An inherent dysfunction in soluble guanylyl cyclase is present in the airway of severe asthmatics and is associated with aberrant redox enzyme expression and compromised NO-cGMP signaling

An inherent dysfunction in soluble guanylyl cyclase is present in the airway of severe asthmatics and is associated with aberrant redox enzyme expression and compromised NO-cGMP signaling

A subset of asthmatics develop a severe form of the disease whose etiology involves airway inflammation along with inherent drivers that remain ill-defined. To address this, we studied human airway smooth muscle cells (HASMC), whose relaxation drives airway bronchodilation and whose dysfunction cont...

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Main Authors: Arnab Ghosh, Cynthia J. Koziol-White, William F. Jester, Jr., Serpil C. Erzurum, Kewal Asosingh, Reynold A. Panettieri, Jr., Dennis J. Stuehr
Format: Article
Language:English
Published: Elsevier 2021-02-01
Series:Redox Biology
Subjects:
Inflammation
Cell Signaling
Online Access:http://www.sciencedirect.com/science/article/pii/S2213231720310375
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spelling doaj-3e525f3ec97847acbb2342c6e3054d202021-01-14T04:17:14ZengElsevierRedox Biology2213-23172021-02-0139101832An inherent dysfunction in soluble guanylyl cyclase is present in the airway of severe asthmatics and is associated with aberrant redox enzyme expression and compromised NO-cGMP signalingArnab Ghosh0Cynthia J. Koziol-White1William F. Jester, Jr.2Serpil C. Erzurum3Kewal Asosingh4Reynold A. Panettieri, Jr.5Dennis J. Stuehr6Department of Inflammation and Immunity, Lerner Research Institute, The Cleveland Clinic, Cleveland, OH, 44195, USA; Corresponding author. Department of Inflammation and Immunity/NC22, Lerner Research Institute, The Cleveland Clinic, 9500 Euclid Ave., Cleveland, OH, 44195, USA.Rutgers Institute for Translational Medicine and Science, Rutgers University, New Brunswick, NJ, 08901, USARutgers Institute for Translational Medicine and Science, Rutgers University, New Brunswick, NJ, 08901, USADepartment of Inflammation and Immunity, Lerner Research Institute, The Cleveland Clinic, Cleveland, OH, 44195, USADepartment of Inflammation and Immunity, Lerner Research Institute, The Cleveland Clinic, Cleveland, OH, 44195, USARutgers Institute for Translational Medicine and Science, Rutgers University, New Brunswick, NJ, 08901, USADepartment of Inflammation and Immunity, Lerner Research Institute, The Cleveland Clinic, Cleveland, OH, 44195, USA; Corresponding author. Department of Inflammation and Immunity/NC22, Lerner Research Institute, The Cleveland Clinic, 9500 Euclid Ave, Cleveland, OH, 44195, USA.A subset of asthmatics develop a severe form of the disease whose etiology involves airway inflammation along with inherent drivers that remain ill-defined. To address this, we studied human airway smooth muscle cells (HASMC), whose relaxation drives airway bronchodilation and whose dysfunction contributes to airway obstruction and hypersensitivity in severe asthma. Because HASMC relaxation can be driven by the NO-soluble guanylyl cyclase (sGC)-cGMP signaling pathway, we questioned if HASMC from severe asthma donors might possess inherent defects in their sGC or in redox enzymes that support sGC function. We analyzed HASMC primary lines derived from 17 severe asthma and 16 normal donors and corresponding lung tissue samples regarding sGC activation by NO or by pharmacologic agonists, and also determined expression levels of sGC α1 and β1 subunits, supporting redox enzymes, and related proteins. We found a majority of the severe asthma donor HASMC (12/17) and lung samples primarily expressed a dysfunctional sGC that was NO-unresponsive and had low heterodimer content and high Hsp90 association. This sGC phenotype correlated with lower expression levels of the supporting redox enzymes cytochrome b5 reductase, catalase, and thioredoxin-1, and higher expression of heme oxygenases 1 and 2. Together, our work reveals that severe asthmatics are predisposed toward defective NO-sGC-cGMP signaling in their airway smooth muscle due to an inherent sGC dysfunction, which in turn is associated with inherent changes in the cell redox enzymes that impact sGC maturation and function.http://www.sciencedirect.com/science/article/pii/S2213231720310375InflammationCell Signaling
