在内充质微环境中对内皮祖细胞进行预处理，通过启动由NOTCH信号介导的间充质转化，可改善其植入能力和血管生成潜力。

Priming of endothelial colony-forming cells in a mesenchymal niche improves engraftment and vasculogenic potential by initiating mesenchymal transition orchestrated by NOTCH signaling.

作者信息

Shafiee Abbas, Patel Jatin, Wong Ho Yi, Donovan Prudence, Hutmacher Dietmar W, Fisk Nicholas M, Khosrotehrani Kiarash

机构信息

University of Queensland (UQ) Centre for Clinical Research, The University of Queensland, Brisbane, Queensland Australia.

Institute of Health and Biomedical Innovation, Queensland University of Technology, Brisbane, Queensland, Australia.

出版信息

FASEB J. 2017 Feb;31(2):610-624. doi: 10.1096/fj.201600937. Epub 2016 Oct 24.

DOI:10.1096/fj.201600937

PMID:28045376

Abstract

The prospect of using endothelial progenitors is currently hampered by their low engraftment upon transplantation. We report that mesenchymal stem/stromal cells (MSCs), independent of source and age, improve the engraftment of endothelial colony forming cells (ECFCs). MSC coculture altered ECFC appearance to an elongated mesenchymal morphology with reduced proliferation. ECFC primed via MSC contact had reduced self-renewal potential, but improved capacity to form tube structures in vitro and engraftment in vivo Primed ECFCs displayed major differences in transcriptome compared to ECFCs never exposed to MSCs, affecting genes involved in the cell cycle, up-regulating of genes influencing mesenchymal transition, adhesion, extracellular matrix. Inhibition of NOTCH signaling, a potential upstream regulator of mesenchymal transition, in large part modulated this gene expression pattern and functionally reversed the mesenchymal morphology of ECFCs. The collective results showed that primed ECFCs survive better and undergo a mesenchymal transition that is dependent on NOTCH signaling, resulting in significantly increased vasculogenic potential.-Shafiee, A., Patel, J., Wong, H. Y., Donovan, P., Hutmacher, D. W., Fisk, N. M., Khosrotehrani, K. Priming of endothelial colony-forming cells in a mesenchymal niche improves engraftment and vasculogenic potential by initiating mesenchymal transition orchestrated by NOTCH signaling.

摘要

目前，内皮祖细胞的应用前景受到其移植后低植入率的阻碍。我们报告称，间充质干/基质细胞（MSC），无论来源和年龄，均可改善内皮集落形成细胞（ECFC）的植入。MSC共培养使ECFC的外观变为细长的间充质形态，增殖减少。通过与MSC接触而被预处理的ECFC自我更新潜力降低，但体外形成管状结构和体内植入的能力提高。与从未接触过MSC的ECFC相比，预处理的ECFC在转录组上表现出重大差异，影响细胞周期相关基因，上调影响间充质转化、黏附、细胞外基质的基因。抑制NOTCH信号（间充质转化的潜在上游调节因子）在很大程度上调节了这种基因表达模式，并在功能上逆转了ECFC的间充质形态。总体结果表明，预处理的ECFC存活更好，并经历依赖于NOTCH信号的间充质转化，从而显著增加血管生成潜力。-沙菲，A.，帕特尔，J.，黄，H.Y.，多诺万，P.，胡特马赫，D.W.，菲斯克，N.M.，霍斯罗特拉尼，K.在间充质微环境中预处理内皮集落形成细胞可通过启动由NOTCH信号协调的间充质转化来改善植入和血管生成潜力。

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在内充质微环境中对内皮祖细胞进行预处理，通过启动由NOTCH信号介导的间充质转化，可改善其植入能力和血管生成潜力。

Priming of endothelial colony-forming cells in a mesenchymal niche improves engraftment and vasculogenic potential by initiating mesenchymal transition orchestrated by NOTCH signaling.

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