Exosomes Derived from Akt‐Modified Human Umbilical Cord Mesenchymal Stem Cells Improve Cardiac Regeneration and Promote Angiogenesis via Activating Platelet‐Derived Growth Factor D

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Abstract

We have previously demonstrated the cardioprotective effects of exosomes derived from mesenchymal stem cells (MSCs). It is well known that the activation of Akt is involved in stem cell‐induced cardioprotection. In the present study, we investigated whether exosomes released from Akt‐overexpressing MSCs showed a beneficial effect on cardioprotection and angiogenesis. MSCs were collected from human umbilical cord (hucMSCs), and Akt was transfected into hucMSCs (Akt‐hucMSCs) by using an adenovirus transfection system. Exosomes were isolated from control hucMSCs (Exo) and Akt‐hucMSCs (Akt‐Exo). An acute myocardial infarction model was created by ligation of the left anterior decedent coronary artery (LAD) in rats. Various source exosomes (400 µg of protein) were infused via the tail vein immediately after LAD ligation. The cardiac function was evaluated by using echocardiography after different treatments for 1 and 5 weeks, respectively. Endothelial cell proliferation, migration, and tube‐like structure formation, as well as chick allantoic membrane assay, were used to evaluate the angiogenetic effects of Akt‐Exo. The results indicated that cardiac function was significantly improved in the animals treated with Akt‐Exo. In addition, Akt‐Exo significantly accelerated endothelial cell proliferation and migration, tube‐like structure formation in vitro, and blood vessel formation in vivo. The expression of platelet‐derived growth factor D (PDGF‐D) was significantly upregulated in Akt‐Exo. However, the angiogenesis was abrogated in endothelial cells treated with the exosomes obtained from MSCs transfected with PDGF‐D‐siRNA. Our studies suggest that exosomes obtained from Akt‐modified hucMSCs are more effective in myocardial infarction therapy through promoting angiogenesis. PDGF‐D plays an important role in Akt‐Exo‐mediated angiogenesis. S tem C ells T ranslational M edicine 2017;6:51–59

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Evidence supporting paracrine hypothesis for Akt-modified mesenchymal stem cell-mediated cardiac protection and functional improvement.

Massimiliano Gnecchi, Huamei He, Nicolas Noiseux … (2006)

We previously reported that intramyocardial injection of bone marrow-derived mesenchymal stem cells overexpressing Akt (Akt-MSCs) inhibits ventricular remodeling and restores cardiac function measured 2 wk after myocardial infarction. Here, we report that the functional improvement occurs in < 72 h. This early remarkable effect cannot be readily attributed to myocardial regeneration from the donor cells. Thus, we hypothesized that paracrine actions exerted by the cells through the release of soluble factors might be important mechanisms of tissue repair and functional improvement after injection of the Akt-MSCs. Indeed, in the current study we demonstrate that conditioned medium from hypoxic Akt-MSCs markedly inhibits hypoxia-induced apoptosis and triggers vigorous spontaneous contraction of adult rat cardiomyocytes in vitro. When injected into infarcted hearts, the Akt-MSC conditioned medium significantly limits infarct size and improves ventricular function relative to controls. Support to the paracrine hypothesis is provided by data showing that several genes, coding for factors (VEGF, FGF-2, HGF, IGF-I, and TB4) that are potential mediators of the effects exerted by the Akt-MSC conditioned medium, are significantly up-regulated in the Akt-MSCs, particularly in response to hypoxia. Taken together, our data support Akt-MSC-mediated paracrine mechanisms of myocardial protection and functional improvement.

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Human umbilical cord mesenchymal stem cell exosomes enhance angiogenesis through the Wnt4/β-catenin pathway.

Bin Zhang, Xiaodan Wu, Xu Zhang … (2015)

Human umbilical cord mesenchymal stem cells (hucMSCs) and their exosomes have been considered as potential therapeutic tools for tissue regeneration; however, the underlying mechanisms are still not well understood. In this study, we isolated and characterized the exosomes from hucMSCs (hucMSC-Ex) and demonstrated that hucMSC-Ex promoted the proliferation, migration, and tube formation of endothelial cells in a dose-dependent manner. Furthermore, we demonstrated that hucMSC-Ex promoted wound healing and angiogenesis in vivo by using a rat skin burn model. We discovered that hucMSC-Ex promoted β-catenin nuclear translocation and induced the increased expression of proliferating cell nuclear antigen, cyclin D3, N-cadherin, and β-catenin and the decreased expression of E-cadherin. The activation of Wnt/β-catenin is critical in the induction of angiogenesis by hucMSC-Ex, which could be reversed by β-catenin inhibitor ICG-001. Wnt4 was delivered by hucMSC-Ex, and the knockdown of Wnt4 in hucMSC-Ex abrogated β-catenin nuclear translocation in endothelial cells. The in vivo proangiogenic effects were also inhibited by interference of Wnt4 expression in hucMSC-Ex. Taken together, these results suggest that hucMSC-Ex-mediated Wnt4 induces β-catenin activation in endothelial cells and exerts proangiogenic effects, which could be an important mechanism for cutaneous wound healing.

