Phenotypic Reversion of Smooth Muscle Cells in Hybrid Vascular Prostheses

Our purpose was to evaluate whether or not and when phenotypic modulation of smooth muscle cells (SMCs) in hybrid vascular prostheses preincorporated with SMCs occurs upon implantation. Two types of hybrid vascular grafts incorporated with vascular cells derived from canine jugular veins were prepar...

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Main Authors: Keiichi Kanda, Hiromichi Miwa, Takehisa Matsuda
Format: Article
Language:English
Published: SAGE Publishing 1995-11-01
Series:Cell Transplantation
Online Access:https://doi.org/10.1177/096368979500400608
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spelling doaj-33e644053efe41d894ed7eec9d838da32020-11-25T02:22:15ZengSAGE PublishingCell Transplantation0963-68971555-38921995-11-01410.1177/096368979500400608Phenotypic Reversion of Smooth Muscle Cells in Hybrid Vascular ProsthesesKeiichi Kanda0Hiromichi Miwa1Takehisa Matsuda2Second Department of Surgery, Kyoto Prefectural University of Medicine, Kyoto, JapanSecond Department of Surgery, Shinshu University Medical School, Nagano, JapanDepartment of Bioengineering, National Cardiovascular Center Research Institute, Osaka, JapanOur purpose was to evaluate whether or not and when phenotypic modulation of smooth muscle cells (SMCs) in hybrid vascular prostheses preincorporated with SMCs occurs upon implantation. Two types of hybrid vascular grafts incorporated with vascular cells derived from canine jugular veins were prepared: grafts containing a collagen gel layer covered with an endothelial monolayer at the luminal surface (Model I graft) and those containing an endothelial monolayer and SMC multilayer (Model II graft). They were bilaterally implanted into carotid arteries of the same dogs from which the cells had been harvested for 2 wk (n = 3) and 12 wk (n = 3). The time-dependent changes in populations of three SMC phenotypes (synthetic, intermediate, and contractile) in the neoarterial layers were quantified by morphometric evaluation using a transmission electron microscope in hybrid vascular grafts. Before implantation, all the SMCs were of the synthetic phenotype. In Model II grafts at 2 wk, synthetic and intermediate SMCs were dominant especially in the luminal layer. On the other hand, neoarterial layers at 12 wk were dominated by contractile SMCs, which were evenly distributed throughout the entire neoarterial tissues. A markedly delayed phenotypic reversion was noted for the Model I grafts at 12 wk. In the hybrid grafts, during about 3 mo of implantation, neoarterial SMCs transformed from the synthetic to the contractile phenotypes, which was promoted by SMC incorporation.https://doi.org/10.1177/096368979500400608
collection DOAJ
language English
format Article
sources DOAJ
author Keiichi Kanda
Hiromichi Miwa
Takehisa Matsuda
spellingShingle Keiichi Kanda
Hiromichi Miwa
Takehisa Matsuda
Phenotypic Reversion of Smooth Muscle Cells in Hybrid Vascular Prostheses
Cell Transplantation
author_facet Keiichi Kanda
Hiromichi Miwa
Takehisa Matsuda
author_sort Keiichi Kanda
title Phenotypic Reversion of Smooth Muscle Cells in Hybrid Vascular Prostheses
title_short Phenotypic Reversion of Smooth Muscle Cells in Hybrid Vascular Prostheses
title_full Phenotypic Reversion of Smooth Muscle Cells in Hybrid Vascular Prostheses
title_fullStr Phenotypic Reversion of Smooth Muscle Cells in Hybrid Vascular Prostheses
title_full_unstemmed Phenotypic Reversion of Smooth Muscle Cells in Hybrid Vascular Prostheses
title_sort phenotypic reversion of smooth muscle cells in hybrid vascular prostheses
publisher SAGE Publishing
series Cell Transplantation
issn 0963-6897
1555-3892
publishDate 1995-11-01
description Our purpose was to evaluate whether or not and when phenotypic modulation of smooth muscle cells (SMCs) in hybrid vascular prostheses preincorporated with SMCs occurs upon implantation. Two types of hybrid vascular grafts incorporated with vascular cells derived from canine jugular veins were prepared: grafts containing a collagen gel layer covered with an endothelial monolayer at the luminal surface (Model I graft) and those containing an endothelial monolayer and SMC multilayer (Model II graft). They were bilaterally implanted into carotid arteries of the same dogs from which the cells had been harvested for 2 wk (n = 3) and 12 wk (n = 3). The time-dependent changes in populations of three SMC phenotypes (synthetic, intermediate, and contractile) in the neoarterial layers were quantified by morphometric evaluation using a transmission electron microscope in hybrid vascular grafts. Before implantation, all the SMCs were of the synthetic phenotype. In Model II grafts at 2 wk, synthetic and intermediate SMCs were dominant especially in the luminal layer. On the other hand, neoarterial layers at 12 wk were dominated by contractile SMCs, which were evenly distributed throughout the entire neoarterial tissues. A markedly delayed phenotypic reversion was noted for the Model I grafts at 12 wk. In the hybrid grafts, during about 3 mo of implantation, neoarterial SMCs transformed from the synthetic to the contractile phenotypes, which was promoted by SMC incorporation.
url https://doi.org/10.1177/096368979500400608
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AT hiromichimiwa phenotypicreversionofsmoothmusclecellsinhybridvascularprostheses
AT takehisamatsuda phenotypicreversionofsmoothmusclecellsinhybridvascularprostheses
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