ETV2 transcriptionally activates Rig1 gene expression and promotes reprogramming of the endothelial lineage.

IF 3.8 2区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES Scientific Reports Pub Date : 2024-11-19 DOI:10.1038/s41598-024-78115-w
Young Geun Choi, Xiao Ma, Satyabrata Das, Javier E Sierra-Pagan, Thijs Larson, Wuming Gong, Hesham A Sadek, Jianyi Jay Zhang, Mary G Garry, Daniel J Garry
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Abstract

ETV2 is an essential transcription factor as Etv2 null murine embryos lack all vasculature, blood and are lethal early during embryogenesis. Previous studies have established that ETV2 functions as a pioneer factor and directly reprograms fibroblasts to endothelial cells. However, the underlying molecular mechanisms regulating this reprogramming process remain incompletely defined. In the present study, we examined the ETV2-RIG1 cascade as regulators that govern ETV2-mediated reprogramming. Mouse embryonic fibroblasts (MEFs) harboring an inducible ETV2 expression system were used to overexpress ETV2 and reprogram these somatic cells to the endothelial lineage. Single-cell RNA-seq from reprogrammed fibroblasts defined the induction of the transcriptional network involved in Rig1-like receptor signaling pathways. Studies using ChIP-seq, electrophoretic mobility shift assays, and transcriptional assays demonstrated that ETV2 was a direct upstream activator of Rig1 gene expression. We further demonstrated that the knockdown of Rig1 and separately, Nfκb1 using shRNA significantly reduced the efficiency of endothelial cell reprogramming. These results highlight that ETV2 reprograms fibroblasts to endothelial cells by directly activating RIG1. These findings extend our current understanding of the molecular mechanisms underlying ETV2-mediated reprogramming and will be important in the design of revascularization strategies for the treatment of ischemic tissues such as ischemic heart disease.

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ETV2 可转录激活 Rig1 基因的表达,并促进内皮细胞系的重编程。
ETV2是一种重要的转录因子,因为Etv2缺失的小鼠胚胎缺乏所有的血管和血液,并且在胚胎发育早期就会死亡。先前的研究已经证实,ETV2 可作为一种先驱因子,直接将成纤维细胞重编程为内皮细胞。然而,调控这一重塑过程的潜在分子机制仍未完全明确。在本研究中,我们研究了 ETV2-RIG1 级联作为调控 ETV2 介导的重编程的调节因子。我们用携带诱导性 ETV2 表达系统的小鼠胚胎成纤维细胞(MEF)过表达 ETV2,并将这些体细胞重编程为内皮细胞系。来自重编程成纤维细胞的单细胞RNA-seq确定了参与Rig1样受体信号通路的转录网络的诱导。利用 ChIP-seq、电泳迁移实验和转录实验进行的研究表明,ETV2 是 Rig1 基因表达的直接上游激活剂。我们进一步证明,使用 shRNA 敲除 Rig1 和 Nfκb1 能显著降低内皮细胞重编程的效率。这些结果突出表明,ETV2通过直接激活RIG1将成纤维细胞重编程为内皮细胞。这些发现扩展了我们目前对 ETV2 介导重编程的分子机制的理解,对设计治疗缺血性组织(如缺血性心脏病)的血管再造策略非常重要。
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来源期刊
Scientific Reports
Scientific Reports Natural Science Disciplines-
CiteScore
7.50
自引率
4.30%
发文量
19567
审稿时长
3.9 months
期刊介绍: We publish original research from all areas of the natural sciences, psychology, medicine and engineering. You can learn more about what we publish by browsing our specific scientific subject areas below or explore Scientific Reports by browsing all articles and collections. Scientific Reports has a 2-year impact factor: 4.380 (2021), and is the 6th most-cited journal in the world, with more than 540,000 citations in 2020 (Clarivate Analytics, 2021). •Engineering Engineering covers all aspects of engineering, technology, and applied science. It plays a crucial role in the development of technologies to address some of the world''s biggest challenges, helping to save lives and improve the way we live. •Physical sciences Physical sciences are those academic disciplines that aim to uncover the underlying laws of nature — often written in the language of mathematics. It is a collective term for areas of study including astronomy, chemistry, materials science and physics. •Earth and environmental sciences Earth and environmental sciences cover all aspects of Earth and planetary science and broadly encompass solid Earth processes, surface and atmospheric dynamics, Earth system history, climate and climate change, marine and freshwater systems, and ecology. It also considers the interactions between humans and these systems. •Biological sciences Biological sciences encompass all the divisions of natural sciences examining various aspects of vital processes. The concept includes anatomy, physiology, cell biology, biochemistry and biophysics, and covers all organisms from microorganisms, animals to plants. •Health sciences The health sciences study health, disease and healthcare. This field of study aims to develop knowledge, interventions and technology for use in healthcare to improve the treatment of patients.
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