Modeling atrial fibrosis in vitro—Generation and characterization of a novel human atrial fibroblast cell line

Modeling atrial fibrosis in vitro—Generation and characterization of a novel human atrial fibroblast cell line

Atrial fibrillation (AF) is regularly accompanied by cardiac fibrosis and concomitant heart failure. Due to the heterogeneous nature and complexity of fibrosis, the knowledge about the underlying mechanisms is limited, which prevents effective pharmacotherapy. A deeper understanding of cardiac fibro...

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Main Authors: Stephan R. Künzel, Johanna S. E. Rausch, Charlotte Schäffer, Maximilian Hoffmann, Karolina Künzel, Erik Klapproth, Theresa Kant, Natalie Herzog, Jan‐Heiner Küpper, Kristina Lorenz, Svenja Dudek, Ramona Emig, Ursula Ravens, Eva A. Rog‐Zielinska, Rémi Peyronnet, Ali El‐Armouche
Format: Article
Language:English
Published: Wiley 2020-07-01
Series:FEBS Open Bio
Subjects:
cardiovascular disease
cell culture
cell lines
fibroblasts
fibrosis
heart
Online Access:https://doi.org/10.1002/2211-5463.12896
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spelling doaj-12b9c704df7c46728a2977c9005cd5a52020-11-25T02:06:35ZengWileyFEBS Open Bio2211-54632020-07-011071210121810.1002/2211-5463.12896Modeling atrial fibrosis in vitro—Generation and characterization of a novel human atrial fibroblast cell lineStephan R. Künzel0Johanna S. E. Rausch1Charlotte Schäffer2Maximilian Hoffmann3Karolina Künzel4Erik Klapproth5Theresa Kant6Natalie Herzog7Jan‐Heiner Küpper8Kristina Lorenz9Svenja Dudek10Ramona Emig11Ursula Ravens12Eva A. Rog‐Zielinska13Rémi Peyronnet14Ali El‐Armouche15Institute of Pharmacology and Toxicology Faculty of Medicine Carl Gustav Carus Technische Universität Dresden Dresden GermanyInstitute of Pharmacology and Toxicology Faculty of Medicine Carl Gustav Carus Technische Universität Dresden Dresden GermanyInstitute of Pharmacology and Toxicology Faculty of Medicine Carl Gustav Carus Technische Universität Dresden Dresden GermanyInstitute of Pharmacology and Toxicology Faculty of Medicine Carl Gustav Carus Technische Universität Dresden Dresden GermanyInstitute of Pharmacology and Toxicology Faculty of Medicine Carl Gustav Carus Technische Universität Dresden Dresden GermanyInstitute of Pharmacology and Toxicology Faculty of Medicine Carl Gustav Carus Technische Universität Dresden Dresden GermanyInstitute of Pharmacology and Toxicology Faculty of Medicine Carl Gustav Carus Technische Universität Dresden Dresden GermanyInstitute of Biotechnology Brandenburg University of Technology Cottbus‐Senftenberg Senftenberg GermanyInstitute of Biotechnology Brandenburg University of Technology Cottbus‐Senftenberg Senftenberg GermanyInstitute of Pharmacology and Toxicology University of Würzburg Würzburg GermanyInstitut für Experimentelle Kardiovaskuläre Medizin Universitäts Herzzentrum, Freiburg Bad ‐ Krozingen Freiburg im Breisgau GermanyInstitut für Experimentelle Kardiovaskuläre Medizin Universitäts Herzzentrum, Freiburg Bad ‐ Krozingen Freiburg im Breisgau GermanyInstitut für Experimentelle Kardiovaskuläre Medizin Universitäts Herzzentrum, Freiburg Bad ‐ Krozingen Freiburg im Breisgau GermanyInstitut für Experimentelle Kardiovaskuläre Medizin Universitäts Herzzentrum, Freiburg Bad ‐ Krozingen Freiburg im Breisgau GermanyInstitut für Experimentelle Kardiovaskuläre Medizin Universitäts Herzzentrum, Freiburg Bad ‐ Krozingen Freiburg im Breisgau GermanyInstitute of Pharmacology and Toxicology Faculty of Medicine Carl Gustav Carus Technische Universität Dresden Dresden GermanyAtrial fibrillation (AF) is regularly accompanied by cardiac fibrosis and concomitant heart failure. Due to the heterogeneous nature and complexity of fibrosis, the knowledge about the underlying