Ronald G.

AU - Dransfield, Mark T.

AU - Drummond, Brad

AU - Freeman, Christine M.

AU - Galban, Craig

AU - Hansel, Nadia N.

AU - Hoffman, Eric A.

AU - Kaner, Robert J.

AU - Kanner, Richard E.

AU - Kleerup, Eric C.

AU - Krishnan, Jerry A.

AU - LaVange, Lisa M.

AU - Lazarus, Stephen C.

AU - Martinez, Fernando J.

AU - Meyers, Deborah A.

AU - Moore, Wendy C.

AU - Newell, John D.

AU - Paine, Robert

AU - Paulin, Laura

AU - Peters, Stephen P.

N1 - Funding Information: FUNDING/SUPPORT: This work was supported by SPIROMICS, which was supported by the National Heart, Lung, and Blood Institute of the National Institutes of Health [Grants HHSN268200900013C , HHSN268200900014C , HHSN268200900015C , HHSN268200900016C , HHSN268200900017C , HHSN268200900018C , HHSN268200900019C , HHSN268200900020C , U01 HL137880 , and U24 HL141762 ]. C. R. E. was supported by the National Institutes of Health [Grants R01-HL136961-01S1 and P30-ES10126 ]. R. C. B. was supported by the National Institutes of Health [Grants UH3-HL123645 , P01-HL108808 , P30-DK065988 , P01-HL110873 , P50-HL107168 , and R01-HL136961 ]. Funding Information: Financial/nonfinancial disclosures: The authors have reported to CHEST the following: SPIROMICS is supplemented by contributions made through the Foundation for the National Institutes of Health and the COPD Foundation from AstraZeneca/MedImmune, Bayer, Bellerophon Therapeutics, BoehringerIngelheim Pharmaceuticals, Inc., Chiesi Farmaceutici S.p.A., Forest Research Institute, Inc., GlaxoSmithKline, Grifols Therapeutics, Inc., Ikaria, Inc., Novartis Pharmaceuticals Corporation, Nycomed GmbH, ProterixBio, Regeneron Pharmaceuticals, Inc., Sanofi, Sunovion, Takeda Pharmaceutical Company, and Theravance Biopharma and Mylan. R. G. B. reports receiving grants from the Alpha1 Foundation. R. P. B. reports grants and personal fees from Boehringer Ingelheim; personal fees from Mylan Pharmaceuticals; and personal fees from Theravance; grants, personal fees, and nonfinancial support from GSK. J. M. W. reports grants from Bayer, grants and other from GSK, other from Boehringer Ingelheim, grants and other from Mereo BioPharma, and other from PRA. V. K. reports personal fees from Medscape, personal fees from Gala Therapeutics, personal fees from ABIM Critical Care Testwriting Committee, personal fees from AstraZeneca, and personal fees from Boehringer Ingelheim. A. P. C. reports personal fees from GSK and nonfinancial support from VIDA. C. B. C. reports personal fees from PulmonX, other from GlaxoSmithKline, personal fees from NUVAIRA, and personal fees from MGC Diagnostics. M. K. H. reports personal fees from GSK, personal fees from BI, personal fees from AZ, other from Sunovion, other from Novartis, and personal fees from Merck. J. L. C. reports personal fees from AstraZeneca. R. C. B. reports receiving fees from Parion Sciences. All disclosures are outside of the submitted work. None declared (C. R. E., W. K. O., W. H. A., M. K., A. C., C. M. D., N. E. A., A. T. H., E. C. O., A. P. C., Y. T., L. M. P., Y. J. H., W. W. L.). Publisher Copyright: © 2021 American College of Chest Physicians

