The role of Src & ERK1/2 kinases in inspiratory resistive breathing induced acute lung injury and inflammation

The role of Src & ERK1/2 kinases in inspiratory resistive breathing induced acute lung injury and inflammation

Abstract Background Inspiratory resistive breathing (IRB), a hallmark of obstructive airway diseases, is associated with large negative intrathoracic pressures, due to strenuous contractions of the inspiratory muscles. IRB is shown to induce lung injury in previously healthy animals. Src is a multif...

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Main Authors: Dimitrios Toumpanakis, Vyronia Vassilakopoulou, Ioanna Sigala, Panagiotis Zacharatos, Ioanna Vraila, Vassiliki Karavana, Stamatios Theocharis, Theodoros Vassilakopoulos
Format: Article
Language:English
Published: BMC 2017-12-01
Series:Respiratory Research
Subjects:
Src
ERK1/2
Resistive breathing
Lung injury
Online Access:http://link.springer.com/article/10.1186/s12931-017-0694-7
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spelling doaj-f402bfe8dede4eecadaf787a885620e42020-11-25T01:31:59ZengBMCRespiratory Research1465-993X2017-12-0118111310.1186/s12931-017-0694-7The role of Src & ERK1/2 kinases in inspiratory resistive breathing induced acute lung injury and inflammationDimitrios Toumpanakis0Vyronia Vassilakopoulou1Ioanna Sigala2Panagiotis Zacharatos3Ioanna Vraila4Vassiliki Karavana5Stamatios Theocharis6Theodoros Vassilakopoulos71st Department of Critical Care and Pulmonary Medicine and “Marianthi Simou” Applied Biomedical Research and Training Center, Medical School, University of Athens1st Department of Critical Care and Pulmonary Medicine and “Marianthi Simou” Applied Biomedical Research and Training Center, Medical School, University of Athens1st Department of Critical Care and Pulmonary Medicine and “Marianthi Simou” Applied Biomedical Research and Training Center, Medical School, University of Athens1st Department of Critical Care and Pulmonary Medicine and “Marianthi Simou” Applied Biomedical Research and Training Center, Medical School, University of Athens1st Department of Critical Care and Pulmonary Medicine and “Marianthi Simou” Applied Biomedical Research and Training Center, Medical School, University of Athens1st Department of Critical Care and Pulmonary Medicine and “Marianthi Simou” Applied Biomedical Research and Training Center, Medical School, University of AthensDepartment of Pathology, Medical School, University of Athens1st Department of Critical Care and Pulmonary Medicine and “Marianthi Simou” Applied Biomedical Research and Training Center, Medical School, University of AthensAbstract Background Inspiratory resistive breathing (IRB), a hallmark of obstructive airway diseases, is associated with large negative intrathoracic pressures, due to strenuous contractions of the inspiratory muscles. IRB is shown to induce lung injury in previously healthy animals. Src is a multifunctional kinase that is activated in the lung by mechanical stress. ERK1/2 kinase is a downstream target of Src. We hypothesized that Src is activated in the lung during IRB, mediates ERK1/2 activation and IRB-induced lung injury. Methods Anaesthetized, tracheostomized adult rats breathed spontaneously through a 2-way non-rebreathing valve. Resistance was added to the inspiratory port to provide a peak tidal inspiratory pressure of 50% of maximum (inspiratory resistive breathing). Activation of Src and ERK1/2 in the lung was estimated during IRB. Following 6 h of IRB, respiratory system mechanics were measured by the forced oscillation technique and bronchoalveolar lavage (BAL) was performed to measure total and differential cell count and total protein levels. IL-1b and MIP-2a protein levels were measured in lung tissue samples. Wet lung weight to total body weight was measured and Evans blue dye extravasation was estimated to measure lung permeability. Lung injury was evaluated by histology. The Src inhibitor, PP-2 or the inhibitor of ERK1/2 activation, PD98059 was administrated 30 min prior to IRB. Results Src kinase was activated 30 min after the initiation of IRB. Src inhibition ameliorated the increase in BAL cellularity after 6 h IRB, but not the increase of IL-1β and MIP-2a in the lung. The increase in BAL total protein and lung injury score were not affected. The increase in tissue elasticity was partly inhibited. Src inhibition blocked ERK1/2 activation at 3 but not at 6 h of IRB. ERK1/2 inhibition ameliorated the increase in BAL cellularity after 6 h of IRB, blocked the increase of IL-1β and returned Evans blue extravasation and wet lung weight to control values. BAL total protein and the increase in elasticity were partially affected. ERK1/2 inhibition did not significantly change total lung injury score compared to 6 h IRB. Conclusions Src and ERK1/2 are activated in the lung following IRB and participate in IRB-induced lung injury.http://link.springer.com/article/10.1186/s12931-017-0694-7SrcERK1/2Resistive breathingLung injury
