Investigating the impact of dipeptidyl peptidase-1 inhibition in humans using multi-omics

Merete B. Long; Amy Gilmour; Rebecca C. Hull; Yan Hui Giam; Hollian Richardson; Chloe Hughes; Hani Abo-Leyah; Holly R. Keir; Daniela Alferes de Lima Headley; Rebecca Dowey; Helena Turton; Benjamin JM. New; Thomas Pembridge; Lilia Delgado; Eve McIntosh; Jamie Stobo; Zhen Hui Peh; Margaret Band; Fiona McLaren-Neil; Aran Singanayagam; Oriol Sibila; A A Roger Thompson; Marek Gierlinski; Alison J. Dicker; Alison M. Condliffe; James Chalmers

doi:10.1016/j.jaci.2025.07.016

Investigating the impact of dipeptidyl peptidase-1 inhibition in humans using multi-omics

Merete B. Long, Amy Gilmour, Rebecca C. Hull, Yan Hui Giam, Hollian Richardson, Chloe Hughes, Hani Abo-Leyah, Holly R. Keir, Daniela Alferes de Lima Headley, Rebecca Dowey, Helena Turton, Benjamin JM. New, Thomas Pembridge, Lilia Delgado, Eve McIntosh, Jamie Stobo, Zhen Hui Peh, Margaret Band, Fiona McLaren-Neil, Aran SinganayagamOriol Sibila, A A Roger Thompson, Marek Gierlinski, Alison J. Dicker, Alison M. Condliffe, James Chalmers (Lead / Corresponding author)

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

Abstract

Background: Dipeptidyl peptidase-1 (DPP-1), also known as cathepsin C, processes and activates neutrophil serine proteases. Brensocatib (an oral, reversible, competitive DPP-1 inhibitor) is a novel therapy for bronchiectasis previously shown to reduce sputum protease activity and prevent exacerbations. Broader effects of DPP-1 inhibition on the immune response have not been investigated. Objective: We sought to profile effects of DPP-1 inhibition using a secondary analysis of the STOP-COVID19 trial. Methods: The STOP-COVID19 trial was a randomized placebo-controlled trial of brensocatib 25 mg in patients hospitalized for severe coronavirus disease 2019 (COVID-19) in the United Kingdom. In the primary analysis, brensocatib did not improve clinical outcomes at day 29. A prespecified substudy was performed at 2 UK hospitals to explore the effects of DPP-1 inhibition on the immune response. Blood samples were obtained at baseline and days 8, 15, and 29. Analyses included peripheral blood neutrophil mass spectrometry, neutrophil functional testing, serum cytokine analysis, whole blood mRNA sequencing, and measurement of circulating neutrophil-associated markers. Results: Between June 2020 and January 2021, 161 patients were enrolled (brensocatib: n = 80; placebo: n = 81). Neutrophil proteomics showed significant alterations in 15 proteins (false discovery rate-adjusted P < .01) including reductions in cathepsin G and the pseudoenzyme azurocidin-1 (Azu-1) (false discovery rate-adjusted P < .0001) by day 29. In serum, Azu-1 levels, but not total elastase or proteinase 3, were significantly reduced (P < .0001). Neutrophil surface expression of protease-cleavable C5aR1/CD88 was significantly increased by day 29 (P < .05). There were no differences in neutrophil extracellular traps, phagocytosis, circulating immune cell proportions, or gene expression between treatment groups. Conclusions: Brensocatib treatment in COVID-19 altered multiple neutrophil proteins including profound effects on Azu-1, identifying this as a key DPP-1 target and potentially highly sensitive biomarker of treatment efficacy.

