Project description:The experiment aim to show where COUPTFII is binding in Human cells as HUDEP21/2. The cells do not naturally express COUPTFII so we overexpressed it. We do then a comparison between the cells in which is not expressed and the on in which it is (and we compare the binding profile in HIDEP1 and HUDEP2)

Project description:SOX6 CUT&RUN on HUDEP1 over expressing SOX6-Flag. The experiment is done using and anti Flag Ab to assist the genome wide binding profile of SOX6 in HUDEP1 (Human Umbilical cord blood-Derived Erythroid Progenitor-1).

Project description:In our attempts to profile different regulators of the WNT/b-catenin transcriptional complex, CUT&RUN failed to produce consistent binding patterns of the non-DNA-binding b-catenin. We developed a modified CUT&RUN protocol, which we refer to as LoV-U (Low Volume and Urea), that enables the generation of robust and reproducible b-catenin binding profiles. CUT&RUN-LoV-U can profile all classes of chromatin regulators tested, as shown by datasets targeting the TCF/LEF transcription factors and various histone modifications. CUT&RUN-LoV-U uncovers direct WNT/β-catenin target genes in human cells, as well as in ex vivo cells isolated from developing mouse tissue.

Project description:Wnt/β-catenin signaling is a highly organized biochemical cascade that triggers a gene expression program in the signal-receiving cell. The Wnt/β-catenin-driven transcriptional response is involved in virtually all cellular processes during development, homeostasis, and its deregulation causes human disease. However, outstanding questions remain unanswered. A first question concerns cell-specificity: how this response is integrated into lineage-specific choices is still unknown. A second question concerns time: it is not known whether β-catenin associates with its targets simultaneously or in a time-dependent fashion. For instance, while TCF/LEF and other components of the Wnt transcriptional complex are constitutively associated with the chromatin, it is β-catenin arrival, upon Wnt induction, that launches target genes transcription. Therefore, discovering the dynamics of the genome-wide β-catenin binding pattern is required to unambiguously define the direct targets of Wnt signaling To address these questions, we realized a time-resolved atlas of β-catenin genome-wide occupancy in two human cell types, human embryonic kidney cells 293T (HEK293T) and human embryonic stem cells (hESCs). To this end, we treated HEK293T and hESCs with the GSK3 inhibitor/Wnt activator CHIR99021 (10 mM) for 3 days, and assessed β-catenin binding via CUT&RUN-LoV-U (Zambanini et al., 2022) 90 minutes, 4 hours, 24 hours and 3 days after the onset of the stimulation. This approach allowed us to establish that β-catenin repositions to different genomic loci along stimulation time, showing that a definition of Wnt target genes must take into account the time-dimension. Moreover, β-catenin physical targets are largely cell-type specific, as only a subset of them is present across the examined contexts.

Project description:Polycomb repressive complexes (PRC) are frequently implicated in human cancer acting either as oncogenes or tumor suppressors. Here we show that PRC2 is a critical regulator of Kras-driven non-small-cell lung cancer (NSCLC) progression. Modulation of PRC2 by either Ezh2 overexpression or Eed deletion enhances Kras-driven adenomagenesis and inflammation, respectively. Eed-loss-driven inflammation leads to massive macrophage recruitment and marked decline in tissue function. Additional Trp53 inactivation activates a cell autonomous epithelial-to-mesenchymal transition (EMT) program leading to an invasive mucinous adenocarcinoma. A switch between methylated/acetylated chromatin underlies the tumor phenotypic evolution, prominently involving genes controlled by Hippo/Wnt-signaling. Our observations in the mouse models were conserved in human cells. Importantly, PRC2 inactivation results in context-dependent phenotypic alterations, with implications for its therapeutic application. We generated ChIP-seq from primary Kras;p53 (KP) cells in culture with and without Eed (KPE) and from KP primary tumors generated by injection of NSCLC into the tail vein. Mice were sacrificed on the onset of shortness of breath. We generated genome-wide expression profiles (RNA-seq) and Nuclease Accessibility (NA)-seq in primary KP and KPE tumor cells. NA-seq was also performed in A549 cells.

Project description:CUT&RUN LoV-U was performed against SMAD4 using two different antibodies in M170117 human melanoma cells under 4 conditions: Control (DMSO), TGFb, MEKi and TGFb + MEKi (Both).

Project description:This experiment includes the sequencing files for different hp1a-tn5 hybrids, together with standard ATAC-seq and ChIP-seq data used to evaluate the best construct.

Project description:The non-tumourigenic human breast epithelial cell line MCF10A is the cell line most commonly used as a model for normal human breast cells. This dataset provides a reference genome for MCF10A. The whole genome, high-throughput sequencing was performed using the Illumina NovaSeq 6000 PE150 system. Both NGS and bioinformatic analysis were performed by Novogene (UK).

Project description:This experiment aimed at investigating how O-GlcNac occupancy sites are impacted by RNA Polymerase II removal upon doxycycline stimulation. These human colon adenocarcinoma DLD-1 cells express OsTIR and a cassette encoding mini-AID (mAID) and fluorescent protein mClover (mAID+mClover) at the initiation site of the endogenous Rpb1 gene locus (POLR2A) (Nagashima 2019).

Project description:This study aimed at identifying differentially expressed protein-coding genes after bariatric surgery. Muscle biopsies were taken from vastus lateralis before and 3 months after bariatric surgery (i.e. sleeve gastrectomy or Roux-en-Y gastric bypass).