Lysosomal catabolic activity promotes the exit of murine totipotent 2-cell state by silencing early-embryonic retrotransposons.

Abstract

During mouse preimplantation development, a subset of retrotransposons/genes are transiently expressed in the totipotent 2-cell (2C) embryos. These 2C transcripts rapidly shut down their expression beyond the 2C stage of embryos, promoting the embryo to exit from the 2C stage. However, the mechanisms regulating this shutdown remain unclear. Here, we identified that lysosomal catabolism played a role in the exit of the totipotent 2C state. Our results showed that the activation of embryonic lysosomal catabolism promoted the embryo to exit from the 2C stage and suppressed 2C transcript expression. Mechanistically, our results indicated that lysosomal catabolism suppressed 2C transcripts through replenishing cellular amino-acid levels, thereby inactivating transcriptional factors TFE3/TFEB and abolishing their transcriptional activation of 2C retrotransposons, MERVL (murine endogenous retrovirus-L)/MT2_Mm. Collectively, our study identified that lysosomal activity modulated the transcriptomic landscape and development in mouse embryos and identified an unanticipated layer of transcriptional control on early-embryonic retrotransposons from lysosomal signaling.