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Exercise training induces a shift in extracellular redox status with alterations in the pulmonary and systemic redox landscape in asthma

Exercise training induces a shift in extracellular redox status with alterations in the pulmonary and systemic redox landscape in asthma
Exercise training induces a shift in extracellular redox status with alterations in the pulmonary and systemic redox landscape in asthma

Redox dysregulation and oxidative stress have been implicated in asthma pathogenesis. Exercise interventions improve symptoms and reduce inflammation in asthma patients, but the underlying mechanisms remain unclear. We hypothesized that a personalised exercise intervention would improve asthma control by reducing lung inflammation through modulation of local and systemic reactive species interactions, thereby increasing antioxidant capacity. We combined deep redox metabolomic profiling with clinical assessment in an exploratory cohort of six female patients with symptomatic asthma and studied their responses to a metabolically targeted exercise intervention over 12 weeks. Plasma antioxidant capacity and circulating nitrite levels increased following the intervention (p = 0.028) and lowered the ratio of reduced to oxidised glutathione (p = 0.029); this was accompanied by improvements in physical fitness (p = 0.046), symptoms scores (p = 0.020), quality of life (p = 0.046), lung function (p = 0.028), airway hyperreactivity (p = 0.043), and eosinophilic inflammation (p = 0.007). Increased physical fitness correlated with improved plasma antioxidant capacity (p = 0.019), peak oxygen uptake and nitrite changes (p = 0.005), the latter also associated with reductions in peripheral blood eosinophil counts (p = 0.038). Thus, increases in “redox resilience” may underpin the clinical benefits of exercise in asthma. An improved understanding of exercise-induced alterations in redox regulation offers opportunities for greater treatment personalisation and identification of new treatment targets.

Asthma, Exercise, Inflammation, Oxidative stress, Reactive species interactome
2076-3921
Freeman, Anna
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Cellura, Doriana
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Minnion, Magdalena
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Fernandez, Bernadette
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Spalluto, C. Mirella
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Levett, Denny
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Bates, Andrew
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Wallis, Timothy
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Watson, Alastair
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Jack, Sandra
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Staples, Karl J.
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Grocott, Mike P.
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Feelisch, Martin
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Wilkinson, Tom M.A.
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Freeman, Anna
b5f45a0d-f9e4-4a91-9af0-40efb6730787
Cellura, Doriana
e4cffc4c-0e12-40e7-ad13-e90e3fb55332
Minnion, Magdalena
ab23b32b-9f8e-4876-aaf5-99cb6a725a2f
Fernandez, Bernadette
9890aabc-1fe6-4530-a51e-31182e537131
Spalluto, C. Mirella
6802ad50-bc38-404f-9a19-40916425183b
Levett, Denny
1743763a-2853-4baf-affe-6152fde8d05f
Bates, Andrew
46ff2189-9345-45bb-bb83-c90971ccccb4
Wallis, Timothy
cf385c2a-ef94-4435-8066-31acf23f6f99
Watson, Alastair
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Jack, Sandra
a175e649-83e1-4a76-8f11-ab37ffd954ea
Staples, Karl J.
e0e9d80f-0aed-435f-bd75-0c8818491fee
Grocott, Mike P.
1e87b741-513e-4a22-be13-0f7bb344e8c2
Feelisch, Martin
8c1b9965-8614-4e85-b2c6-458a2e17eafd
Wilkinson, Tom M.A.
8c55ebbb-e547-445c-95a1-c8bed02dd652

Freeman, Anna, Cellura, Doriana, Minnion, Magdalena, Fernandez, Bernadette, Spalluto, C. Mirella, Levett, Denny, Bates, Andrew, Wallis, Timothy, Watson, Alastair, Jack, Sandra, Staples, Karl J., Grocott, Mike P., Feelisch, Martin and Wilkinson, Tom M.A. (2021) Exercise training induces a shift in extracellular redox status with alterations in the pulmonary and systemic redox landscape in asthma. Antioxidants, 10 (12), [1926]. (doi:10.3390/antiox10121926).