mechanisms is limited, which prevents effective pharmacotherapy. A deeper understanding of cardiac fibroblasts is essential to meet this need. We previously described phenotypic and functional differences between atrial fibroblasts from patients in sinus rhythm and with AF. Herein, we established and characterized a novel human atrial fibroblast line, which displays typical fibroblast morphology and function comparable to primary cells but with improved proliferation capacity and low spontaneous myofibroblast differentiation. These traits make our model suitable for the study of fibrosis mechanisms and for drug screening aimed at developing effective antifibrotic pharmacotherapy.https://doi.org/10.1002/2211-5463.12896cardiovascular diseasecell culturecell linesfibroblastsfibrosisheart
collection DOAJ
language English
format Article
sources DOAJ
author Stephan R. Künzel
Johanna S. E. Rausch
Charlotte Schäffer
Maximilian Hoffmann
Karolina Künzel
Erik Klapproth
Theresa Kant
Natalie Herzog
Jan‐Heiner Küpper
Kristina Lorenz
Svenja Dudek
Ramona Emig
Ursula Ravens
Eva A. Rog‐Zielinska
Rémi Peyronnet
Ali El‐Armouche
spellingShingle Stephan R. Künzel
Johanna S. E. Rausch
Charlotte Schäffer
Maximilian Hoffmann
Karolina Künzel
Erik Klapproth
Theresa Kant
Natalie Herzog
Jan‐Heiner Küpper
Kristina Lorenz
Svenja Dudek
Ramona Emig
Ursula Ravens
Eva A. Rog‐Zielinska
Rémi Peyronnet
Ali El‐Armouche
Modeling atrial fibrosis in vitro—Generation and characterization of a novel human atrial fibroblast cell line
FEBS Open Bio
cardiovascular disease
cell culture
cell lines
fibroblasts
fibrosis
heart
author_facet Stephan R. Künzel
Johanna S. E. Rausch
Charlotte Schäffer
Maximilian Hoffmann
Karolina Künzel
Erik Klapproth
Theresa Kant
Natalie Herzog
Jan‐Heiner Küpper
Kristina Lorenz
Svenja Dudek
Ramona Emig
Ursula Ravens
Eva A. Rog‐Zielinska
Rémi Peyronnet
Ali El‐Armouche
author_sort Stephan R. Künzel
title Modeling atrial fibrosis in vitro—Generation and characterization of a novel human atrial fibroblast cell line
title_short Modeling atrial fibrosis in vitro—Generation and characterization of a novel human atrial fibroblast cell line
title_full Modeling atrial fibrosis in vitro—Generation and characterization of a novel human atrial fibroblast cell line
title_fullStr Modeling atrial fibrosis in vitro—Generation and characterization of a novel human atrial fibroblast cell line
title_full_unstemmed Modeling atrial fibrosis in vitro—Generation and characterization of a novel human atrial fibroblast cell line
title_sort modeling atrial fibrosis in vitro—generation and characterization of a novel human atrial fibroblast cell line
publisher Wiley
series FEBS Open Bio
issn 2211-5463
publishDate 2020-07-01
description Atrial fibrillation (AF) is regularly accompanied by cardiac fibrosis and concomitant heart failure. Due to the heterogeneous nature and complexity of fibrosis, the knowledge about the underlying mechanisms is limited, which prevents effective pharmacotherapy. A deeper understanding of cardiac fibroblasts is essential to meet this need. We previously described phenotypic and functional differences between atrial fibroblasts from patients in sinus rhythm and with AF. Herein, we established and characterized a novel human atrial fibroblast line, which displays typical fibroblast morphology and function comparable to primary cells but with improved proliferation capacity and low spontaneous myofibroblast differentiation. These traits make our model suitable for the study of fibrosis mechanisms and for drug screening aimed at developing effective antifibrotic pharmacotherapy.
topic cardiovascular disease
cell culture
cell lines
fibroblasts
fibrosis
heart
url https://doi.org/10.1002/2211-5463.12896
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