Highly Efficient Cardiac Differentiation and Maintenance by Thrombin-Coagulated Fibrin Hydrogels Enriched with Decellularized Porcine Heart Extracellular Matrix

Biochemical and biophysical properties instruct cardiac tissue morphogenesis. Here, we are reporting on a blend of cardiac decellularized extracellular matrix (dECM) from porcine ventricular tissue and fibrinogen that is suitable for investigations employing an in vitro 3D cardiac cell culture model...

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Published in:	International journal of molecular sciences Vol. 24; no. 3; p. 2842
Main Authors:	Navaee, Fatemeh, Renaud, Philippe, Kleger, Alexander, Braschler, Thomas
Format:	Journal Article
Language:	English
Published:	Switzerland MDPI AG 02.02.2023 MDPI
Subjects:	Animals Cardiomyocytes Cell Differentiation Collagen Collagen - analysis Extracellular matrix Extracellular Matrix - chemistry Fibrin - analysis Heart attacks Hydrogels Hydrogels - analysis Mechanical properties Myocytes, Cardiac Rats Stem cells Swine Thrombin Tissue Engineering - methods Tissue Scaffolds H9c2 cell differentiation beating synchrony neonatal cardiomyocyte culture 3D co-culture dECM-fibrin hydrogel
ISSN:	1422-0067, 1661-6596, 1422-0067
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Abstract	Biochemical and biophysical properties instruct cardiac tissue morphogenesis. Here, we are reporting on a blend of cardiac decellularized extracellular matrix (dECM) from porcine ventricular tissue and fibrinogen that is suitable for investigations employing an in vitro 3D cardiac cell culture model. Rapid and specific coagulation with thrombin facilitates the gentle inclusion of cells while avoiding sedimentation during formation of the dECM-fibrin composite. Our investigations revealed enhanced cardiogenic differentiation in the H9c2 myoblast cells when using the system in a co-culture with Nor-10 fibroblasts. Further enhancement of differentiation efficiency was achieved by 3D embedding of rat neonatal cardiomyocytes in the 3D system. Calcium imaging and analysis of beating motion both indicate that the dECM-fibrin composite significantly enhances recovery, frequency, synchrony, and the maintenance of spontaneous beating, as compared to various controls including Matrigel, pure fibrin and collagen I as well as a fibrin-collagen I blend.
AbstractList	Biochemical and biophysical properties instruct cardiac tissue morphogenesis. Here, we are reporting on a blend of cardiac decellularized extracellular matrix (dECM) from porcine ventricular tissue and fibrinogen that is suitable for investigations employing an in vitro 3D cardiac cell culture model. Rapid and specific coagulation with thrombin facilitates the gentle inclusion of cells while avoiding sedimentation during formation of the dECM-fibrin composite. Our investigations revealed enhanced cardiogenic differentiation in the H9c2 myoblast cells when using the system in a co-culture with Nor-10 fibroblasts. Further enhancement of differentiation efficiency was achieved by 3D embedding of rat neonatal cardiomyocytes in the 3D system. Calcium imaging and analysis of beating motion both indicate that the dECM-fibrin composite significantly enhances recovery, frequency, synchrony, and the maintenance of spontaneous beating, as compared to various controls including Matrigel, pure fibrin and collagen I as well as a fibrin-collagen I blend. Biochemical and biophysical properties instruct cardiac tissue morphogenesis. Here, we are reporting on a blend of cardiac decellularized extracellular matrix (dECM) from porcine ventricular tissue and fibrinogen that is suitable for investigations employing an in vitro 3D cardiac cell culture model. Rapid and specific coagulation with thrombin facilitates the gentle inclusion of cells while avoiding sedimentation during formation of the dECM-fibrin composite. Our investigations revealed enhanced cardiogenic differentiation in the H9c2 myoblast