Hydrogel scaffolds with elasticity-mimicking embryonic substrates promote cardiac cellular network formation.
Alginate
Cardiomyocytes
Cell viability
Elastic modulus
Scaffold stiffness
Journal
Progress in biomaterials
ISSN: 2194-0509
Titre abrégé: Prog Biomater
Pays: Germany
ID NLM: 101656983
Informations de publication
Date de publication:
Sep 2020
Sep 2020
Historique:
received:
22
06
2020
accepted:
17
09
2020
pubmed:
27
9
2020
medline:
27
9
2020
entrez:
26
9
2020
Statut:
ppublish
Résumé
Hydrogels are a class of biomaterials used for a wide range of biomedical applications, including as a three-dimensional (3D) scaffold for cell culture that mimics the extracellular matrix (ECM) of native tissues. To understand the role of the ECM in the modulation of cardiac cell function, alginate was used to fabricate crosslinked gels with stiffness values that resembled embryonic (2.66 ± 0.84 kPa), physiologic (8.98 ± 1.29 kPa) and fibrotic (18.27 ± 3.17 kPa) cardiac tissues. The average pore diameter and hydrogel swelling were seen to decrease with increasing substrate stiffness. Cardiomyocytes cultured within soft embryonic gels demonstrated enhanced cell spreading, elongation, and network formation, while a progressive increase in gel stiffness diminished these behaviors. Cell viability decreased with increasing hydrogel stiffness. Furthermore, cells in fibrotic gels showed enhanced protein expression of the characteristic cardiac stress biomarker, Troponin-I, while reduced protein expression of the cardiac gap junction protein, Connexin-43, in comparison to cells within embryonic gels. The results from this study demonstrate the role that 3D substrate stiffness has on cardiac tissue formation and its implications in the development of complex matrix remodeling-based conditions, such as myocardial fibrosis.
Identifiants
pubmed: 32978746
doi: 10.1007/s40204-020-00137-0
pii: 10.1007/s40204-020-00137-0
pmc: PMC7544760
doi:
Types de publication
Journal Article
Langues
eng
Pagination
125-137Subventions
Organisme : NHLBI NIH HHS
ID : SC2 HL134642
Pays : United States
Organisme : National Science Foundation
ID : DMR 1826268
Organisme : NHLBI NIH HHS
ID : 1SC2HL134642-01
Pays : United States
Organisme : National Science Foundation
ID : CBET 1927628
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