The miR-302-mediated induction of pluripotent stem cells (iPSC): Multiple synergistic reprogramming mechanisms

Abstract

Pluripotency represents a unique feature of embryonic stem cells (ESCs). To generate ESC-like-induced pluripotent stem cells (iPSCs) derived from somatic cells, the cell genome needs to be reset and reprogrammed to express the ESC-specific transcriptome. Numerous studies have shown that genomic DNA demethylation is required for epigenetic reprogramming of somatic cell nuclei to form iPSCs; yet, the mechanism remains largely unclear. In ESCs, the reprogramming process goes through two critical stages: germline and zygotic demethylation, both of which erase genomic DNA methylation sites and hence allow for different gene expression patterns to be reset into a pluripotent state. Recently, miR-302, an ESC-specific microRNA (miRNA), was found to play an essential role in four aspects of this reprogramming mechanism—(1) initiating global genomic DNA demethylation, (2) activating ESC-specific gene expression, (3) inhibiting developmental signaling, and (4) preventing stem cell tumorigenicity. In this review, we will summarize miR-302 functions in all four reprogramming aspects and further discuss how these findings may improve the efficiency and safety of the current iPSC technology.