The Plasma Proteome in Community-acquired Pneumonia: Pathophysiology, Outcome and 10-Year Risk

Erik H A Michels; Hessel Peters-Sengers; Justin de Brabander; Alex R Schuurman; Tom D Y Reijnders; Bastiaan W Haak; Xanthe Brands; Sebastiaan C M Joosten; Daniël R Faber; Olaf L Cremer; Renée A Douma; Alex F de Vos; W Joost Wiersinga; Joe M Butler; Tom van der Poll

doi:10.1164/rccm.202502-0325OC

The Plasma Proteome in Community-acquired Pneumonia: Pathophysiology, Outcome and 10-Year Risk

Erik H A Michels
, Hessel Peters-Sengers
, Justin de Brabander
, Alex R Schuurman
, Tom D Y Reijnders
, Bastiaan W Haak
, Xanthe Brands
, Sebastiaan C M Joosten
, Daniël R Faber
, Olaf L Cremer
, Renée A Douma
, Alex F de Vos
, W Joost Wiersinga
, Joe M Butler
, Tom van der Poll

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

Abstract

RATIONALE: Community-acquired pneumonia (CAP) represents a significant health burden.

OBJECTIVES: We aimed to map the plasma proteome in patients with CAP and associate protein abundance with pathophysiology, tissue source, and outcome.

METHODS: We measured the plasma proteome of CAP patients upon admission to a general ward using Olink technology (derivation cohort). Additional Olink measurements were performed in CAP patients admitted to the intensive care unit (ICU) and SARS-CoV-2 pneumonia patients across care settings (validation cohorts).

MEASUREMENTS AND MAIN RESULTS: Of 2676 proteins analysed in 93 ward-CAP patients and 21 healthy controls, 904 (33.8%) were higher in CAP, 396 (14.8%) lower, and 1376 (51.4%) not different. More abundant proteins were associated with innate immune and mitosis pathways, and mainly originated from lung and cardiac tissue. 131 proteins associated with time to clinical stability (TCS), of which 124 (primarily related to monocyte/macrophage and RNA processing) were connected with a long TCS. Most TCS-associated proteins were differentially abundant in non-survivors versus survivors amongst 88 ICU-CAP (1.4- to 3.5-fold higher) and 305 SARS-CoV-2 pneumonia patients (1.16- to 1.35-fold lower or 1.14- to 2.65-fold higher; all p<0.05). In the general population (UK Biobank), 115 of 124 (92.7%) proteins correlated with long TCS were associated with an increased risk of pneumonia during a 10-year follow-up, while 6 of 7 (85.7%) proteins correlated with shorter TCS were associated with a lower risk of pneumonia.

CONCLUSIONS: This now publicly available CAP plasma proteome provides information on pathophysiological mechanisms and tissue involvement, and may support development of personalised therapies.

Original language	English
Pages (from-to)	2180-2190
Journal	American journal of respiratory and critical care medicine
Volume	211
Issue number	11
Early online date	2 Jul 2025
DOIs	https://doi.org/10.1164/rccm.202502-0325OC
Publication status	Published - 2025

Access to Document

10.1164/rccm.202502-0325OC

michels-et-al-2025-the-plasma-proteome-in-community-acquired-pneumonia-pathophysiology-outcome-and-10-year-riskFinal published version, 1.1 MBLicence: Taverne

Cite this

Michels, E. H. A., Peters-Sengers, H., de Brabander, J., Schuurman, A. R., Reijnders, T. D. Y., Haak, B. W., Brands, X., Joosten, S. C. M., Faber, D. R., Cremer, O. L., Douma, R. A., de Vos, A. F., Wiersinga, W. J., Butler, J. M., & van der Poll, T. (2025). The Plasma Proteome in Community-acquired Pneumonia: Pathophysiology, Outcome and 10-Year Risk. American journal of respiratory and critical care medicine, 211(11), 2180-2190. https://doi.org/10.1164/rccm.202502-0325OC

