Mga safeguards embryonic stem cells from acquiring extraembryonic endoderm fates
Jinzhong Qin, Congcong Wang, Yaru Zhu, Ting Su, Lixia Dong, Yikai Huang, Kunying Hao
Abstract
-null ESCs exhibit impaired self-renewal and spontaneous differentiation to primitive endoderm (PE). Our data support a model in which Mga might serve as a scaffold for PRC1.6 assembly and guide this multimeric complex to specific genomic targets including genes that encode endodermal factors Gata4, Gata6, and Sox17. Our findings uncover an unexpected function of Mga in ESCs, where it functions as a gatekeeper to prevent ESCs from entering into the PE lineage by directly repressing expression of a set of endoderm differentiation master genes.
Topics & Concepts
EndodermBiologyEmbryonic stem cellCell biologyStem cellTranscription factorPsychological repressionCell fate determinationPolycomb-group proteinsGeneticsGATA6GATA4GeneGene expressionRepressorPluripotent Stem Cells ResearchCRISPR and Genetic EngineeringEpigenetics and DNA Methylation