Pivotal role for long noncoding RNAs in zygotic genome activation in mice.

Abstract

Vertebrate life begins with fertilization, and then the zygote genome is activated after transient silencing, a process termed zygotic genome activation (ZGA). Despite its fundamental role in totipotency and the initiation of life, the precise mechanism underlying ZGA initiation remains unclear. The existence of minor ZGA implies the possible critical role of noncoding RNAs in the initiation of ZGA. Here, we delineate the expression profile of long noncoding RNAs (lncRNAs) in early mouse embryonic development and elucidate their critical role in minor ZGA. Compared with protein-coding genes (PCGs), lncRNAs exhibit a stronger correlation with minor ZGA. Distinct H3K9me3 profiles can be observed between lncRNA genes and PCGs, and the enrichment of H3K9me3 before ZGA might explain the suspended expression of major ZGA-related PCGs despite possessing PolII pre-configuration. Furthermore, we identified the presence of PolII-enriched MuERV-L around the transcriptional start site of minor ZGA-related lncRNAs, and these repeats are responsible for the activation of minor ZGA-related lncRNAs and subsequent embryo development. Our study suggests that MuERV-L mediates minor ZGA lncRNA activation as a critical driver between epigenetic reprogramming triggered by fertilization and the embryo developmental program, thus providing clues for understanding the regulatory mechanism of totipotency and establishing bona fide totipotent stem cells.