Stress-induced RNA–chromatin interactions promote endothelial dysfunction
Updated November 16, 2021Chromatin-associated RNA (caRNA) has been proposed as a type of epigenomic modifier. Here, we test whether environmental stress can induce cellular dysfunction through modulating RNA-chromatin interactions. We induce endothelial cell (EC) dysfunction with high glucose and TNFα (H + T), that mimic the common stress in diabetes mellitus. We characterize the H + T-induced changes in gene expression by single cell (sc)RNA-seq, DNA interactions by Hi-C, and RNA-chromatin interactions by iMARGI. H + T induce inter-chromosomal RNA-chromatin interactions, particularly among the super enhancers. To test the causal relationship between H + T-induced RNA-chromatin interactions and the expression of EC dysfunction-related genes, we suppress the LINC00607 RNA. This suppression attenuates the expression of SERPINE1, a critical pro-inflammatory and pro-fibrotic gene. Furthermore, the changes of the co-expression gene network between diabetic and healthy donor-derived ECs corroborate the H + T-induced RNA-chromatin interactions. Taken together, caRNA-mediated dysregulation of gene expression modulates EC dysfunction, a crucial mechanism underlying numerous diseases.
Stress-induced RNA-chromatin interactions promote endothelial dysfunction
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Atlas
Analysis Portals
Project Label
Stress-inducedRNA–chromatininteractionspromoteendoSpecies
Homo sapiens
Sample Type
Anatomical Entity
arterial blood vessel
Organ Part
mesenteric artery
Selected Cell Types
endothelial cell of artery
Model Organ
Unspecified
Disease Status (Specimen)
Unspecified
Disease Status (Donor)
Development Stage
Library Construction Method
Nucleic Acid Source
single cell
Paired End
falseAnalysis Protocol
MergeOptimusLooms_v1.0.0, Optimus_v5.1.2File Format
Cell Count Estimate
UnspecifiedDonor Count
5