Modulation of Brain Pathology by Enhancer RNAs in Cerebral Ischemia.

Recent studies have reported widespread stimulus-dependent transcription of mammalian enhancers into noncoding enhancer RNAs (eRNAs), some of which have central roles in the enhancer-mediated induction of target genes and modulation of phenotypic outcomes during development and disease. In cerebral ischemia, the expression and functions of eRNAs are virtually unknown. Here, we applied genome-wide H3K27ac ChIP-seq and genome-wide RNA-seq to identify enhancer elements and stroke-induced eRNAs, respectively, in the mouse cerebral cortex during transient focal ischemia. Following a 1-h middle cerebral artery occlusion (MCAO) and 6 h of reperfusion, we identified 77 eRNAs that were significantly upregulated in stroke as compared to sham, of which 55 were exclusively expressed in stroke. The knockdown of two stroke-induced eRNAs in the mouse brain resulted in significantly larger infarct volumes as compared to controls, suggesting that these eRNAs are involved in the post-stroke neuroprotective response. A preliminary comparison of eRNA expression in the male versus female cortices revealed sex-dependent patterns that may underlie the physiological differences in response to stroke between the two sexes. Together, this study is the first to illuminate the eRNA landscape in the post-stroke cortex and demonstrate the significance of an eRNA in modulating post-stroke cortical brain damage.