Small non-coding RNAs encapsulating mammalian cells fuel innate immunity
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Cell surface RNAs, notably glycoRNAs, have been reported, yet the exact surface RNA compositions in different cell types remain unclear. Here, we introduce a comprehensive suite of methodologies for imaging, profiling, quantifying, and exploring the biological functions of specific surface RNAs. Utilizing these techniques, we have identified diverse non-coding RNAs present on mammalian cell surfaces. We confirm the membrane anchorage and quantify the abundance of several representative RNAs on human primary cells. Notably, we discover a significant prevalence of Y RNAs on the surfaces of human monocytes and B cells. We find that these Y RNAs on human monocyte surfaces enrich extracellular histones, regulating interleukin-6 ( IL-6 ) gene expression and subsequent protein secretion upon histone stimulation via NF-κB and AP-1 activation. Our study not only presents effective approaches for investigating surface RNAs, but also uncovers a previously unrecognized immune activation pathway mediated by surface Y RNAs on monocytes.
In brief
A comprehensive profiling of surface RNAs across diverse mammalian blood cell types unveil abundant Y RNAs on the surface of human monocytes. Subsequent investigations uncover functional roles of surface Y RNAs on monocytes as “immune sentinel” to enrich extracellular histones, revealing a previously unknown pathway of innate immune activation.
Highlights
Novel methodologies for cell surface RNA mapping, validation and functional interrogation.
Sequencing of surface RNAs across various mammalian blood cell types offers detailed maps of surface RNAs.
Abundant Y RNAs localize on human monocyte surfaces and capture extracellular histones released by adjacent ruptured cells.
Surface Y RNAs enrich extracellular histones to facilitate transcription and secretion of IL-6 through NF-κB and AP-1 activation.
