Knockout of CD8 delays reendothelialization and accelerates neointima formation in injured arteries of mouse via TNF-α inhibiting the endothelial cells migration.

Knockout of CD8 delays reendothelialization and accelerates neointima formation in injured arteries of mouse via TNF-α inhibiting the endothelial cells migration.

OBJECTIVE: Delayed or impaired reendothelialization is a major cause of stent thrombosis in the interventional treatment of coronary heart disease. T cells are involved in neointima formation of injured arteries. However, the regulated mechanism of reendothelialization and the role of CD8 T cell in...

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Main Authors: Jun-Meng Zhang, Ying Wang, Yan-Ju Miao, Yi Zhang, Yi-Na Wu, Li-Xin Jia, Yong-Fen Qi, Jie Du
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2013-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3642119?pdf=render
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spelling doaj-598c4c17c0464b1889ef0febb77d45302020-11-25T02:15:30ZengPublic Library of Science (PLoS)PLoS ONE1932-62032013-01-0185e6200110.1371/journal.pone.0062001Knockout of CD8 delays reendothelialization and accelerates neointima formation in injured arteries of mouse via TNF-α inhibiting the endothelial cells migration.Jun-Meng ZhangYing WangYan-Ju MiaoYi ZhangYi-Na WuLi-Xin JiaYong-Fen QiJie DuOBJECTIVE: Delayed or impaired reendothelialization is a major cause of stent thrombosis in the interventional treatment of coronary heart disease. T cells are involved in neointima formation of injured arteries. However, the regulated mechanism of reendothelialization and the role of CD8 T cell in reendothelialization are unclear. METHODS AND RESULTS: Immunofluorescence staining showed that CD8 positive cells were increased in wire injured femoral artery of mice. On day 21 after injury, elastin staining showed that knockout of CD8 (CD8(-/-)) significantly increased intimal thickness and a ratio of intima to media by 1.8 folds and 1.9 folds respectively in injured arteries. Evans blue staining showed that knockout of CD8 delayed the reendothelialization area on day 7 after injury (18.8±0.5% versus 42.1±5.6%, p<0.05). In vitro, a migration assay revealed that CD8(-/-) T cells co-cultured with WT macrophages significantly inhibited the migration of the endothelial cells (ECs); compared to CD4(+) T cells, and CD8(+) T cells could promote the ECs migration. Furthermore, real-time PCR analysis showed that knockout of CD8 increased the level of tumor necrosis factor α (TNF-α) in injured arteries and cytometric bead cytokine array showed that TNF-α was elevated in cultured CD8(-/-) T cells. Finally, a wound-healing assay showed that recombinant TNF-α significantly inhibited the migration of ECs. CONCLUSION: Our study suggested that CD8(+) T cells could promote the reendothelialization and inhibit the neointima formation after the artery wire injury, and this effect is at least partly dependent on decreasing TNF-α production promoting ECs migration.http://europepmc.org/articles/PMC3642119?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Jun-Meng Zhang
Ying Wang
Yan-Ju Miao
Yi Zhang
Yi-Na Wu
Li-Xin Jia
Yong-Fen Qi
Jie Du
spellingShingle Jun-Meng Zhang
Ying Wang
Yan-Ju Miao
Yi Zhang
Yi-Na Wu
Li-Xin Jia
Yong-Fen Qi
Jie Du
Knockout of CD8 delays reendothelialization and accelerates neointima formation in injured arteries of mouse via TNF-α inhibiting the endothelial cells migration.
PLoS ONE
author_facet Jun-Meng Zhang
Ying Wang
Yan-Ju Miao
Yi Zhang
Yi-Na Wu
Li-Xin Jia
Yong-Fen Qi
Jie Du
author_sort Jun-Meng Zhang
title Knockout of CD8 delays reendothelialization and accelerates neointima formation in injured arteries of mouse via TNF-α inhibiting the endothelial cells migration.
title_short Knockout of CD8 delays reendothelialization and accelerates neointima formation in injured arteries of mouse via TNF-α inhibiting the endothelial cells migration.
title_full Knockout of CD8 delays reendothelialization and accelerates neointima formation in injured arteries of mouse via TNF-α inhibiting the endothelial cells migration.
title_fullStr Knockout of CD8 delays reendothelialization and accelerates neointima formation in injured arteries of mouse via TNF-α inhibiting the endothelial cells migration.
title_full_unstemmed Knockout of CD8 delays reendothelialization and accelerates neointima formation in injured arteries of mouse via TNF-α inhibiting the endothelial cells migration.
title_sort knockout of cd8 delays reendothelialization and accelerates neointima formation in injured arteries of mouse via tnf-α inhibiting the endothelial cells migration.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2013-01-01
description OBJECTIVE: Delayed or impaired reendothelialization is a major cause of stent thrombosis in the interventional treatment of coronary heart disease. T cells are involved in neointima formation of injured arteries. However, the regulated mechanism of reendothelialization and the role of CD8 T cell in reendothelialization are unclear. METHODS AND RESULTS: Immunofluorescence staining showed that CD8 positive cells were increased in wire injured femoral artery of mice. On day 21 after injury, elastin staining showed that knockout of CD8 (CD8(-/-)) significantly increased intimal thickness and a ratio of intima to media by 1.8 folds and 1.9 folds respectively in injured arteries. Evans blue staining showed that knockout of CD8 delayed the reendothelialization area on day 7 after injury (18.8±0.5% versus 42.1±5.6%, p<0.05). In vitro, a migration assay revealed that CD8(-/-) T cells co-cultured with WT macrophages significantly inhibited the migration of the endothelial cells (ECs); compared to CD4(+) T cells, and CD8(+) T cells could promote the ECs migration. Furthermore, real-time PCR analysis showed that knockout of CD8 increased the level of tumor necrosis factor α (TNF-α) in injured arteries and cytometric bead cytokine array showed that TNF-α was elevated in cultured CD8(-/-) T cells. Finally, a wound-healing assay showed that recombinant TNF-α significantly inhibited the migration of ECs. CONCLUSION: Our study suggested that CD8(+) T cells could promote the reendothelialization and inhibit the neointima formation after the artery wire injury, and this effect is at least partly dependent on decreasing TNF-α production promoting ECs migration.
url http://europepmc.org/articles/PMC3642119?pdf=render
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AT yingwang knockoutofcd8delaysreendothelializationandacceleratesneointimaformationininjuredarteriesofmouseviatnfainhibitingtheendothelialcellsmigration
AT yanjumiao knockoutofcd8delaysreendothelializationandacceleratesneointimaformationininjuredarteriesofmouseviatnfainhibitingtheendothelialcellsmigration
AT yizhang knockoutofcd8delaysreendothelializationandacceleratesneointimaformationininjuredarteriesofmouseviatnfainhibitingtheendothelialcellsmigration
AT yinawu knockoutofcd8delaysreendothelializationandacceleratesneointimaformationininjuredarteriesofmouseviatnfainhibitingtheendothelialcellsmigration
AT lixinjia knockoutofcd8delaysreendothelializationandacceleratesneointimaformationininjuredarteriesofmouseviatnfainhibitingtheendothelialcellsmigration
AT yongfenqi knockoutofcd8delaysreendothelializationandacceleratesneointimaformationininjuredarteriesofmouseviatnfainhibitingtheendothelialcellsmigration
AT jiedu knockoutofcd8delaysreendothelializationandacceleratesneointimaformationininjuredarteriesofmouseviatnfainhibitingtheendothelialcellsmigration
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