collection DOAJ
language English
format Article
sources DOAJ
author Dimitrios Toumpanakis
Vyronia Vassilakopoulou
Ioanna Sigala
Panagiotis Zacharatos
Ioanna Vraila
Vassiliki Karavana
Stamatios Theocharis
Theodoros Vassilakopoulos
spellingShingle Dimitrios Toumpanakis
Vyronia Vassilakopoulou
Ioanna Sigala
Panagiotis Zacharatos
Ioanna Vraila
Vassiliki Karavana
Stamatios Theocharis
Theodoros Vassilakopoulos
The role of Src & ERK1/2 kinases in inspiratory resistive breathing induced acute lung injury and inflammation
Respiratory Research
Src
ERK1/2
Resistive breathing
Lung injury
author_facet Dimitrios Toumpanakis
Vyronia Vassilakopoulou
Ioanna Sigala
Panagiotis Zacharatos
Ioanna Vraila
Vassiliki Karavana
Stamatios Theocharis
Theodoros Vassilakopoulos
author_sort Dimitrios Toumpanakis
title The role of Src & ERK1/2 kinases in inspiratory resistive breathing induced acute lung injury and inflammation
title_short The role of Src & ERK1/2 kinases in inspiratory resistive breathing induced acute lung injury and inflammation
title_full The role of Src & ERK1/2 kinases in inspiratory resistive breathing induced acute lung injury and inflammation
title_fullStr The role of Src & ERK1/2 kinases in inspiratory resistive breathing induced acute lung injury and inflammation
title_full_unstemmed The role of Src & ERK1/2 kinases in inspiratory resistive breathing induced acute lung injury and inflammation
title_sort role of src & erk1/2 kinases in inspiratory resistive breathing induced acute lung injury and inflammation
publisher BMC
series Respiratory Research
issn 1465-993X
publishDate 2017-12-01
description Abstract Background Inspiratory resistive breathing (IRB), a hallmark of obstructive airway diseases, is associated with large negative intrathoracic pressures, due to strenuous contractions of the inspiratory muscles. IRB is shown to induce lung injury in previously healthy animals. Src is a multifunctional kinase that is activated in the lung by mechanical stress. ERK1/2 kinase is a downstream target of Src. We hypothesized that Src is activated in the lung during IRB, mediates ERK1/2 activation and IRB-induced lung injury. Methods Anaesthetized, tracheostomized adult rats breathed spontaneously through a 2-way non-rebreathing valve. Resistance was added to the inspiratory port to provide a peak tidal inspiratory pressure of 50% of maximum (inspiratory resistive breathing). Activation of Src and ERK1/2 in the lung was estimated during IRB. Following 6 h of IRB, respiratory system mechanics were measured by the forced oscillation technique and bronchoalveolar lavage (BAL) was performed to measure total and differential cell count and total protein levels. IL-1b and MIP-2a protein levels were measured in lung tissue samples. Wet lung weight to total body weight was measured and Evans blue dye extravasation was estimated to measure lung permeability. Lung injury was evaluated by histology. The Src inhibitor, PP-2 or the inhibitor of ERK1/2 activation, PD98059 was administrated 30 min prior to IRB. Results Src kinase was activated 30 min after the initiation of IRB. Src inhibition ameliorated the increase in BAL cellularity after 6 h IRB, but not the increase of IL-1β and MIP-2a in the lung. The increase in BAL total protein and lung injury score were not affected. The increase in tissue elasticity was partly inhibited. Src inhibition blocked ERK1/2 activation at 3 but not at 6 h of IRB. ERK1/2 inhibition ameliorated the increase in BAL cellularity after 6 h of IRB, blocked the increase of IL-1β and returned Evans blue extravasation and wet lung weight to control values. BAL total protein and the increase in elasticity were partially affected. ERK1/2 inhibition did not significantly change total lung injury score compared to 6 h IRB. Conclusions Src and ERK1/2 are activated in the lung following IRB and participate in IRB-induced lung injury.
topic Src
ERK1/2
Resistive breathing
Lung injury
url http://link.springer.com/article/10.1186/s12931-017-0694-7
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