@article{66e9630a8d644d04ab586d70007acddd,

title = "The Plasma Proteome in Community-acquired Pneumonia: Pathophysiology, Outcome and 10-Year Risk",

abstract = "RATIONALE: Community-acquired pneumonia (CAP) represents a significant health burden.OBJECTIVES: We aimed to map the plasma proteome in patients with CAP and associate protein abundance with pathophysiology, tissue source, and outcome.METHODS: We measured the plasma proteome of CAP patients upon admission to a general ward using Olink technology (derivation cohort). Additional Olink measurements were performed in CAP patients admitted to the intensive care unit (ICU) and SARS-CoV-2 pneumonia patients across care settings (validation cohorts).MEASUREMENTS AND MAIN RESULTS: Of 2676 proteins analysed in 93 ward-CAP patients and 21 healthy controls, 904 (33.8\%) were higher in CAP, 396 (14.8\%) lower, and 1376 (51.4\%) not different. More abundant proteins were associated with innate immune and mitosis pathways, and mainly originated from lung and cardiac tissue. 131 proteins associated with time to clinical stability (TCS), of which 124 (primarily related to monocyte/macrophage and RNA processing) were connected with a long TCS. Most TCS-associated proteins were differentially abundant in non-survivors versus survivors amongst 88 ICU-CAP (1.4- to 3.5-fold higher) and 305 SARS-CoV-2 pneumonia patients (1.16- to 1.35-fold lower or 1.14- to 2.65-fold higher; all p<0.05). In the general population (UK Biobank), 115 of 124 (92.7\%) proteins correlated with long TCS were associated with an increased risk of pneumonia during a 10-year follow-up, while 6 of 7 (85.7\%) proteins correlated with shorter TCS were associated with a lower risk of pneumonia.CONCLUSIONS: This now publicly available CAP plasma proteome provides information on pathophysiological mechanisms and tissue involvement, and may support development of personalised therapies.",

author = "Michels, \{Erik H A\} and Hessel Peters-Sengers and \{de Brabander\}, Justin and Schuurman, \{Alex R\} and Reijnders, \{Tom D Y\} and Haak, \{Bastiaan W\} and Xanthe Brands and Joosten, \{Sebastiaan C M\} and Faber, \{Dani{\"e}l R\} and Cremer, \{Olaf L\} and Douma, \{Ren{\'e}e A\} and \{de Vos\}, \{Alex F\} and Wiersinga, \{W Joost\} and Butler, \{Joe M\} and \{van der Poll\}, Tom",

year = "2025",

doi = "10.1164/rccm.202502-0325OC",

language = "English",

volume = "211",

pages = "2180--2190",

journal = "American journal of respiratory and critical care medicine",

issn = "1073-449X",

publisher = "American Thoracic Society",

number = "11",

}

Michels, EHA, Peters-Sengers, H, de Brabander, J, Schuurman, AR, Reijnders, TDY, Haak, BW, Brands, X, Joosten, SCM, Faber, DR, Cremer, OL, Douma, RA, de Vos, AF, Wiersinga, WJ, Butler, JM & van der Poll, T 2025, 'The Plasma Proteome in Community-acquired Pneumonia: Pathophysiology, Outcome and 10-Year Risk', American journal of respiratory and critical care medicine, vol. 211, no. 11, pp. 2180-2190. https://doi.org/10.1164/rccm.202502-0325OC

