The Role of Tenascin C in Cardiac Reverse Remodeling Following Banding–Debanding of the Ascending Aorta

The Role of Tenascin C in Cardiac Reverse Remodeling Following Banding–Debanding of the Ascending Aorta

Background: Tenascin-C (TN-C) plays a maladaptive role in left ventricular (LV) hypertrophy following pressure overload. However, the role of TN-C in LV regression following mechanical unloading is unknown. Methods: LV hypertrophy was induced by transverse aortic constriction for 10 weeks followed b...

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Main Authors: Mireia Perera-Gonzalez, Attila Kiss, Philipp Kaiser, Michael Holzweber, Felix Nagel, Simon Watzinger, Eylem Acar, Petra Lujza Szabo, Inês Fonseca Gonçalves, Lukas Weber, Patrick Michael Pilz, Lubos Budinsky, Thomas Helbich, Bruno Karl Podesser
Format: Article
Language:English
Published: MDPI AG 2021-02-01
Series:International Journal of Molecular Sciences
Subjects:
reverse remodeling
tenascin c
angiotensin-converting enzyme
cardiac magnetic resonance imaging
Online Access:https://www.mdpi.com/1422-0067/22/4/2023
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spelling doaj-9208a47c91874cf8bf88dc0b78f44ddc2021-02-19T00:05:16ZengMDPI AGInternational Journal of Molecular Sciences1661-65961422-00672021-02-01222023202310.3390/ijms22042023The Role of Tenascin C in Cardiac Reverse Remodeling Following Banding–Debanding of the Ascending AortaMireia Perera-Gonzalez0Attila Kiss1Philipp Kaiser2Michael Holzweber3Felix Nagel4Simon Watzinger5Eylem Acar6Petra Lujza Szabo7Inês Fonseca Gonçalves8Lukas Weber9Patrick Michael Pilz10Lubos Budinsky11Thomas Helbich12Bruno Karl Podesser13Ludwig Boltzmann Institute for Cardiovascular Research at the Center for Biomedical Research, Medical University of Vienna, 1090 Vienna, AustriaLudwig Boltzmann Institute for Cardiovascular Research at the Center for Biomedical Research, Medical University of Vienna, 1090 Vienna, AustriaLudwig Boltzmann Institute for Cardiovascular Research at the Center for Biomedical Research, Medical University of Vienna, 1090 Vienna, AustriaLudwig Boltzmann Institute for Cardiovascular Research at the Center for Biomedical Research, Medical University of Vienna, 1090 Vienna, AustriaLudwig Boltzmann Institute for Cardiovascular Research at the Center for Biomedical Research, Medical University of Vienna, 1090 Vienna, AustriaLudwig Boltzmann Institute for Cardiovascular Research at the Center for Biomedical Research, Medical University of Vienna, 1090 Vienna, AustriaLudwig Boltzmann Institute for Cardiovascular Research at the Center for Biomedical Research, Medical University of Vienna, 1090 Vienna, AustriaLudwig Boltzmann Institute for Cardiovascular Research at the Center for Biomedical Research, Medical University of Vienna, 1090 Vienna, AustriaLudwig Boltzmann Institute for Cardiovascular Research at the Center for Biomedical Research, Medical University of Vienna, 1090 Vienna, AustriaLudwig Boltzmann Institute for Cardiovascular Research at the Center for Biomedical Research, Medical University of Vienna, 1090 Vienna, AustriaLudwig Boltzmann Institute for Cardiovascular Research at the Center for Biomedical Research, Medical University of Vienna, 1090 Vienna, AustriaPreclinical Imaging Lab at the Center of Biomedical Research, Department of Radiology, Medical University of Vienna, Vienna 1090, AustriaPreclinical Imaging Lab at the Center of Biomedical Research, Department of Radiology, Medical University of Vienna, Vienna 1090, AustriaLudwig Boltzmann Institute for Cardiovascular Research at the Center for Biomedical Research, Medical University of Vienna, 1090 Vienna, AustriaBackground: Tenascin-C (TN-C) plays a maladaptive role in left ventricular (LV) hypertrophy following pressure overload. However, the role of TN-C in LV regression following mechanical unloading is unknown. Methods: LV hypertrophy was induced by transverse aortic constriction for 10 weeks followed by debanding for 2 weeks in wild type (Wt) and TN-C knockout (TN-C KO) mice. Cardiac function was assessed by serial magnetic resonance imaging. The expression of fibrotic markers and drivers (angiotensin-converting enzyme-1, ACE-1) was determined in LV tissue as well as human cardiac fibroblasts (HCFs) after TN-C treatment. Results: Chronic pressure overload resulted in a significant decline in cardiac function