Original language	English
Pages (from-to)	1356-1367
Number of pages	12
Journal	Journal of Allergy and Clinical Immunology
Volume	156
Issue number	5
Early online date	5 Aug 2025
DOIs	https://doi.org/10.1016/j.jaci.2025.07.016
Publication status	Published - Nov 2025

Keywords

DPP-1
Dipeptidyl peptidase-1
azurocidin-1
brensocatib
cathepsin C
heparin binding protein
inflammation
multi-omics
neutrophil
proteomics

ASJC Scopus subject areas

Immunology and Allergy
Immunology

Access to Document

10.1016/j.jaci.2025.07.016Licence: CC BY

Final pubished version
©2025 The Authors. Published by Elsevier Inc. on behalf of the American Academy of Allergy, Asthma & Immunology. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/). https://doi.org/10.1016/j.jaci.2025.07.016
Final published version, 1.76 MBLicence: CC BY

Tayside Clinical Trials Unit
Health and Clinical Services
Facility/equipment: Facility

Cite this

Long, M. B., Gilmour, A., Hull, R. C., Giam, Y. H., Richardson, H., Hughes, C., Abo-Leyah, H., Keir, H. R., Alferes de Lima Headley, D., Dowey, R., Turton, H., New, B. JM., Pembridge, T., Delgado, L., McIntosh, E., Stobo, J., Peh, Z. H., Band, M., McLaren-Neil, F., ... Chalmers, J. (2025). Investigating the impact of dipeptidyl peptidase-1 inhibition in humans using multi-omics. Journal of Allergy and Clinical Immunology, 156(5), 1356-1367. https://doi.org/10.1016/j.jaci.2025.07.016

@article{f37b5a145b8b40cf80bc0b1387c6df01,

title = "Investigating the impact of dipeptidyl peptidase-1 inhibition in humans using multi-omics",

abstract = "Background: Dipeptidyl peptidase-1 (DPP-1), also known as cathepsin C, processes and activates neutrophil serine proteases. Brensocatib (an oral, reversible, competitive DPP-1 inhibitor) is a novel therapy for bronchiectasis previously shown to reduce sputum protease activity and prevent exacerbations. Broader effects of DPP-1 inhibition on the immune response have not been investigated. Objective: We sought to profile effects of DPP-1 inhibition using a secondary analysis of the STOP-COVID19 trial. Methods: The STOP-COVID19 trial was a randomized placebo-controlled trial of brensocatib 25 mg in patients hospitalized for severe coronavirus disease 2019 (COVID-19) in the United Kingdom. In the primary analysis, brensocatib did not improve clinical outcomes at day 29. A prespecified substudy was performed at 2 UK hospitals to explore the effects of DPP-1 inhibition on the immune response. Blood samples were obtained at baseline and days 8, 15, and 29. Analyses included peripheral blood neutrophil mass spectrometry, neutrophil functional testing, serum cytokine analysis, whole blood mRNA sequencing, and measurement of circulating neutrophil-associated markers. Results: Between June 2020 and January 2021, 161 patients were enrolled (brensocatib: n = 80; placebo: n = 81). Neutrophil proteomics showed significant alterations in 15 proteins (false discovery rate-adjusted P < .01) including reductions in cathepsin G and the pseudoenzyme azurocidin-1 (Azu-1) (false discovery rate-adjusted P < .0001) by day 29. In serum, Azu-1 levels, but not total elastase or proteinase 3, were significantly reduced (P < .0001). Neutrophil surface expression of protease-cleavable C5aR1/CD88 was significantly increased by day 29 (P < .05). There were no differences in neutrophil extracellular traps, phagocytosis, circulating immune cell proportions, or gene expression between treatment groups. Conclusions: Brensocatib treatment in COVID-19 altered multiple neutrophil proteins including profound effects on Azu-1, identifying this as a key DPP-1 target and potentially highly sensitive biomarker of treatment efficacy.",

keywords = "DPP-1, Dipeptidyl peptidase-1, azurocidin-1, brensocatib, cathepsin C, heparin binding protein, inflammation, multi-omics, neutrophil, proteomics",

