Proteomics of novel induced pluripotent stem cell-derived vascular endothelial cells reveal extensive similarity with an immortalized human endothelial cell line.

IF 2.5 4区 生物学 Q3 CELL BIOLOGY
Physiological genomics Pub Date : 2023-08-01 Epub Date: 2023-06-12 DOI:10.1152/physiolgenomics.00166.2022
Nethika R Ariyasinghe, Roberta de Souza Santos, Andrew Gross, Arwin Aghamaleky-Sarvestany, Simion Kreimer, Sean Escopete, Sarah J Parker, Dhruv Sareen
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引用次数: 0

Abstract

The vascular endothelium constitutes the inner lining of the blood vessel, and malfunction and injuries of the endothelium can cause cardiovascular diseases as well as other diseases including stroke, tumor growth, and chronic kidney failure. Generation of effective sources to replace injured endothelial cells (ECs) could have significant clinical impact, and somatic cell sources like peripheral or cord blood cannot credibly supply enough endothelial cell progenitors for multitude of treatments. Pluripotent stem cells are a promising source for a reliable EC supply, which have the potential to restore tissue function and treat vascular diseases. We have developed methods to differentiate induced pluripotent stem cells (iPSCs) efficiently and robustly across multiple iPSC lines into nontissue-specific pan vascular ECs (iECs) with high purity. These iECs present with canonical endothelial cell markers and exhibit measures of endothelial cell functionality with the uptake of Dil fluorescent dye-labeled acetylated low-density lipoprotein (Dil-Ac-LDL) and tube formation. Using proteomic analysis, we revealed that the iECs are more proteomically similar to established human umbilical vein ECs (HUVECs) than to iPSCs. Posttranslational modifications (PTMs) were most shared between HUVECs and iECs, and potential targets for increasing the proteomic similarity of iECs to HUVECs were identified. Here we demonstrate an efficient robust method to differentiate iPSCs into functional ECs, and for the first time provide a comprehensive protein expression profile of iECs, which indicates their similarities with a widely used immortalized HUVECs, allowing for further mechanistic studies of EC development, signaling, and metabolism for future regenerative applications.NEW & NOTEWORTHY We have developed methods to differentiate induced pluripotent stem cells (iPSCs) across multiple iPSC lines into nontissue-specific pan vascular ECs (iECs) and demonstrated the proteomic similarity of these cells to a widely used endothelial cell line (HUVECs). We also identified posttranslational modifications and targets for increasing the proteomic similarity of iECs to HUVECs. In the future, iECs can be used to study EC development, signaling, and metabolism for future regenerative applications.

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新型诱导多能干细胞衍生血管内皮细胞的蛋白质组学显示,该细胞与永生化人类内皮细胞系具有广泛的相似性。
血管内皮是血管的内层,内皮功能失调和损伤可导致心血管疾病以及其他疾病,包括中风、肿瘤生长和慢性肾衰竭。而外周血或脐带血等体细胞来源无法为多种治疗提供足够的内皮细胞祖细胞。多能干细胞是可靠的内皮细胞供应来源,具有恢复组织功能和治疗血管疾病的潜力。我们已开发出多种方法,可将诱导多能干细胞(iPSC)高效、稳健地分化成高纯度的非组织特异性泛血管内皮细胞(iECs)。这些iECs具有典型的内皮细胞标记,并通过摄取Dil荧光染料标记的乙酰化低密度脂蛋白(Dil-Ac-LDL)和管形成表现出内皮细胞的功能。通过蛋白质组学分析,我们发现 iECs 在蛋白质组学上与已建立的人脐静脉 ECs(HUVECs)比 iPSCs 更为相似。翻译后修饰(PTMs)在 HUVECs 和 iECs 之间最为常见,并确定了提高 iECs 与 HUVECs 蛋白质组相似性的潜在靶点。在这里,我们展示了一种将 iPSCs 分化为功能性 ECs 的高效、稳健的方法,并首次提供了 iECs 的全面蛋白质表达谱,表明它们与广泛使用的永生化 HUVECs 具有相似性,从而可以对 EC 的发育、信号传导和新陈代谢进行进一步的机理研究,以促进未来的再生应用。新发现 我们开发了将多个诱导多能干细胞(iPSC)系分化为非组织特异性泛血管内皮细胞(iECs)的方法,并证明了这些细胞与广泛使用的内皮细胞系(HUVECs)在蛋白质组学上的相似性。我们还确定了翻译后修饰和提高 iECs 与 HUVECs 蛋白质组相似性的靶点。未来,iECs 可用于研究 EC 的发育、信号传导和新陈代谢,以促进未来的再生应用。
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
Physiological genomics
Physiological genomics 生物-生理学
CiteScore
6.10
自引率
0.00%
发文量
46
审稿时长
4-8 weeks
期刊介绍: The Physiological Genomics publishes original papers, reviews and rapid reports in a wide area of research focused on uncovering the links between genes and physiology at all levels of biological organization. Articles on topics ranging from single genes to the whole genome and their links to the physiology of humans, any model organism, organ, tissue or cell are welcome. Areas of interest include complex polygenic traits preferably of importance to human health and gene-function relationships of disease processes. Specifically, the Journal has dedicated Sections focused on genome-wide association studies (GWAS) to function, cardiovascular, renal, metabolic and neurological systems, exercise physiology, pharmacogenomics, clinical, translational and genomics for precision medicine, comparative and statistical genomics and databases. For further details on research themes covered within these Sections, please refer to the descriptions given under each Section.
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