Project description:We derive experimental conditions for the derivation of marmoset trophoblast like cells. Marmoset naïve PSC form extraembryonic mesoderm in human TSC conditions, whilst TGFβ/NODAL, FGF/ERK and WNT signalling control marmoset peri- and postimplantation trophoblast identity.

Project description:Bulk RNA-seq of H9 human embryonic stem cells undergoing conversion from primed to naive pluripotency using the chemical/epigenetic resetting method in tt2iL+Go-based media conditions. The dataset includes three wild-type clones (WT1-3) and two KLF17-null clones (KO1-2) generated through CRISPR-Cas9-mediated gene editing. Samples were collected at day 0 (primed cells in mTeSR1 (StemCell Technologies)), then throughout resetting at day 2 (cells in cRM-1), day 8 (cells in cRM-2+XAV939, immediately prior to the first passage), naive passage 5 (p5), 7 (p7) and 10 (p10) (cells in tt2iL+Go).

Project description:To understand the human placenta development, we investigated the features of two trophoblast models, trophoblast organoids and trophoblast stem cells, with the aim of identifying which type of trophoblast in vivo they most closely resemble. To this end, we profiled the transcriptomes from the two models by using the Truseq stranded mRNA library kit (Illumina).

Project description:In this study, we performed bulk RNA-seq of pluripotent stem cells (PSCs) and induced pre-somitic mesoderm (PSM) cells of six different mammalian species. The species studied are: mouse (Mus musculus), marmoset (Callithrix jacchus), rabbit (Oryctolagus cuniculus), human (Homo sapiens), cattle (Bos taurus) and southern white rhinoceros (Ceratotherium simum). We used mouse ESCs, marmoset iPSCs, rabbit ESCs, human iPSCs, bovine ESCs and rhinoceros ESCs to induce PSM-like cells from these species following protocols already described. PSC samples were extracted under maintenance conditions. PSM samples were extracted on the day when the differentiation efficiency was higher based on the percentage of cells expressing the PSM marker TBX6. We used identical culture conditions when extracting the induced PSM cells to minimize the effect of external factors on our results. Two replicates per each cell type and species were collected for a total of 24 samples. We compared the expression levels of more than 10,000 orthologous protein-coding genes across the six species. With this, we determined that the species-specific segmentation clock periods might be derived from species-specific gene expression profiles controlling basic biological processes.

Project description:To elucidate the interplay between signal transduction and transcriptional regulation in cellular reprogramming, distinct induction routes from epiblast stem cells to naïve pluripotency were evaluated and compared.

Project description:To elucidate the interplay between signal transduction and transcriptional regulation in cellular reprogramming, distinct induction routes from epiblast stem cells to naïve pluripotency were evaluated and compared.

Project description:We encapsulated common marmoset pluripotent stem cells (cmPSCs) in agarose microgels and optimised culture conditions to generate epiblast and amnion spheroids. Using this system, we investigate the effects of signalling perturbations on epiblast and amnion spheroids as a model for early lineage specification

Project description:Single-cell RNA-seq was performed on homozygous Sox2 knockout induced pluripotent stem (iPS) cells, where residual Sox2 expression is observed from incompletely silenced retroviral transgenes. These were compared to Sox2-low iPS cells rescued by exogenous Sox2 transgenic expression, and wild-type iPS cells to assess the lineage expression profile of Sox2-low cells and degree of transcriptional heterogeneity in each population.

Project description:Our data show that Wnt and FGF signalling, and the downstream transcription factors NKX2.1 and TFAP2C, promote human alveolar or airway fate respectively. Moreover, we have functionally validated cell-cell interactions in human lung alveolar patterning. We show that Wnt signalling from differentiating fibroblasts promotes alveolar type 2 cell identity, whereas myofibroblasts secrete the Wnt inhibitor, NOTUM, providing spatial patterning. Our organoid system recapitulates key aspects of human lung development allowing mechanistic experiments to determine the underpinning molecular regulation.

Project description:We characterized the epigenetic landscape of human colorectal cancer (CRC). To this extent, we performed gene expression profiling using high throughput sequencing (RNA-seq) and genome wide binding/occupancy profiling (ChIP-seq) for histone modifications correlated to transcriptional activity, enhancers, elongation and repression (H3K4me3, H3K4me1, H3K27Ac, H3K36me3, H3K27me3) in patient-derived organoids (PDOs), and in normal and tumoral primary colon tissues. We also generated ChIP-seq data for transcription factors YAP/TAZ in human CRC PDOs.