collection DOAJ
language English
format Article
sources DOAJ
author Arnab Ghosh
Cynthia J. Koziol-White
William F. Jester, Jr.
Serpil C. Erzurum
Kewal Asosingh
Reynold A. Panettieri, Jr.
Dennis J. Stuehr
spellingShingle Arnab Ghosh
Cynthia J. Koziol-White
William F. Jester, Jr.
Serpil C. Erzurum
Kewal Asosingh
Reynold A. Panettieri, Jr.
Dennis J. Stuehr
An inherent dysfunction in soluble guanylyl cyclase is present in the airway of severe asthmatics and is associated with aberrant redox enzyme expression and compromised NO-cGMP signaling
Redox Biology
Inflammation
Cell Signaling
author_facet Arnab Ghosh
Cynthia J. Koziol-White
William F. Jester, Jr.
Serpil C. Erzurum
Kewal Asosingh
Reynold A. Panettieri, Jr.
Dennis J. Stuehr
author_sort Arnab Ghosh
title An inherent dysfunction in soluble guanylyl cyclase is present in the airway of severe asthmatics and is associated with aberrant redox enzyme expression and compromised NO-cGMP signaling
title_short An inherent dysfunction in soluble guanylyl cyclase is present in the airway of severe asthmatics and is associated with aberrant redox enzyme expression and compromised NO-cGMP signaling
title_full An inherent dysfunction in soluble guanylyl cyclase is present in the airway of severe asthmatics and is associated with aberrant redox enzyme expression and compromised NO-cGMP signaling
title_fullStr An inherent dysfunction in soluble guanylyl cyclase is present in the airway of severe asthmatics and is associated with aberrant redox enzyme expression and compromised NO-cGMP signaling
title_full_unstemmed An inherent dysfunction in soluble guanylyl cyclase is present in the airway of severe asthmatics and is associated with aberrant redox enzyme expression and compromised NO-cGMP signaling
title_sort inherent dysfunction in soluble guanylyl cyclase is present in the airway of severe asthmatics and is associated with aberrant redox enzyme expression and compromised no-cgmp signaling
publisher Elsevier
series Redox Biology
issn 2213-2317
publishDate 2021-02-01
description A subset of asthmatics develop a severe form of the disease whose etiology involves airway inflammation along with inherent drivers that remain ill-defined. To address this, we studied human airway smooth muscle cells (HASMC), whose relaxation drives airway bronchodilation and whose dysfunction contributes to airway obstruction and hypersensitivity in severe asthma. Because HASMC relaxation can be driven by the NO-soluble guanylyl cyclase (sGC)-cGMP signaling pathway, we questioned if HASMC from severe asthma donors might possess inherent defects in their sGC or in redox enzymes that support sGC function. We analyzed HASMC primary lines derived from 17 severe asthma and 16 normal donors and corresponding lung tissue samples regarding sGC activation by NO or by pharmacologic agonists, and also determined expression levels of sGC α1 and β1 subunits, supporting redox enzymes, and related proteins. We found a majority of the severe asthma donor HASMC (12/17) and lung samples primarily expressed a dysfunctional sGC that was NO-unresponsive and had low heterodimer content and high Hsp90 association. This sGC phenotype correlated with lower expression levels of the supporting redox enzymes cytochrome b5 reductase, catalase, and thioredoxin-1, and higher expression of heme oxygenases 1 and 2. Together, our work reveals that severe asthmatics are predisposed toward defective NO-sGC-cGMP signaling in their airway smooth muscle due to an inherent sGC dysfunction, which in turn is associated with inherent changes in the cell redox enzymes that impact sGC maturation and function.
topic Inflammation
Cell Signaling
url http://www.sciencedirect.com/science/article/pii/S2213231720310375
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