author = "Long, \{Merete B.\} and Amy Gilmour and Hull, \{Rebecca C.\} and Giam, \{Yan Hui\} and Hollian Richardson and Chloe Hughes and Hani Abo-Leyah and Keir, \{Holly R.\} and \{Alferes de Lima Headley\}, Daniela and Rebecca Dowey and Helena Turton and New, \{Benjamin JM.\} and Thomas Pembridge and Lilia Delgado and Eve McIntosh and Jamie Stobo and Peh, \{Zhen Hui\} and Margaret Band and Fiona McLaren-Neil and Aran Singanayagam and Oriol Sibila and Thompson, \{A A Roger\} and Marek Gierlinski and Dicker, \{Alison J.\} and Condliffe, \{Alison M.\} and James Chalmers",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors",

year = "2025",

month = nov,

doi = "10.1016/j.jaci.2025.07.016",

language = "English",

volume = "156",

pages = "1356--1367",

journal = "Journal of Allergy and Clinical Immunology",

issn = "0091-6749",

publisher = "Elsevier",

number = "5",

}

Long, MB , Gilmour, A , Hull, RC, Giam, YH, Richardson, H , Hughes, C , Abo-Leyah, H, Keir, HR, Alferes de Lima Headley, D, Dowey, R, Turton, H, New, BJM, Pembridge, T, Delgado, L, McIntosh, E, Stobo, J, Peh, ZH, Band, M, McLaren-Neil, F, Singanayagam, A, Sibila, O, Thompson, AAR, Gierlinski, M , Dicker, AJ, Condliffe, AM & Chalmers, J 2025, 'Investigating the impact of dipeptidyl peptidase-1 inhibition in humans using multi-omics', Journal of Allergy and Clinical Immunology, vol. 156, no. 5, pp. 1356-1367. https://doi.org/10.1016/j.jaci.2025.07.016

TY - JOUR

T1 - Investigating the impact of dipeptidyl peptidase-1 inhibition in humans using multi-omics

AU - Long, Merete B.

AU - Gilmour, Amy

AU - Hull, Rebecca C.

AU - Giam, Yan Hui

AU - Richardson, Hollian

AU - Hughes, Chloe

AU - Abo-Leyah, Hani

AU - Keir, Holly R.

AU - Alferes de Lima Headley, Daniela

AU - Dowey, Rebecca

AU - Turton, Helena

AU - New, Benjamin JM.

AU - Pembridge, Thomas

AU - Delgado, Lilia

AU - McIntosh, Eve

AU - Stobo, Jamie

AU - Peh, Zhen Hui

AU - Band, Margaret

AU - McLaren-Neil, Fiona

AU - Singanayagam, Aran

AU - Sibila, Oriol

AU - Thompson, A A Roger

AU - Gierlinski, Marek

AU - Dicker, Alison J.

AU - Condliffe, Alison M.

AU - Chalmers, James

PY - 2025/11

Y1 - 2025/11

N2 - Background: Dipeptidyl peptidase-1 (DPP-1), also known as cathepsin C, processes and activates neutrophil serine proteases. Brensocatib (an oral, reversible, competitive DPP-1 inhibitor) is a novel therapy for bronchiectasis previously shown to reduce sputum protease activity and prevent exacerbations. Broader effects of DPP-1 inhibition on the immune response have not been investigated. Objective: We sought to profile effects of DPP-1 inhibition using a secondary analysis of the STOP-COVID19 trial. Methods: The STOP-COVID19 trial was a randomized placebo-controlled trial of brensocatib 25 mg in patients hospitalized for severe coronavirus disease 2019 (COVID-19) in the United Kingdom. In the primary analysis, brensocatib did not improve clinical outcomes at day 29. A prespecified substudy was performed at 2 UK hospitals to explore the effects of DPP-1 inhibition on the immune response. Blood samples were obtained at baseline and days 8, 15, and 29. Analyses included peripheral blood neutrophil mass spectrometry, neutrophil functional testing, serum cytokine analysis, whole blood mRNA sequencing, and measurement of circulating neutrophil-associated markers. Results: Between June 2020 and January 2021, 161 patients were enrolled (brensocatib: n = 80; placebo: n = 81). Neutrophil proteomics showed significant alterations in 15 proteins (false discovery rate-adjusted P < .01) including reductions in cathepsin G and the pseudoenzyme azurocidin-1 (Azu-1) (false discovery rate-adjusted P < .0001) by day 29. In serum, Azu-1 levels, but not total elastase or proteinase 3, were significantly reduced (P < .0001). Neutrophil surface expression of protease-cleavable C5aR1/CD88 was significantly increased by day 29 (P < .05). There were no differences in neutrophil extracellular traps, phagocytosis, circulating immune cell proportions, or gene expression between treatment groups. Conclusions: Brensocatib treatment in COVID-19 altered multiple neutrophil proteins including profound effects on Azu-1, identifying this as a key DPP-1 target and potentially highly sensitive biomarker of treatment efficacy.

