Harvesting prevascularized smooth muscle cell sheets from common polystyrene culture dishes.

Harvesting prevascularized smooth muscle cell sheets from common polystyrene culture dishes.

Cell sheet engineering has recently emerged as a promising strategy for scaffold-free tissue engineering. However, the primary method of harvesting cell sheets using temperature-responsive dishes has potential limitations. Here we report a novel cell sheet technology based on a coculture system in w...

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Main Authors: Zhiming Jia, Hailin Guo, Hua Xie, Xingqi Bao, Yichen Huang, Ganggang Yang, Fang Chen
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2018-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC6157888?pdf=render
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spelling doaj-11f1fcba5aa24487a7fd3ba1b7e2e9f12020-11-24T22:04:58ZengPublic Library of Science (PLoS)PLoS ONE1932-62032018-01-01139e020467710.1371/journal.pone.0204677Harvesting prevascularized smooth muscle cell sheets from common polystyrene culture dishes.Zhiming JiaHailin GuoHua XieXingqi BaoYichen HuangGanggang YangFang ChenCell sheet engineering has recently emerged as a promising strategy for scaffold-free tissue engineering. However, the primary method of harvesting cell sheets using temperature-responsive dishes has potential limitations. Here we report a novel cell sheet technology based on a coculture system in which SMCs are cocultured with EPCs on common polystyrene dishes. We found that an intact and highly viable cell sheet could be harvested using mechanical methods when SMCs and EPCs were cocultured on common polystyrene dishes at a ratio of 6:1 for 5 to 6 days; the method is simple, cost-effective and highly repeatable. Moreover, the cocultured cell sheet contained capillary-like networks and could secrete a variety of angiogenic factors. Finally, in vivo studies proved that the cocultured cell sheets were more favorable for the fabrication of vascularized smooth muscle tissues compared to single SMC sheets. This study provides a promising avenue for smooth muscle tissue engineering.http://europepmc.org/articles/PMC6157888?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Zhiming Jia
Hailin Guo
Hua Xie
Xingqi Bao
Yichen Huang
Ganggang Yang
Fang Chen
spellingShingle Zhiming Jia
Hailin Guo
Hua Xie
Xingqi Bao
Yichen Huang
Ganggang Yang
Fang Chen
Harvesting prevascularized smooth muscle cell sheets from common polystyrene culture dishes.
PLoS ONE
author_facet Zhiming Jia
Hailin Guo
Hua Xie
Xingqi Bao
Yichen Huang
Ganggang Yang
Fang Chen
author_sort Zhiming Jia
title Harvesting prevascularized smooth muscle cell sheets from common polystyrene culture dishes.
title_short Harvesting prevascularized smooth muscle cell sheets from common polystyrene culture dishes.
title_full Harvesting prevascularized smooth muscle cell sheets from common polystyrene culture dishes.
title_fullStr Harvesting prevascularized smooth muscle cell sheets from common polystyrene culture dishes.
title_full_unstemmed Harvesting prevascularized smooth muscle cell sheets from common polystyrene culture dishes.
title_sort harvesting prevascularized smooth muscle cell sheets from common polystyrene culture dishes.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2018-01-01
description Cell sheet engineering has recently emerged as a promising strategy for scaffold-free tissue engineering. However, the primary method of harvesting cell sheets using temperature-responsive dishes has potential limitations. Here we report a novel cell sheet technology based on a coculture system in which SMCs are cocultured with EPCs on common polystyrene dishes. We found that an intact and highly viable cell sheet could be harvested using mechanical methods when SMCs and EPCs were cocultured on common polystyrene dishes at a ratio of 6:1 for 5 to 6 days; the method is simple, cost-effective and highly repeatable. Moreover, the cocultured cell sheet contained capillary-like networks and could secrete a variety of angiogenic factors. Finally, in vivo studies proved that the cocultured cell sheets were more favorable for the fabrication of vascularized smooth muscle tissues compared to single SMC sheets. This study provides a promising avenue for smooth muscle tissue engineering.
url http://europepmc.org/articles/PMC6157888?pdf=render
work_keys_str_mv AT zhimingjia harvestingprevascularizedsmoothmusclecellsheetsfromcommonpolystyreneculturedishes
AT hailinguo harvestingprevascularizedsmoothmusclecellsheetsfromcommonpolystyreneculturedishes
AT huaxie harvestingprevascularizedsmoothmusclecellsheetsfromcommonpolystyreneculturedishes
AT xingqibao harvestingprevascularizedsmoothmusclecellsheetsfromcommonpolystyreneculturedishes
AT yichenhuang harvestingprevascularizedsmoothmusclecellsheetsfromcommonpolystyreneculturedishes
AT ganggangyang harvestingprevascularizedsmoothmusclecellsheetsfromcommonpolystyreneculturedishes
AT fangchen harvestingprevascularizedsmoothmusclecellsheetsfromcommonpolystyreneculturedishes
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