The spatiotemporal development of intercalated disk in three-dimensional engineered heart tissues based on collagen/matrigel matrix.

The spatiotemporal development of intercalated disk in three-dimensional engineered heart tissues based on collagen/matrigel matrix.

Intercalated disk (ID), which electromechanically couples cardiomyocytes into a functional syncitium, is closely related to normal morphology and function of engineered heart tissues (EHTs), but the development mode of ID in the three-dimensional (3D) EHTs is still unclear. In this study, we focused...

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Main Authors: Jin Zhou, Yao Shu, Shuang-Hong Lü, Jun-Jie Li, Hong-Yu Sun, Rong-Yu Tang, Cui-Mi Duan, Yan Wang, Qiu-Xia Lin, Yong-Chao Mou, Xia Li, Chang-Yong Wang
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2013-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3829928?pdf=render
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spelling doaj-a0f51cf983d447538d8ac1d946afc4922020-11-25T01:56:02ZengPublic Library of Science (PLoS)PLoS ONE1932-62032013-01-01811e8142010.1371/journal.pone.0081420The spatiotemporal development of intercalated disk in three-dimensional engineered heart tissues based on collagen/matrigel matrix.Jin ZhouYao ShuShuang-Hong LüJun-Jie LiHong-Yu SunRong-Yu TangCui-Mi DuanYan WangQiu-Xia LinYong-Chao MouXia LiChang-Yong WangIntercalated disk (ID), which electromechanically couples cardiomyocytes into a functional syncitium, is closely related to normal morphology and function of engineered heart tissues (EHTs), but the development mode of ID in the three-dimensional (3D) EHTs is still unclear. In this study, we focused on the spatiotemporal development of the ID in the EHTs constructed by mixing neonatal rat cardiomyocytes with collagen/Matrigel, and investigated the effect of 3D microenvironment provided by collagen/Matrigel matrix on the formation of ID. By histological and immmunofluorescent staining, the spatiotemporal distribution of ID-related junctions was detected. Furthermore, the ultra-structures of the ID in different developmental stages were observed under transmission electron microscope. In addition, the expression of the related proteins was quantitatively analyzed. The results indicate that accompanying the re-organization of cardiomyocytes in collagen/Matrigel matrix, the proteins of adherens junctions, desmosomes and gap junctions redistributed from diffused distribution to intercellular regions to form an integrated ID. The adherens junction and desmosome which are related with mechanical connection appeared earlier than gap junction which is essential for electrochemical coupling. These findings suggest that the 3D microenvironment based on collagen/Matrigel matrix could support the ordered assembly of the ID in EHTs and have implications for comprehending the ordered and coordinated development of ID during the functional organization of EHTs.http://europepmc.org/articles/PMC3829928?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Jin Zhou
Yao Shu
Shuang-Hong Lü
Jun-Jie Li
Hong-Yu Sun
Rong-Yu Tang
Cui-Mi Duan
Yan Wang
Qiu-Xia Lin
Yong-Chao Mou
Xia Li
Chang-Yong Wang
spellingShingle Jin Zhou
Yao Shu
Shuang-Hong Lü
Jun-Jie Li
Hong-Yu Sun
Rong-Yu Tang
Cui-Mi Duan
Yan Wang
Qiu-Xia Lin
Yong-Chao Mou
Xia Li
Chang-Yong Wang
The spatiotemporal development of intercalated disk in three-dimensional engineered heart tissues based on collagen/matrigel matrix.
PLoS ONE
author_facet Jin Zhou
Yao Shu
Shuang-Hong Lü
Jun-Jie Li
Hong-Yu Sun
Rong-Yu Tang
Cui-Mi Duan
Yan Wang
Qiu-Xia Lin
Yong-Chao Mou
Xia Li
Chang-Yong Wang
author_sort Jin Zhou
title The spatiotemporal development of intercalated disk in three-dimensional engineered heart tissues based on collagen/matrigel matrix.
title_short The spatiotemporal development of intercalated disk in three-dimensional engineered heart tissues based on collagen/matrigel matrix.
title_full The spatiotemporal development of intercalated disk in three-dimensional engineered heart tissues based on collagen/matrigel matrix.
title_fullStr The spatiotemporal development of intercalated disk in three-dimensional engineered heart tissues based on collagen/matrigel matrix.
title_full_unstemmed The spatiotemporal development of intercalated disk in three-dimensional engineered heart tissues based on collagen/matrigel matrix.
title_sort spatiotemporal development of intercalated disk in three-dimensional engineered heart tissues based on collagen/matrigel matrix.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2013-01-01
description Intercalated disk (ID), which electromechanically couples cardiomyocytes into a functional syncitium, is closely related to normal morphology and function of engineered heart tissues (EHTs), but the development mode of ID in the three-dimensional (3D) EHTs is still unclear. In this study, we focused on the spatiotemporal development of the ID in the EHTs constructed by mixing neonatal rat cardiomyocytes with collagen/Matrigel, and investigated the effect of 3D microenvironment provided by collagen/Matrigel matrix on the formation of ID. By histological and immmunofluorescent staining, the spatiotemporal distribution of ID-related junctions was detected. Furthermore, the ultra-structures of the ID in different developmental stages were observed under transmission electron microscope. In addition, the expression of the related proteins was quantitatively analyzed. The results indicate that accompanying the re-organization of cardiomyocytes in collagen/Matrigel matrix, the proteins of adherens junctions, desmosomes and gap junctions redistributed from diffused distribution to intercellular regions to form an integrated ID. The adherens junction and desmosome which are related with mechanical connection appeared earlier than gap junction which is essential for electrochemical coupling. These findings suggest that the 3D microenvironment based on collagen/Matrigel matrix could support the ordered assembly of the ID in EHTs and have implications for comprehending the ordered and coordinated development of ID during the functional organization of EHTs.
url http://europepmc.org/articles/PMC3829928?pdf=render
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