AKT/FOXO1 axis links cross-talking of endothelial cell and pericyte in TIE2-mutated venous malformations

AKT/FOXO1 axis links cross-talking of endothelial cell and pericyte in TIE2-mutated venous malformations

Abstract Background Venous malformations (VMs), most of which associated with activating mutations in the endothelial cells (ECs) tyrosine kinase receptor TIE2, are characterized by dilated and immature veins with scarce smooth muscle cells (SMCs) coverage. However, the underlying mechanism of inter...

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Main Authors: Yameng Si, Jiadong Huang, Xiang Li, Yu Fu, Rongyao Xu, Yifei Du, Jie Cheng, Hongbing Jiang
Format: Article
Language:English
Published: BMC 2020-08-01
Series:Cell Communication and Signaling
Subjects:
Venous malformation
AKT
FOXO1
Endothelial cells
Smooth muscle cells
TIE2-L914F
Online Access:http://link.springer.com/article/10.1186/s12964-020-00606-w
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spelling doaj-28fea17104ed4cb3b3b59389c8912ab42020-11-25T03:04:35ZengBMCCell Communication and Signaling1478-811X2020-08-0118111310.1186/s12964-020-00606-wAKT/FOXO1 axis links cross-talking of endothelial cell and pericyte in TIE2-mutated venous malformationsYameng Si0Jiadong Huang1Xiang Li2Yu Fu3Rongyao Xu4Yifei Du5Jie Cheng6Hongbing Jiang7Jiangsu Key Laboratory of Oral Diseases, Nanjing Medical UniversityJiangsu Key Laboratory of Oral Diseases, Nanjing Medical UniversityJiangsu Key Laboratory of Oral Diseases, Nanjing Medical UniversityJiangsu Key Laboratory of Oral Diseases, Nanjing Medical UniversityJiangsu Key Laboratory of Oral Diseases, Nanjing Medical UniversityJiangsu Key Laboratory of Oral Diseases, Nanjing Medical UniversityJiangsu Key Laboratory of Oral Diseases, Nanjing Medical UniversityJiangsu Key Laboratory of Oral Diseases, Nanjing Medical UniversityAbstract Background Venous malformations (VMs), most of which associated with activating mutations in the endothelial cells (ECs) tyrosine kinase receptor TIE2, are characterized by dilated and immature veins with scarce smooth muscle cells (SMCs) coverage. However, the underlying mechanism of interaction between ECs and SMCs responsible for VMs has not been fully understood. Methods Here, we screened 5 patients with TIE2-L914F mutation who were diagnosed with VMs by SNP sequencing, and we compared the expression of platelet-derived growth factor beta (PDGFB) and α-SMA in TIE2 mutant veins and normal veins by immunohistochemistry. In vitro, we generated TIE2-L914F-expressing human umbilical vein endothelial cells (HUVECs) and performed BrdU, CCK-8, transwell and tube formation experiments on none-transfected and transfected ECs. Then we investigated the effects of rapamycin (RAPA) on cellular characteristics. Next we established a co-culture system and investigated the role of AKT/FOXO1/PDGFB in regulating cross-talking of mutant ECs and SMCs. Results VMs with TIE2-L914F mutation showed lower expression of PDGFB and α-SMA than normal veins. TIE2 mutant ECs revealed enhanced cell viability and motility, and decreased tube formation, whereas these phenotypes could be reversed by rapamycin. Mechanically, RAPA ameliorated the physiological function of mutant ECs by inhibiting AKT-mTOR pathway, but also facilitated the nuclear location of FOXO1 and the expression of PDGFB in mutant ECs, and then improved paracrine interactions between ECs and SMCs. Moreover, TIE2 mutant ECs strongly accelerated the transition of SMCs from contractile phenotype to synthetic phenotype, whereas RAPA could prevent the phenotype transition of SMCs. Conclusions Our data demonstrate a previously unknown mechanistic linkage of AKT-mTOR/FOXO1 pathway between mutant ECs and SMCs in modulating venous dysmorphogenesis, and AKT/FOXO1 axis might be a potential therapeutic target for the recovery of TIE2-mutation causing VMs. Video Abstract Graphical abstracthttp://link.springer.com/article/10.1186/s12964-020-00606-wVenous malformationAKTFOXO1Endothelial cellsSmooth muscle cellsTIE2-L914F
