Abstract
The RNA-sensing signaling pathway has been well studied as an essential antiviral mechanism of innate immunity. However, its role in non-infected cells is yet to be thoroughly characterized. Here, we demonstrated that the RNA sensing signaling pathway also reacts to the endogenous cellular RNAs in endothelial cells (ECs), and this reaction is regulated by the RNA-editing enzyme ADAR1. Cellular RNA sequencing analysis showed that EC RNAs endure extensive RNA editing, especially in the RNA transcripts of short interspersed nuclear elements. The EC-specific deletion of ADAR1 dramatically reduced the editing level on short interspersed nuclear element RNAs, resulting in newborn death in mice with damage evident in multiple organs. Genome-wide gene expression analysis revealed a prominent innate immune activation with a dramatically elevated expression of interferon-stimulated genes. However, blocking the RNA sensing signaling pathway by deletion of the cellular RNA receptor MDA-5 prevented interferon-stimulated gene expression and rescued the newborn mice from death. This evidence demonstrated that the RNA-editing/RNA-sensing signaling pathway dramatically modulates EC function, representing a novel molecular mechanism for the regulation of EC functions.
Highlights
The cytosolic RNA-sensing signaling pathway is an important antiviral innate immune mechanism that responds to invading viral RNAs, leading to type I IFN and interferon stimulated gene (ISG) expressions [1, 2]
The VEN7 colony of Chd5Cre transgenic mice was used in this study, as Cre activity in this colony has been reported to be more specific to endothelial cells (ECs), including embryonic ECs, than other available Cre mouse lines [23]
The genotype of ADAR1 Lox/Lox; Cdh5-Cre+ was selected as the ECspecific ADAR1 KO mice, referred to as ADAR1EC-KO mice, whereas the littermates with Lox/Lox; Cre− and ADAR1 wt/Lox; Cre+ genotype were used as controls
Summary
The cytosolic RNA-sensing signaling pathway is an important antiviral innate immune mechanism that responds to invading viral RNAs, leading to type I IFN and interferon stimulated gene (ISG) expressions [1, 2]. Deregulation of this signaling pathway may result in autoimmune diseases if it reacts to cellular self RNAs [3, 4]. ADAR1-catalyzed RNA editing converts adenosine to inosine in cellular RNA transcripts at the regions with double-stranded structures [7, 8] It changes protein codons or splicing sites in mRNA, alters sequences within regulating small RNAs, and modifies the structure of dsRNA [9, 10]. The mechanism of RNA editing in these cells has not been well defined
Sign-in/Register to view highlights & summary 
Published Version (
Free)
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call