AB - Background: Dipeptidyl peptidase-1 (DPP-1), also known as cathepsin C, processes and activates neutrophil serine proteases. Brensocatib (an oral, reversible, competitive DPP-1 inhibitor) is a novel therapy for bronchiectasis previously shown to reduce sputum protease activity and prevent exacerbations. Broader effects of DPP-1 inhibition on the immune response have not been investigated. Objective: We sought to profile effects of DPP-1 inhibition using a secondary analysis of the STOP-COVID19 trial. Methods: The STOP-COVID19 trial was a randomized placebo-controlled trial of brensocatib 25 mg in patients hospitalized for severe coronavirus disease 2019 (COVID-19) in the United Kingdom. In the primary analysis, brensocatib did not improve clinical outcomes at day 29. A prespecified substudy was performed at 2 UK hospitals to explore the effects of DPP-1 inhibition on the immune response. Blood samples were obtained at baseline and days 8, 15, and 29. Analyses included peripheral blood neutrophil mass spectrometry, neutrophil functional testing, serum cytokine analysis, whole blood mRNA sequencing, and measurement of circulating neutrophil-associated markers. Results: Between June 2020 and January 2021, 161 patients were enrolled (brensocatib: n = 80; placebo: n = 81). Neutrophil proteomics showed significant alterations in 15 proteins (false discovery rate-adjusted P < .01) including reductions in cathepsin G and the pseudoenzyme azurocidin-1 (Azu-1) (false discovery rate-adjusted P < .0001) by day 29. In serum, Azu-1 levels, but not total elastase or proteinase 3, were significantly reduced (P < .0001). Neutrophil surface expression of protease-cleavable C5aR1/CD88 was significantly increased by day 29 (P < .05). There were no differences in neutrophil extracellular traps, phagocytosis, circulating immune cell proportions, or gene expression between treatment groups. Conclusions: Brensocatib treatment in COVID-19 altered multiple neutrophil proteins including profound effects on Azu-1, identifying this as a key DPP-1 target and potentially highly sensitive biomarker of treatment efficacy.

KW - DPP-1

KW - Dipeptidyl peptidase-1

KW - azurocidin-1

KW - brensocatib

KW - cathepsin C

KW - heparin binding protein

KW - inflammation

KW - multi-omics

KW - neutrophil

KW - proteomics

U2 - 10.1016/j.jaci.2025.07.016

DO - 10.1016/j.jaci.2025.07.016

M3 - Article

C2 - 40780678

SN - 0091-6749

VL - 156

SP - 1356

EP - 1367

JO - Journal of Allergy and Clinical Immunology

JF - Journal of Allergy and Clinical Immunology

IS - 5

ER -

Investigating the impact of dipeptidyl peptidase-1 inhibition in humans using multi-omics

Abstract

Keywords

ASJC Scopus subject areas

Access to Document

Fingerprint

Equipment

Tayside Clinical Trials Unit

Cite this