NOS3 regulates angiogenic potential of human induced pluripotent stem cell-derived endothelial cells

IF 2.3 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Biochemistry and Biophysics Reports Pub Date : 2024-11-17 DOI:10.1016/j.bbrep.2024.101876

Anne M. Kong , Zulhusni A. Idris , Daniel Urrutia-Cabrera , Jarmon G. Lees , Ren Jie Phang , Geraldine M. Mitchell , Raymond C.B. Wong , Shiang Y. Lim

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引用次数: 0

Abstract

Incorporation of blood capillaries in engineered tissues and their functional connection to host blood vessels is essential for success in engineering vascularized tissues, a process which involves spatial patterning of endothelial cells (ECs) to form functional and integrated vascular networks. Different types of ECs have been employed for vascular network formation and each source offers advantages and disadvantages. While ECs derived from induced pluripotent stem cells (iPSC-ECs) offer advantages over primary ECs in that they can be generated in large quantities for autologous applications, their suitability for disease modelling and cell replacement therapies is not well-explored. The present study compares the angiogenic capacity of iPSC-ECs and primary ECs (cardiac microvascular ECs and lymphatic microvascular ECs) using an in vitro tubulogenesis assay, revealing comparable performance in forming a pseudo-capillary network on Matrigel. Analysis of genes encoding angiogenic factors (VEGFA, VEGFC, VEGFD and ANG), endothelial cell markers (PECAM1, PCDH12 and NOS3) and proliferation markers (AURKB and MKI67) indicates a significant positive correlation between NOS3 mRNA expression levels and various tubulogenic parameters. Further experimentation using a CRISPR activation system demonstrates a positive impact of NOS3 on tubulogenic activity of ECs, suggesting that iPSC-ECs can be enhanced with endogenous NOS3 activation. Collectively, these findings highlight the potential of iPSC-ECs in generating vascularized tissues and advancing therapeutic vascularization.

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NOS3 调节人类诱导多能干细胞衍生内皮细胞的血管生成潜能

在工程组织中加入毛细血管并使其与宿主血管建立功能性连接是血管化组织工程取得成功的关键，这一过程涉及内皮细胞（ECs）的空间模式化，以形成功能性综合血管网络。血管网络的形成采用了不同类型的内皮细胞，每种来源都各有利弊。虽然诱导多能干细胞（iPSC-ECs）衍生的ECs比原生ECs更有优势，因为它们可以大量生成用于自体应用，但它们是否适合疾病建模和细胞替代疗法还没有得到很好的探讨。本研究利用体外小管生成试验比较了 iPSC-ECs 和原代 ECs（心脏微血管 ECs 和淋巴微血管 ECs）的血管生成能力，结果显示它们在 Matrigel 上形成假毛细血管网的性能相当。对编码血管生成因子（VEGFA、VEGFC、VEGFD 和 ANG）、内皮细胞标记（PECAM1、PCDH12 和 NOS3）和增殖标记（AURKB 和 MKI67）的基因进行的分析表明，NOS3 mRNA 表达水平与各种小管生成参数之间存在显著的正相关。使用 CRISPR 激活系统进行的进一步实验表明，NOS3 对 ECs 的成管活性有积极影响，这表明 iPSC-ECs 可通过激活内源性 NOS3 得到增强。总之，这些发现凸显了 iPSC-ECs 在生成血管化组织和推进治疗性血管化方面的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Biochemistry and Biophysics Reports Biochemistry, Genetics and Molecular Biology-Biophysics

CiteScore

4.60

自引率

0.00%

发文量

191

审稿时长

59 days

期刊介绍： Open access, online only, peer-reviewed international journal in the Life Sciences, established in 2014 Biochemistry and Biophysics Reports (BB Reports) publishes original research in all aspects of Biochemistry, Biophysics and related areas like Molecular and Cell Biology. BB Reports welcomes solid though more preliminary, descriptive and small scale results if they have the potential to stimulate and/or contribute to future research, leading to new insights or hypothesis. Primary criteria for acceptance is that the work is original, scientifically and technically sound and provides valuable knowledge to life sciences research. We strongly believe all results deserve to be published and documented for the advancement of science. BB Reports specifically appreciates receiving reports on: Negative results, Replication studies, Reanalysis of previous datasets.