A fraction of the transcriptome is translated into proteins. The rest is classified as non-protein coding RNA (Ribonucleic Acid) but has gained increased attention as functional and regulatory group of transcripts. The gene regulatory role of non-coding RNAs (ncRNAs) has now been widely accepted in diverse biological processes in both physiology and disease. MicroRNAs fall into this latter group and are widely known for their diverse post-transcriptional regulatory role. MicroRNA sequences are embedded in the long ncRNAs, known as primary microRNAs, are processed into precursor microRNAs and are typically transported out of the nucleus for maturation and loading into a protein complex forming RNA-induced silencing complex (RISC) that either drives the degradation of messenger RNA (mRNA) or blocks its translation. A new phenomenon is emerging where microRNAs have active roles within the nucleus. The presence of RISC components including microRNAs in the nucleus supports this notion. They may integrate with chromatin modifiers, microprocessing machinery and mRNA stabilizing transcripts to play a multifunctional role in the nucleus. Although a limited number of studies appreciate this novel activity of microRNAs relevant to the cardiovascular system, they provide proof-of-concept that requires consideration while targeting miRNAs with therapeutic potential.
Copyright © 2020 Elsevier Inc. All rights reserved.