Project description:Nodal signaling, mediated through SMAD transcription factors, is necessary for pluripotency maintenance and endoderm commitment. We have identified a new motif, termed SMAD Complex Associated (SCA) that is bound by SMAD2/3/4 and FOXH1 in human embryonic stem cells (hESCs) and derived endoderm. We demonstrate that two bHLH proteins - HEB and E2A - bind the SCA motif at regions overlapping SMAD2/3 and FOXH1. Further, we show that HEB and E2A associate with SMAD2/3 and FOXH1, suggesting they form a complex at critical target regions. This association is biologically important, as E2A is critical for mesendoderm specification, gastrulation, and Nodal signal transduction in Xenopus tropicalis embryos. Taken together, E2A is a novel Nodal signaling cofactor that associates with SMAD2/3 and FOXH1 and is necessary for mesendoderm differentiation. ChIP-seq of Smad2/3 and Input in X.tropicalis, stage 10.5 embryo.

Project description:Nodal signaling, mediated through SMAD transcription factors, is necessary for pluripotency maintenance and endoderm commitment. We have identified a new motif, termed SMAD Complex Associated (SCA) that is bound by SMAD2/3/4 and FOXH1 in human embryonic stem cells (hESCs) and derived endoderm. We demonstrate that two bHLH proteins - HEB and E2A - bind the SCA motif at regions overlapping SMAD2/3 and FOXH1. Further, we show that HEB and E2A associate with SMAD2/3 and FOXH1, suggesting they form a complex at critical target regions. This association is biologically important, as E2A is critical for mesendoderm specification, gastrulation, and Nodal signal transduction in Xenopus tropicalis embryos. Taken together, E2A is a novel Nodal signaling cofactor that associates with SMAD2/3 and FOXH1 and is necessary for mesendoderm differentiation.

Project description:Smad2, Smad3, Smad4 and Foxh1 ChIPseq performed in pluripotent mESC and embryonic bodies (EBs). RNAseq were performed in WT mESCs and Ebs of WT, Smad2KO, Smad3KO and Smad2/3DKO.

Project description:The epigenome of a cell is established and maintained by chromatin modifiers and remodelers, which are recruited to the chromatin by specific transcription factors. In this report, we show that nodal cross-talks with the epigenome through TRIM33-H3K18ac to mediate mesendodermal genes expression. The chromatin accessibility at mesendodermal genes depends on TRIM33. Moreover, histone acetylation is essential for TRIM33 recruitment to many nodal target genes involved in mesendodermal differentiation. The distribution pattern of the H3K18ac mark changes from foci to expanded domains at the mesendodermal genes promoter during embryonic stem cells (ESCs) differentiation to embryoid bodies (EBs). This could be the cue to facilitate TRIM33 colocalized with Smad2/3 at chromatin in EBs but not in ESCs. TRIM33 interacts with the H3K18ac “writer” p300 dependent on nodal signaling, providing a positive feedback to promote activation of mesendodermal genes and association with HDAC1 plays a negative role in activation of mesendodermal genes.

Project description:The Forkhead Box H1 (FoxH1) protein is a co-transcription factor recruited by phosphorylated Smad2 downstream of several TGFbetas, including Nodal-related proteins. We have reassessed the function of zebrafish FoxH1 using antisense morpholino oligonucleotides (MOs) ( 5’ TGCTTTGTCATGCTGATGTAGTGGG 3’) as compared with a control morpholino (MO) with no specific target (5’ TAGTTAAGCCTAGCTCTCATAAACT 3’). Probing FoxH1 morphant RNA by microarray, we identified a cohort of five keratin genes – cyt1, cyt2, krt4, krt8 and krt18 - that are normally transcribed in the embryo’s enveloping layer (EVL) and which have significantly reduced expression in FoxH1-depleted embryos. Keywords: 40% epiboly-stage embryos, injected with either 8 ng of a 25mer morpholino (MO) with no specific target or 8 ng of a 25mer MO with reverse complementary to the 5’ untranslated region of the zebrafish foxH1 gene.

Project description:We identified Nodal and Foxh1 downstream targets by performing RNA-seq of embryos either treated with small molecule SB431542 or microinjected morpholino anti-sense oligo against Foxh1.

Project description:Morphogen gradients expose cells to different signal concentrations and induce target genes with different ranges of expression. To determine how the Nodal morphogen gradient induces distinct gene expression patterns during zebrafish embryogenesis we characterized the binding sites of the Nodal-specific transcription co-activators Smad2 and FoxH1 in wild-type, Nodal-overexpressing or Nodal signaling inhibited embryos. We found that FoxH1 binds to Nodal targets loci even in the absence of the signal, while Smad2 only binds and colocalizes to FoxH1 upon induction of the Nodal pathway.

Project description:We defined the genome-wide binding regions of Smad2/3 and Foxh1 at mid-gastrula stage Xenopus tropicalis embryos, at which Nodal signaling and Foxh1 are critical in mesendoderm specification program.

Project description:This study aimed to further understand context-specific direct Wnt target gene expression through the use of beta-catenin and FoxH1 ChIP Sequencing data at various developmental stages representing both maternal and zygotic Wnt signalling. Results were further supported through the use of RNA sequencing data from beta-catenin, FoxH1 and nodal gene knock down assays.

Project description:We examined the binding dynamics of the maternal TF Foxh1 over a time course of germ layer development. Foxh1 binding was compared to the onset of zygotic transcription (RNA pol II), binding of the co-repressor Tle, Nodal signaling (Smad2/3) and the zygotic endoderm TF Foxa.