TY - JOUR

T1 - The Plasma Proteome in Community-acquired Pneumonia

T2 - Pathophysiology, Outcome and 10-Year Risk

AU - Michels, Erik H A

AU - Peters-Sengers, Hessel

AU - de Brabander, Justin

AU - Schuurman, Alex R

AU - Reijnders, Tom D Y

AU - Haak, Bastiaan W

AU - Brands, Xanthe

AU - Joosten, Sebastiaan C M

AU - Faber, Daniël R

AU - Cremer, Olaf L

AU - Douma, Renée A

AU - de Vos, Alex F

AU - Wiersinga, W Joost

AU - Butler, Joe M

AU - van der Poll, Tom

PY - 2025

Y1 - 2025

N2 - RATIONALE: Community-acquired pneumonia (CAP) represents a significant health burden.OBJECTIVES: We aimed to map the plasma proteome in patients with CAP and associate protein abundance with pathophysiology, tissue source, and outcome.METHODS: We measured the plasma proteome of CAP patients upon admission to a general ward using Olink technology (derivation cohort). Additional Olink measurements were performed in CAP patients admitted to the intensive care unit (ICU) and SARS-CoV-2 pneumonia patients across care settings (validation cohorts).MEASUREMENTS AND MAIN RESULTS: Of 2676 proteins analysed in 93 ward-CAP patients and 21 healthy controls, 904 (33.8%) were higher in CAP, 396 (14.8%) lower, and 1376 (51.4%) not different. More abundant proteins were associated with innate immune and mitosis pathways, and mainly originated from lung and cardiac tissue. 131 proteins associated with time to clinical stability (TCS), of which 124 (primarily related to monocyte/macrophage and RNA processing) were connected with a long TCS. Most TCS-associated proteins were differentially abundant in non-survivors versus survivors amongst 88 ICU-CAP (1.4- to 3.5-fold higher) and 305 SARS-CoV-2 pneumonia patients (1.16- to 1.35-fold lower or 1.14- to 2.65-fold higher; all p<0.05). In the general population (UK Biobank), 115 of 124 (92.7%) proteins correlated with long TCS were associated with an increased risk of pneumonia during a 10-year follow-up, while 6 of 7 (85.7%) proteins correlated with shorter TCS were associated with a lower risk of pneumonia.CONCLUSIONS: This now publicly available CAP plasma proteome provides information on pathophysiological mechanisms and tissue involvement, and may support development of personalised therapies.

AB - RATIONALE: Community-acquired pneumonia (CAP) represents a significant health burden.OBJECTIVES: We aimed to map the plasma proteome in patients with CAP and associate protein abundance with pathophysiology, tissue source, and outcome.METHODS: We measured the plasma proteome of CAP patients upon admission to a general ward using Olink technology (derivation cohort). Additional Olink measurements were performed in CAP patients admitted to the intensive care unit (ICU) and SARS-CoV-2 pneumonia patients across care settings (validation cohorts).MEASUREMENTS AND MAIN RESULTS: Of 2676 proteins analysed in 93 ward-CAP patients and 21 healthy controls, 904 (33.8%) were higher in CAP, 396 (14.8%) lower, and 1376 (51.4%) not different. More abundant proteins were associated with innate immune and mitosis pathways, and mainly originated from lung and cardiac tissue. 131 proteins associated with time to clinical stability (TCS), of which 124 (primarily related to monocyte/macrophage and RNA processing) were connected with a long TCS. Most TCS-associated proteins were differentially abundant in non-survivors versus survivors amongst 88 ICU-CAP (1.4- to 3.5-fold higher) and 305 SARS-CoV-2 pneumonia patients (1.16- to 1.35-fold lower or 1.14- to 2.65-fold higher; all p<0.05). In the general population (UK Biobank), 115 of 124 (92.7%) proteins correlated with long TCS were associated with an increased risk of pneumonia during a 10-year follow-up, while 6 of 7 (85.7%) proteins correlated with shorter TCS were associated with a lower risk of pneumonia.CONCLUSIONS: This now publicly available CAP plasma proteome provides information on pathophysiological mechanisms and tissue involvement, and may support development of personalised therapies.

U2 - 10.1164/rccm.202502-0325OC

DO - 10.1164/rccm.202502-0325OC

M3 - Article

C2 - 40600965

SN - 1073-449X

VL - 211

SP - 2180

EP - 2190

JO - American journal of respiratory and critical care medicine

JF - American journal of respiratory and critical care medicine

IS - 11

ER -

The Plasma Proteome in Community-acquired Pneumonia: Pathophysiology, Outcome and 10-Year Risk

Abstract

Access to Document

Fingerprint

Cite this