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Secreted frizzled related protein 2 (Sfrp2) is the key Akt-mesenchymal stem cell-released paracrine factor mediating myocardial survival and repair.

L. Zhang, V J Dzau, Nicolas Noiseux … (2007)

Stem cell therapy has emerged as a promising tool for the treatment of a variety of diseases. Previously, we have shown that Akt-modified mesenchymal stem cells mediate tissue repair through paracrine mechanisms. Using a comprehensive functional genomic strategy, we show that secreted frizzled related protein 2 (Sfrp2) is the key stem cell paracrine factor that mediates myocardial survival and repair after ischemic injury. Sfrp2 is known to modulate Wnt signaling, and we demonstrate that cardiomyocytes treated with secreted frizzled related protein increase cellular beta-catenin and up-regulate expression of antiapoptotic genes. These findings reveal the key role played by Sfrp2 in mediating the paracrine effects of Akt-mesenchymal stem cells on tissue repair and identify modulation of Wnt signaling as a therapeutic target for heart disease.

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Author and article information

Contributors

Wei Zhu: zhuwei@ujs.edu.cn

Journal

Journal ID (nlm-ta): Stem Cells Transl Med

Journal ID (iso-abbrev): Stem Cells Transl Med

Journal ID (doi): 10.1002/(ISSN)2157-6580

Journal ID (publisher-id): SCT3

Title: Stem Cells Translational Medicine

Publisher: John Wiley and Sons Inc. (Hoboken )

ISSN (Print): 2157-6564

ISSN (Electronic): 2157-6580

Publication date (Electronic): 22 September 2016

Publication date (Print): January 2017

Volume: 6

Issue: 1 ( doiID: 10.1002/sct3.2017.6.issue-1 )

Pages: 51-59

Affiliations

[ ¹ ]School of Medicine, Jiangsu University, Zhenjiang, Jiangsu, People's Republic of China

[ ² ]Weifang People's Hospital, Weifang, Shandong, People's Republic of China

[ ³ ]The Affiliated Hospital, Jiangsu University, Zhenjiang, Jiangsu, People's Republic of China

Author notes

[*] [* ]Correspondence: Wei Zhu, Ph.D., School of Medicine, Jiangsu University, 301 Xuefu Road, Zhenjiang, Jiangsu, 212013, People's Republic of China. Telephone: 86 511 85033768; e‐mail: zhuwei@ 123456ujs.edu.cn

[†]

Contributed equally.

Article

Publisher ID: SCT312027

DOI: 10.5966/sctm.2016-0038

PMC ID: 5442756

PubMed ID: 28170176

SO-VID: 7047fd7d-6067-49af-9b9d-3581723422ec

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This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

History

Date received : 25 January 2016

Date accepted : 28 July 2016

Page count

Figures: 6, Tables: 0, Pages: 9, Words: 4926

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component-id sct312027

cover-date January 2017

details-of-publishers-convertor Converter:WILEY_ML3GV2_TO_NLMPMC version:5.0.9 mode:remove_FC converted:23.05.2017

Keywords: akt,exosomes,mesenchymal stem cells,cardioprotection,angiogenesis,platelet‐derived growth factor d

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Keywords: akt, exosomes, mesenchymal stem cells, cardioprotection, angiogenesis, platelet‐derived growth factor d

Exosomes Derived from Akt‐Modified Human Umbilical Cord Mesenchymal Stem Cells Improve Cardiac Regeneration and Promote Angiogenesis via Activating Platelet‐Derived Growth Factor D

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Most cited references 23

Evidence supporting paracrine hypothesis for Akt-modified mesenchymal stem cell-mediated cardiac protection and functional improvement.

Human umbilical cord mesenchymal stem cell exosomes enhance angiogenesis through the Wnt4/β-catenin pathway.

Secreted frizzled related protein 2 (Sfrp2) is the key Akt-mesenchymal stem cell-released paracrine factor mediating myocardial survival and repair.

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