Dysregulation of the Epitranscriptomic Mark m1A in Ischemic Stroke.

Abstract

Methylation of adenosine at N1 position yields N1-methyladenosine (m1A), which is an epitranscriptomic modification that regulates mRNA metabolism. Recent studies showed that altered m1A methylation promotes acute and chronic neurological diseases. We currently evaluated the effect of focal ischemia on cerebral m1A methylome and its machinery. Adult male C57BL/6J mice were subjected to transient middle cerebral artery occlusion, and the peri-infarct cortex was analyzed at 12h and 24h of reperfusion. The bulk abundance of m1A was measured by mass spectrometry and dot blot, and transcriptome-wide m1A alterations were profiled using antibody-independent m1A-quant-seq. Expression of the m1A writers and erasers was estimated by real-time PCR. Ischemia significantly decreased m1A levels and concomitantly upregulated m1A demethylase alkB homolog 3 at 24h of reperfusion compared to sham. Transcriptome-wide profiling showed differential m1A methylation at 14 sites (8 were hypo- and 6 were hypermethylated). Many of those are located in the 3'-UTRs of unannotated transcripts proximal to the genes involved in regulating protein complex assembly, circadian rhythms, chromatin remodeling, and chromosome organization. Using several different approaches, we show for the first time that m1A epitranscriptomic modification in RNA is highly sensitive to cerebral ischemia.