Record type: Article

Abstract

Redox dysregulation and oxidative stress have been implicated in asthma pathogenesis. Exercise interventions improve symptoms and reduce inflammation in asthma patients, but the underlying mechanisms remain unclear. We hypothesized that a personalised exercise intervention would improve asthma control by reducing lung inflammation through modulation of local and systemic reactive species interactions, thereby increasing antioxidant capacity. We combined deep redox metabolomic profiling with clinical assessment in an exploratory cohort of six female patients with symptomatic asthma and studied their responses to a metabolically targeted exercise intervention over 12 weeks. Plasma antioxidant capacity and circulating nitrite levels increased following the intervention (p = 0.028) and lowered the ratio of reduced to oxidised glutathione (p = 0.029); this was accompanied by improvements in physical fitness (p = 0.046), symptoms scores (p = 0.020), quality of life (p = 0.046), lung function (p = 0.028), airway hyperreactivity (p = 0.043), and eosinophilic inflammation (p = 0.007). Increased physical fitness correlated with improved plasma antioxidant capacity (p = 0.019), peak oxygen uptake and nitrite changes (p = 0.005), the latter also associated with reductions in peripheral blood eosinophil counts (p = 0.038). Thus, increases in “redox resilience” may underpin the clinical benefits of exercise in asthma. An improved understanding of exercise-induced alterations in redox regulation offers opportunities for greater treatment personalisation and identification of new treatment targets.

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Freeman et al 2021 Antioxidants - Version of Record
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Accepted/In Press date: 25 November 2021
Published date: 30 November 2021
Additional Information: Funding Information: The authors acknowledge support from the Southampton Centre for Biomedical Research (SCBR) Mass Spectrometry Unit and the Faculty of Medicine at the University of Southampton, as well as the NIHR Southampton Biomedical Research Centre for their support of the project and provision of the clinical phenotyping and exercise physiology laboratories. This research and publication received no additional external funding. We thank Monika Mikus?Lelinska for skilful technical assistance. Publisher Copyright: © 2021 by the authors. Licensee MDPI, Basel, Switzerland. Copyright: Copyright 2021 Elsevier B.V., All rights reserved.
Keywords: Asthma, Exercise, Inflammation, Oxidative stress, Reactive species interactome
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Identifiers

Local EPrints ID: 452779
URI: http://eprints.soton.ac.uk/id/eprint/452779
DOI: doi:10.3390/antiox10121926
ISSN: 2076-3921
PURE UUID: 1753f578-e5a0-4980-a167-0b870e585c6c
ORCID for Anna Freeman: ORCID iD orcid.org/0000-0003-3495-2520
ORCID for Bernadette Fernandez: ORCID iD orcid.org/0000-0001-6337-0381
ORCID for C. Mirella Spalluto: ORCID iD orcid.org/0000-0001-7273-0844
ORCID for Andrew Bates: ORCID iD orcid.org/0000-0002-3614-0270
ORCID for Timothy Wallis: ORCID iD orcid.org/0000-0001-7936-9764
ORCID for Karl J. Staples: ORCID iD orcid.org/0000-0003-3844-6457
ORCID for Mike P. Grocott: ORCID iD orcid.org/0000-0002-9484-7581
ORCID for Martin Feelisch: ORCID iD orcid.org/0000-0003-2320-1158

Catalogue record

Date deposited: 20 Dec 2021 17:35
Last modified: 17 Mar 2024 04:12

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Contributors

Author: Anna Freeman ORCID iD
Author: Doriana Cellura
Author: Magdalena Minnion
Author: Bernadette Fernandez ORCID iD
Author: C. Mirella Spalluto ORCID iD
Author: Denny Levett
Author: Andrew Bates ORCID iD
Author: Timothy Wallis ORCID iD
Author: Alastair Watson
Author: Sandra Jack
Author: Karl J. Staples ORCID iD
Author: Mike P. Grocott ORCID iD
Author: Martin Feelisch ORCID iD
Author: Tom M.A. Wilkinson

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