Project description:Specification of germ cell fate establishes the germline development during early embryogenesis, yet the underlying mechanisms remain largely unknown in humans. Here we focus on the functional roles of the RNA-binding protein (RBP) DND1 in human germline specification. We deleted the whole genomic region of DND1 in human embryonic stem cells (hESCs), based on which we generated human primordial germ cell-like cells (hPGCLCs). Interestingly, we discovered an increased percentage of hPGCLCs induced from DND1 deleted hESCs, suggesting that DND1 may restrict the specification of human germ cell lineage. Mechanistic investigation reveals that DND1 forms a complex with another RBP NANOS3, in which DND1 facilitates the binding of NANOS3 to their target mRNAs. Furthermore, by analyzing the mRNAs bound by DND1 and NANOS3, we identified SOX4 mRNAs as the key downstream factor for DND1 and NANOS3 complex to restrict the induction of hPGCLCs. Interestingly, DND1 and NANOS3 function in processing bodies (P-bodies) to repress the translation of SOX4 mRNAs, where NANOS3 bridges the interaction between DND1 and the translational repressor 4E-T. Altogether, these findings identify the RBPs DND1 and NANOS3 as “break system” to restrict the entry of germ cell fate in humans.

Project description:DND1 is essential to maintain germ cell identity. Loss of Dnd1 function results in trans-differentiation of germ cells to somatic fates in zebrafish or the formation of teratomas in mice. To explore the mechanistic role of DND1, we recently developed a transgenic mouse line in which a functional fusion protein between DND1 and GFP is expressed from the endogenous locus (Dnd1GFP). Surprisingly, we found that this reporter distinguishes two male germ cell populations (MGCs) during late gestation cell cycle arrest (G0). Most MGCs express low levels of DND1-GFP, but 5-12% of the population express high levels of DND1-GFP. An RNA-seq time course during late gestation revealed that Dnd1 transcript levels as well as transcript levels for multiple epigenetic regulators are 5-10-fold higher in DND1-GFP-hi cells. Furthermore, using antibodies against DND1-GFP for RNA immunoprecipitation (RIP) time course sequencing during late gestation, we identified multiple epigenetic and translational regulators that are binding targets of DND1 during G0. Among these targets are DNA methyltransferases (Dnmts), the enzyme Setdb1 that imposes the nuclear lamina associated repressive histone mark (H3K9me3), five Tudor domain proteins (Tdrds), four actin dependent regulators (Smarcs), and a group of ribosomal and Golgi proteins. These data suggest that DND1 binds to transcripts of a group of epigenetic enzymes and gates their translation during MGC G0 arrest in late gestation.

Project description:Germ cell motility clock

Project description:DNA methylation plays an important role in regulating gene expression. In this study, a subpopulation with accelerated baseline motility (MG cells) or an immotile one (non-MG cells) from a colon cancer cell line (HCT116) were isolated, and gene expression levels of these cells with 5-azacytidine were measured by microarray analysis.

Project description:Analysis of our transcriptome and RNA immunoprecipitation experiments indicate DND1 acts as a positive regulator of chromatin modifiers in male germ cells, linking RNA binding proteins and epigenetic regulation.

Project description:Cell movement is an important character during epithelial-mesenchymal transition. A subpopulation with accelerated baseline motility (MG cells) or an immotile one (non-MG cells) from a colon cancer cell line (HCT116) were isolated. In this study, to investigate changes of global DNA methylation status between these two subpopulations, genomic DNA from these cells were subjected to DNA methylation array.

Project description:microRNAs are small non-coding RNAs, which promote either mRNAs degradation or block their translation through binding to partially complementary sequences of their target mRNAs. We have previously isolated a subpopulation with accelerated baseline motility (MG cells) or an immotile one (non-MG cells) from a colon cancer cell line (HCT116). In this study, using these subpopulations, we identified miRNAs, which were involved in acquisition of a cell migratory phenotype.

Project description:DND1 PAR-CLIP in human HEK293 and mouse germ line cells

Project description:The DND microRNA-mediated repression inhibitor 1 (DND1) is a conserved RNA binding protein (RBP) and plays an important role in survival and maintenance of primordial germ cells (PGCs) and the development of the male germline in zebrafish and mice. It was shown to be expressed in human pluripotent stem cells (PSCs), PGCs, and spermatogonia, but little is known about its specific role in pluripotency and human germline development. Here we use CRISPR/Cas mediated knockout and PGC-like cell (PGCLC) differentiation in human iPSCs to analyse if DND1 (1) plays a role in maintaining pluripotency and (2) in specification of PGCLCs. We generated several clonal lines with biallelic loss of function mutations and analysed their potential to differentiate towards PGCLCs and their gene expression on RNA and protein level via bulk RNA sequencing and mass spectrometry. The generated knockout iPSCs showed no differences in pluripotency gene expression, proliferation nor trilineage differentiation potential, but yielded reduced numbers o PGCLCs compared to their parental iPSCs. RNAseq analysis in PGCLCs showed significantly reduced expression of genes associated with cellular developmental processes and cell differentiation in knockout cells, including known markers for PGCs (NANOS3, SOX17, PRDM1, EPCAM) and naïve pluripotency (TFCP2L, DNMT3L).

Project description:Gene expression analysis of control and Dnd1-cKO germ cells at E11.5.