Interventional low‐dose azithromycin attenuates cigarette smoke‐induced emphysema and lung inflammation in mice

Interventional low‐dose azithromycin attenuates cigarette smoke‐induced emphysema and lung inflammation in mice

Abstract Cigarette smoke (CS)‐induced emphysema is an important contributor to chronic obstructive pulmonary disease (COPD). We have shown the efficacy of azithromycin in reducing airway inflammation in COPD and in reducing exacerbations in severe asthma; however, the effects of long‐term azithromyc...

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Main Authors: Matthew G. Macowan, Hong Liu, Marianne D. Keller, Miranda Ween, Rhys Hamon, Hai B. Tran, Sandra Hodge
Format: Article
Language:English
Published: Wiley 2020-07-01
Series:Physiological Reports
Subjects:
chronic obstructive pulmonary disease
COPD
emphysema
in vivo imaging
magnetic resonance imaging
micro‐CT
Online Access:https://doi.org/10.14814/phy2.14419
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spelling doaj-33abb8dcb3f140a9b97d86d9bcca32742020-11-25T03:21:23ZengWileyPhysiological Reports2051-817X2020-07-01813n/an/a10.14814/phy2.14419Interventional low‐dose azithromycin attenuates cigarette smoke‐induced emphysema and lung inflammation in miceMatthew G. Macowan0Hong Liu1Marianne D. Keller2Miranda Ween3Rhys Hamon4Hai B. Tran5Sandra Hodge6Department of Thoracic Medicine Royal Adelaide Hospital Adelaide SA AustraliaDepartment of Thoracic Medicine Royal Adelaide Hospital Adelaide SA AustraliaPreclinical, Imaging and Research Laboratories (PIRL) South Australian Health and Medical Research Institute (SAHMRI) Adelaide SA AustraliaDepartment of Thoracic Medicine Royal Adelaide Hospital Adelaide SA AustraliaDepartment of Thoracic Medicine Royal Adelaide Hospital Adelaide SA AustraliaDepartment of Thoracic Medicine Royal Adelaide Hospital Adelaide SA AustraliaAdelaide Medical School University of Adelaide Adelaide SA AustraliaAbstract Cigarette smoke (CS)‐induced emphysema is an important contributor to chronic obstructive pulmonary disease (COPD). We have shown the efficacy of azithromycin in reducing airway inflammation in COPD and in reducing exacerbations in severe asthma; however, the effects of long‐term azithromycin on emphysema development have not been shown. We employed live animal imaging to monitor emphysema‐like development and the effects of interventional azithromycin treatment in CS‐exposed mice. BALB/c mice (female, 10 weeks; n = 10) were exposed to CS for 1 hr twice daily, 5 days/week, and for 12 weeks (CS). Half were cotreated with low‐dose azithromycin during weeks 7–12 (CS + Azi; 0.2 mg kg−1 day−1). Microcomputed tomography (CT) and magnetic resonance imaging (MRI) scans were acquired longitudinally. Histological examinations were performed post mortem (mean linear intercept (Lm) and leukocyte infiltration). CS increased median Lm (CS: 42.45 µm versus control: 34.7 µm; p = .0317), this was recovered in CS + Azi mice (33.03 µm). Average CT values were reduced in CS mice (CS: −399.5 Hounsfield units (HU) versus control: −384.9 HU; p = .0286) but not in CS + Azi mice (−377.3 HU). CT values negatively correlated with Lm (r = −.7972; p = .0029) and T2‐weighted MRI (r = −.6434; p = .0278). MRI also showed significant CS‐induced inflammatory changes that were attenuated by azithromycin in the lungs, and positively correlated with Lm (r = .7622; p = .0055) and inflammatory foci counts (r = .6503; p = .0257). Monitoring of emphysema development is possible via micro‐CT and MRI. Interventional azithromycin treatment in CS‐exposed mice attenuated the development of pulmonary emphysema‐like changes.https://doi.org/10.14814/phy2.14419chronic obstructive pulmonary diseaseCOPDemphysemain vivo imagingmagnetic resonance imagingmicro‐CT
collection DOAJ
language English
format Article
sources DOAJ
author Matthew G. Macowan
Hong Liu
Marianne D. Keller
Miranda Ween
Rhys Hamon
Hai B. Tran
Sandra Hodge
spellingShingle Matthew G. Macowan
Hong Liu
Marianne D. Keller
Miranda Ween
Rhys Hamon
Hai B. Tran
Sandra Hodge
Interventional low‐dose azithromycin attenuates cigarette smoke‐induced emphysema and lung inflammation in mice
Physiological Reports
chronic obstructive pulmonary disease
COPD
emphysema
in vivo imaging
magnetic resonance imaging
micro‐CT
author_facet Matthew G. Macowan
Hong Liu
Marianne D. Keller
Miranda Ween
Rhys Hamon
Hai B. Tran
Sandra Hodge
author_sort Matthew G. Macowan
title Interventional low‐dose azithromycin attenuates cigarette smoke‐induced emphysema and lung inflammation in mice
title_short Interventional low‐dose azithromycin attenuates cigarette smoke‐induced emphysema and lung inflammation in mice
title_full Interventional low‐dose azithromycin attenuates cigarette smoke‐induced emphysema and lung inflammation in mice
title_fullStr Interventional low‐dose azithromycin attenuates cigarette smoke‐induced emphysema and lung inflammation in mice
title_full_unstemmed Interventional low‐dose azithromycin attenuates cigarette smoke‐induced emphysema and lung inflammation in mice
title_sort interventional low‐dose azithromycin attenuates cigarette smoke‐induced emphysema and lung inflammation in mice
publisher Wiley
series Physiological Reports
issn 2051-817X
publishDate 2020-07-01
description Abstract Cigarette smoke (CS)‐induced emphysema is an important contributor to chronic obstructive pulmonary disease (COPD). We have shown the efficacy of azithromycin in reducing airway inflammation in COPD and in reducing exacerbations in severe asthma; however, the effects of long‐term azithromycin on emphysema development have not been shown. We employed live animal imaging to monitor emphysema‐like development and the effects of interventional azithromycin treatment in CS‐exposed mice. BALB/c mice (female, 10 weeks; n = 10) were exposed to CS for 1 hr twice daily, 5 days/week, and for 12 weeks (CS). Half were cotreated with low‐dose azithromycin during weeks 7–12 (CS + Azi; 0.2 mg kg−1 day−1). Microcomputed tomography (CT) and magnetic resonance imaging (MRI) scans were acquired longitudinally. Histological examinations were performed post mortem (mean linear intercept (Lm) and leukocyte infiltration). CS increased median Lm (CS: 42.45 µm versus control: 34.7 µm; p = .0317), this was recovered in CS + Azi mice (33.03 µm). Average CT values were reduced in CS mice (CS: −399.5 Hounsfield units (HU) versus control: −384.9 HU; p = .0286) but not in CS + Azi mice (−377.3 HU). CT values negatively correlated with Lm (r = −.7972; p = .0029) and T2‐weighted MRI (r = −.6434; p = .0278). MRI also showed significant CS‐induced inflammatory changes that were attenuated by azithromycin in the lungs, and positively correlated with Lm (r = .7622; p = .0055) and inflammatory foci counts (r = .6503; p = .0257). Monitoring of emphysema development is possible via micro‐CT and MRI. Interventional azithromycin treatment in CS‐exposed mice attenuated the development of pulmonary emphysema‐like changes.
topic chronic obstructive pulmonary disease
COPD
emphysema
in vivo imaging
magnetic resonance imaging
micro‐CT
url https://doi.org/10.14814/phy2.14419
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