associated with LV dilation as well as upregulation of TN-C, collagen 1 (Col 1), and ACE-1 in Wt as compared to TN-C KO mice. Reverse remodeling in Wt mice partially improved cardiac function and fibrotic marker expression; however, TN-C protein expression remained unchanged. In HCF, TN-C strongly induced the upregulation of ACE 1 and Col 1. Conclusions: Pressure overload, when lasting long enough to induce HF, has less potential for reverse remodeling in mice. This may be due to significant upregulation of TN-C expression, which stimulates ACE 1, Col 1, and alpha-smooth muscle actin (α-SMA) upregulation in fibroblasts. Consequently, addressing TN-C in LV hypertrophy might open a new window for future therapeutics.https://www.mdpi.com/1422-0067/22/4/2023reverse remodelingtenascin cangiotensin-converting enzymecardiac magnetic resonance imaging
collection DOAJ
language English
format Article
sources DOAJ
author Mireia Perera-Gonzalez
Attila Kiss
Philipp Kaiser
Michael Holzweber
Felix Nagel
Simon Watzinger
Eylem Acar
Petra Lujza Szabo
Inês Fonseca Gonçalves
Lukas Weber
Patrick Michael Pilz
Lubos Budinsky
Thomas Helbich
Bruno Karl Podesser
spellingShingle Mireia Perera-Gonzalez
Attila Kiss
Philipp Kaiser
Michael Holzweber
Felix Nagel
Simon Watzinger
Eylem Acar
Petra Lujza Szabo
Inês Fonseca Gonçalves
Lukas Weber
Patrick Michael Pilz
Lubos Budinsky
Thomas Helbich
Bruno Karl Podesser
The Role of Tenascin C in Cardiac Reverse Remodeling Following Banding–Debanding of the Ascending Aorta
International Journal of Molecular Sciences
reverse remodeling
tenascin c
angiotensin-converting enzyme
cardiac magnetic resonance imaging
author_facet Mireia Perera-Gonzalez
Attila Kiss
Philipp Kaiser
Michael Holzweber
Felix Nagel
Simon Watzinger
Eylem Acar
Petra Lujza Szabo
Inês Fonseca Gonçalves
Lukas Weber
Patrick Michael Pilz
Lubos Budinsky
Thomas Helbich
Bruno Karl Podesser
author_sort Mireia Perera-Gonzalez
title The Role of Tenascin C in Cardiac Reverse Remodeling Following Banding–Debanding of the Ascending Aorta
title_short The Role of Tenascin C in Cardiac Reverse Remodeling Following Banding–Debanding of the Ascending Aorta
title_full The Role of Tenascin C in Cardiac Reverse Remodeling Following Banding–Debanding of the Ascending Aorta
title_fullStr The Role of Tenascin C in Cardiac Reverse Remodeling Following Banding–Debanding of the Ascending Aorta
title_full_unstemmed The Role of Tenascin C in Cardiac Reverse Remodeling Following Banding–Debanding of the Ascending Aorta
title_sort role of tenascin c in cardiac reverse remodeling following banding–debanding of the ascending aorta
publisher MDPI AG
series International Journal of Molecular Sciences
issn 1661-6596
1422-0067
publishDate 2021-02-01
description Background: Tenascin-C (TN-C) plays a maladaptive role in left ventricular (LV) hypertrophy following pressure overload. However, the role of TN-C in LV regression following mechanical unloading is unknown. Methods: LV hypertrophy was induced by transverse aortic constriction for 10 weeks followed by debanding for 2 weeks in wild type (Wt) and TN-C knockout (TN-C KO) mice. Cardiac function was assessed by serial magnetic resonance imaging. The expression of fibrotic markers and drivers (angiotensin-converting enzyme-1, ACE-1) was determined in LV tissue as well as human cardiac fibroblasts (HCFs) after TN-C treatment. Results: Chronic pressure overload resulted in a significant decline in cardiac function associated with LV dilation as well as upregulation of TN-C, collagen 1 (Col 1), and ACE-1 in Wt as compared to TN-C KO mice. Reverse remodeling in Wt mice partially improved cardiac function and fibrotic marker expression; however, TN-C protein expression remained unchanged. In HCF, TN-C strongly induced the upregulation of ACE 1 and Col 1. Conclusions: Pressure overload, when lasting long enough to induce HF, has less potential for reverse remodeling in mice. This may be due to significant upregulation of TN-C expression, which stimulates ACE 1, Col 1, and alpha-smooth muscle actin (α-SMA) upregulation in fibroblasts. Consequently, addressing TN-C in LV hypertrophy might open a new window for future therapeutics.
topic reverse remodeling
tenascin c
angiotensin-converting enzyme
cardiac magnetic resonance imaging
url https://www.mdpi.com/1422-0067/22/4/2023
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