cells when using the system in a co-culture with Nor-10 fibroblasts. Further enhancement of differentiation efficiency was achieved by 3D embedding of rat neonatal cardiomyocytes in the 3D system. Calcium imaging and analysis of beating motion both indicate that the dECM-fibrin composite significantly enhances recovery, frequency, synchrony, and the maintenance of spontaneous beating, as compared to various controls including Matrigel, pure fibrin and collagen I as well as a fibrin-collagen I blend.Biochemical and biophysical properties instruct cardiac tissue morphogenesis. Here, we are reporting on a blend of cardiac decellularized extracellular matrix (dECM) from porcine ventricular tissue and fibrinogen that is suitable for investigations employing an in vitro 3D cardiac cell culture model. Rapid and specific coagulation with thrombin facilitates the gentle inclusion of cells while avoiding sedimentation during formation of the dECM-fibrin composite. Our investigations revealed enhanced cardiogenic differentiation in the H9c2 myoblast cells when using the system in a co-culture with Nor-10 fibroblasts. Further enhancement of differentiation efficiency was achieved by 3D embedding of rat neonatal cardiomyocytes in the 3D system. Calcium imaging and analysis of beating motion both indicate that the dECM-fibrin composite significantly enhances recovery, frequency, synchrony, and the maintenance of spontaneous beating, as compared to various controls including Matrigel, pure fibrin and collagen I as well as a fibrin-collagen I blend.
Author	Navaee, Fatemeh Braschler, Thomas Kleger, Alexander Renaud, Philippe
AuthorAffiliation	3 Institute of Molecular Oncology and Stem Cell Biology, Ulm University Hospital, 89081 Ulm, Germany 5 Organoid Core Facility, Medical Faculty, Ulm University Hospital, 89081 Ulm, Germany 2 Department of Pathology and Immunology, Faculty of Medicine, CMU, 1211 Geneva, Switzerland 1 Microsystems Laboratory-LMIS4, EPFL, 1015 Lausanne, Switzerland 4 Interdisciplinary Pancreatology, Department of Internal Medicine 1, Ulm University Hospital, 89081 Ulm, Germany
AuthorAffiliation_xml	– name: 1 Microsystems Laboratory-LMIS4, EPFL, 1015 Lausanne, Switzerland – name: 4 Interdisciplinary Pancreatology, Department of Internal Medicine 1, Ulm University Hospital, 89081 Ulm, Germany – name: 5 Organoid Core Facility, Medical Faculty, Ulm University Hospital, 89081 Ulm, Germany – name: 2 Department of Pathology and Immunology, Faculty of Medicine, CMU, 1211 Geneva, Switzerland – name: 3 Institute of Molecular Oncology and Stem Cell Biology, Ulm University Hospital, 89081 Ulm, Germany
Author_xml	– sequence: 1 givenname: Fatemeh surname: Navaee fullname: Navaee, Fatemeh – sequence: 2 givenname: Philippe surname: Renaud fullname: Renaud, Philippe – sequence: 3 givenname: Alexander orcidid: 0000-0003-0592-5232 surname: Kleger fullname: Kleger, Alexander – sequence: 4 givenname: Thomas surname: Braschler fullname: Braschler, Thomas
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Keywords	H9c2 cell differentiation beating synchrony neonatal cardiomyocyte culture 3D co-culture dECM-fibrin hydrogel
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Snippet	Biochemical and biophysical properties instruct cardiac tissue morphogenesis. Here, we are reporting on a blend of cardiac decellularized extracellular matrix...
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SubjectTerms	Animals Cardiomyocytes Cell Differentiation Collagen Collagen - analysis Extracellular matrix Extracellular Matrix - chemistry Fibrin - analysis Heart attacks Hydrogels Hydrogels - analysis Mechanical properties Myocytes, Cardiac Rats Stem cells Swine Thrombin Tissue Engineering - methods Tissue Scaffolds
Title	Highly Efficient Cardiac Differentiation and Maintenance by Thrombin-Coagulated Fibrin Hydrogels Enriched with Decellularized Porcine Heart Extracellular Matrix
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