collection DOAJ
language English
format Article
sources DOAJ
author Yameng Si
Jiadong Huang
Xiang Li
Yu Fu
Rongyao Xu
Yifei Du
Jie Cheng
Hongbing Jiang
spellingShingle Yameng Si
Jiadong Huang
Xiang Li
Yu Fu
Rongyao Xu
Yifei Du
Jie Cheng
Hongbing Jiang
AKT/FOXO1 axis links cross-talking of endothelial cell and pericyte in TIE2-mutated venous malformations
Cell Communication and Signaling
Venous malformation
AKT
FOXO1
Endothelial cells
Smooth muscle cells
TIE2-L914F
author_facet Yameng Si
Jiadong Huang
Xiang Li
Yu Fu
Rongyao Xu
Yifei Du
Jie Cheng
Hongbing Jiang
author_sort Yameng Si
title AKT/FOXO1 axis links cross-talking of endothelial cell and pericyte in TIE2-mutated venous malformations
title_short AKT/FOXO1 axis links cross-talking of endothelial cell and pericyte in TIE2-mutated venous malformations
title_full AKT/FOXO1 axis links cross-talking of endothelial cell and pericyte in TIE2-mutated venous malformations
title_fullStr AKT/FOXO1 axis links cross-talking of endothelial cell and pericyte in TIE2-mutated venous malformations
title_full_unstemmed AKT/FOXO1 axis links cross-talking of endothelial cell and pericyte in TIE2-mutated venous malformations
title_sort akt/foxo1 axis links cross-talking of endothelial cell and pericyte in tie2-mutated venous malformations
publisher BMC
series Cell Communication and Signaling
issn 1478-811X
publishDate 2020-08-01
description Abstract Background Venous malformations (VMs), most of which associated with activating mutations in the endothelial cells (ECs) tyrosine kinase receptor TIE2, are characterized by dilated and immature veins with scarce smooth muscle cells (SMCs) coverage. However, the underlying mechanism of interaction between ECs and SMCs responsible for VMs has not been fully understood. Methods Here, we screened 5 patients with TIE2-L914F mutation who were diagnosed with VMs by SNP sequencing, and we compared the expression of platelet-derived growth factor beta (PDGFB) and α-SMA in TIE2 mutant veins and normal veins by immunohistochemistry. In vitro, we generated TIE2-L914F-expressing human umbilical vein endothelial cells (HUVECs) and performed BrdU, CCK-8, transwell and tube formation experiments on none-transfected and transfected ECs. Then we investigated the effects of rapamycin (RAPA) on cellular characteristics. Next we established a co-culture system and investigated the role of AKT/FOXO1/PDGFB in regulating cross-talking of mutant ECs and SMCs. Results VMs with TIE2-L914F mutation showed lower expression of PDGFB and α-SMA than normal veins. TIE2 mutant ECs revealed enhanced cell viability and motility, and decreased tube formation, whereas these phenotypes could be reversed by rapamycin. Mechanically, RAPA ameliorated the physiological function of mutant ECs by inhibiting AKT-mTOR pathway, but also facilitated the nuclear location of FOXO1 and the expression of PDGFB in mutant ECs, and then improved paracrine interactions between ECs and SMCs. Moreover, TIE2 mutant ECs strongly accelerated the transition of SMCs from contractile phenotype to synthetic phenotype, whereas RAPA could prevent the phenotype transition of SMCs. Conclusions Our data demonstrate a previously unknown mechanistic linkage of AKT-mTOR/FOXO1 pathway between mutant ECs and SMCs in modulating venous dysmorphogenesis, and AKT/FOXO1 axis might be a potential therapeutic target for the recovery of TIE2-mutation causing VMs. Video Abstract Graphical abstract
topic Venous malformation
AKT
FOXO1
Endothelial cells
Smooth muscle cells
TIE2-L914F
url http://link.springer.com/article/10.1186/s12964-020-00606-w
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