Three-Dimensional Cell Culture Scaffold Supports Capillary-Like Network Formation by Endothelial Cells Derived from Porcine-Induced Pluripotent Stem Cells.

IF 2.9 4区生物学 Q1 ANATOMY & MORPHOLOGY Cells Tissues Organs Pub Date : 2025-01-01 Epub Date: 2024-07-16 DOI:10.1159/000539320

Yu-Jing Liao, Yi-Shiou Chen, Yu-Ching Lin, Jenn-Rong Yang

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Abstract

Introduction: Endothelial cells (EC) can be generated from porcine-induced pluripotent stem cells (piPSC), but poor efficiency in driving EC differentiation hampers their application and efficacy. Additionally, the culture of piPSC-derived EC (piPSC-EC) on three-dimensional (3D) scaffolds has not been fully reported yet. Here, we report a method to improve the generation of EC differentiation from piPSC and to facilitate their culture on 3D scaffolds, providing a potential resource for in vitro drug testing and the generation of tissue-engineered vascular grafts.

Methods: We initiated the differentiation of piPSC into EC by seeding them on laminin 411 and employing a three-stage protocol, which involved the use of distinct EC differentiation media supplemented with CHIR99021, BMP4, VEGF, and bFGF.

Results: piPSC-EC not only expressed EC markers such as CD31, VE-cadherin, and von Willebrand factor (vWF) but also exhibited an upregulation of EC marker genes, including CD31, CD34, VEGFR2, VE-cadherin, and vWF. They exhibited functional characteristics similar to those of porcine coronary artery endothelial cells (PCAEC), such as tube formation and Dil-Ac-LDL uptake. Furthermore, when cultured on 3D scaffolds, piPSC-EC developed a 3D morphology and were capable of forming an endothelial layer and engineering capillary-like networks, though these lacked lumen structures.

Conclusion: Our study not only advances the generation of EC from piPSC through an inhibitor and growth factor cocktail but also provides a promising approach for constructing vascular network-like structures. Importantly, these findings open new avenues for drug discovery in vitro and tissue engineering in vivo.

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三维细胞培养支架支持猪诱导多能干细胞衍生的内皮细胞形成毛细血管样网络。

导言：内皮细胞（EC）可由猪诱导多能干细胞（piPSC）生成，但驱动EC分化的效率较低，阻碍了其应用和功效。此外，在三维支架上培养 piPSC 衍生的心肌细胞（piPSC-EC）的方法尚未得到充分报道。在此，我们报告了一种改善 piPSC 分化生成 EC 并促进其在三维支架上培养的方法，为体外药物测试和组织工程血管移植物（TEVG）的生成提供了潜在的资源：结果：piPSC-EC 不仅表达了 CD31、VE-cadherin 和 vWF 等 EC 标记，而且还表现出 EC 标记基因的上调，包括 CD31、CD34、VEGFR2、VE-cadherin 和 vWF。它们表现出与猪冠状动脉内皮细胞（PCAECs）相似的功能特征，如管形成和 Dil-Ac-LDL 摄取。此外，在三维支架上培养时，piPSC-EC 形成了三维形态，并能形成内皮层和工程毛细血管样网络，尽管这些网络缺乏管腔结构：我们的研究不仅推进了通过抑制剂和生长因子鸡尾酒从 piPSC 生成 EC 的进程，还为构建血管网络样结构提供了一种前景广阔的方法。重要的是，这些发现为体外药物发现和体内组织工程开辟了新途径。

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来源期刊

Cells Tissues Organs 生物-发育生物学

CiteScore

4.90

自引率

3.70%

发文量

审稿时长

6-12 weeks

期刊介绍： ''Cells Tissues Organs'' aims at bridging the gap between cell biology and developmental biology and the emerging fields of regenerative medicine (stem cell biology, tissue engineering, artificial organs, in vitro systems and transplantation biology). CTO offers a rapid and fair peer-review and exquisite reproduction quality. Special topic issues, entire issues of the journal devoted to a single research topic within the range of interests of the journal, are published at irregular intervals.