PY - 2022/5/1

Y1 - 2022/5/1

N2 - Background: Improved understanding of the pathways associated with airway pathophysiologic features in COPD will identify new predictive biomarkers and novel therapeutic targets. Research Question: Which physiologic pathways are altered in the airways of patients with COPD and will predict exacerbations? Study Design and Methods: We applied a mass spectrometric panel of metabolomic biomarkers related to mucus hydration and inflammation to sputa from the multicenter Subpopulations and Intermediate Outcome Measures in COPD Study. Biomarkers elevated in sputa from patients with COPD were evaluated for relationships to measures of COPD disease severity and their ability to predict future exacerbations. Results: Sputum supernatants from 980 patients were analyzed: 77 healthy nonsmokers, 341 smokers with preserved spirometry, and 562 patients with COPD (178 with Global Initiative on Chronic Obstructive Lung Disease [GOLD] stage 1 disease, 303 with GOLD stage 2 disease, and 81 with GOLD stage 3 disease) were analyzed. Biomarkers from multiple pathways were elevated in COPD and correlated with sputum neutrophil counts. Among the most significant analytes (false discovery rate, 0.1) were sialic acid, hypoxanthine, xanthine, methylthioadenosine, adenine, and glutathione. Sialic acid and hypoxanthine were associated strongly with measures of disease severity, and elevation of these biomarkers was associated with shorter time to exacerbation and improved prediction models of future exacerbations. Interpretation: Biomarker evaluation implicated pathways involved in mucus hydration, adenosine metabolism, methionine salvage, and oxidative stress in COPD airway pathophysiologic characteristics. Therapies that target these pathways may be of benefit in COPD, and a simple model adding sputum-soluble phase biomarkers improves prediction of pulmonary exacerbations. Trial Registry: ClinicalTrials.gov; No.: NCT01969344; URL: www.clinicaltrials.gov

AB - Background: Improved understanding of the pathways associated with airway pathophysiologic features in COPD will identify new predictive biomarkers and novel therapeutic targets. Research Question: Which physiologic pathways are altered in the airways of patients with COPD and will predict exacerbations? Study Design and Methods: We applied a mass spectrometric panel of metabolomic biomarkers related to mucus hydration and inflammation to sputa from the multicenter Subpopulations and Intermediate Outcome Measures in COPD Study. Biomarkers elevated in sputa from patients with COPD were evaluated for relationships to measures of COPD disease severity and their ability to predict future exacerbations. Results: Sputum supernatants from 980 patients were analyzed: 77 healthy nonsmokers, 341 smokers with preserved spirometry, and 562 patients with COPD (178 with Global Initiative on Chronic Obstructive Lung Disease [GOLD] stage 1 disease, 303 with GOLD stage 2 disease, and 81 with GOLD stage 3 disease) were analyzed. Biomarkers from multiple pathways were elevated in COPD and correlated with sputum neutrophil counts. Among the most significant analytes (false discovery rate, 0.1) were sialic acid, hypoxanthine, xanthine, methylthioadenosine, adenine, and glutathione. Sialic acid and hypoxanthine were associated strongly with measures of disease severity, and elevation of these biomarkers was associated with shorter time to exacerbation and improved prediction models of future exacerbations. Interpretation: Biomarker evaluation implicated pathways involved in mucus hydration, adenosine metabolism, methionine salvage, and oxidative stress in COPD airway pathophysiologic characteristics. Therapies that target these pathways may be of benefit in COPD, and a simple model adding sputum-soluble phase biomarkers improves prediction of pulmonary exacerbations. Trial Registry: ClinicalTrials.gov; No.: NCT01969344; URL: www.clinicaltrials.gov

KW - adenosine

KW - glutathione

KW - inflammation

KW - metabolomics

KW - methionine salvage

KW - mucus

UR - http://www.scopus.com/inward/record.url?scp=85127481728&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85127481728&partnerID=8YFLogxK

U2 - 10.1016/j.chest.2021.10.049

DO - 10.1016/j.chest.2021.10.049

M3 - Article

C2 - 34801592

AN - SCOPUS:85127481728

SN - 0012-3692

VL - 161

SP - 1239

EP - 1249

JO - Diseases of the chest

JF - Diseases of the chest

IS - 5

ER -

Identification of Sputum Biomarkers Predictive of Pulmonary Exacerbations in COPD

Abstract

Keywords

ASJC Scopus subject areas

Access to Document

Other files and links

Fingerprint

Cite this