Project description:Zebrafish liver: Tg(fabp10a:pt-beta-catenin) versus non-transgenic control siblings

Project description:Gene expression profiles of endothelial cells from mutants and siblings of tsu3994

Project description:Expression analysis of genes potentially regulated by BMPRII and beta-catenin. BMPRII has been linked as a genetic factor to the disease pulmonary arterial hypertension. Comparison of total mRNA obtained from human pulmonary artery endothelial cells treated with control, bone morphogentic protein receptor II, or beta-catenin siRNA

Project description:To identify evolutionarily conserved Beta-catenin protein interactions, Beta-catenin mRNA from various metazoans was injected into Xenopus embryos and immunopurified at gastrula stage. Beta-catenin complexes were then separated on an SDS-PAGE gel and subjected mass spectrometric analysis

Project description:Mural lymphatic endothelial cells regulate meningeal angiogenesis in the zebrafish

Project description:β-catenin signaling can be both a physiological and an oncogenic pathway in the liver. It controls compartmentalized gene expression, allowing the liver to ensure its essential metabolic function. It is activated by mutations in 20 to 40% of hepatocellular carcinomas with specific metabolic features. We decipher the molecular determinants of β-catenin-dependent zonal transcription using mice with β-catenin-activated or -inactivated hepatocytes, characterizing in vivo their chromatin occupancy by Tcf4 and β-catenin, their transcriptome and their metabolome. We find that Tcf4 DNA-bindings depend on β-catenin. Tcf4/β-catenin binds Wnt-responsive elements preferentially around β-catenin-induced genes. In contrast, genes repressed by β-catenin bind Tcf4 on Hnf4-responsive elements. β-catenin, Tcf4 and Hnf4α interact, dictating β-catenin transcription which is antagonistic to that elicited by Hnf4α. Finally, we find the drug/bile metabolism pathway to be the one most heavily targeted by β-catenin, partly through xenobiotic nuclear receptors. We conclude that β-catenin patterns the zonal liver together with Tcf4, Hnf4α and xenobiotic nuclear receptors. This network represses lipid metabolism, and exacerbates glutamine, drug and bile metabolism, mirroring hepatocellular carcinomas with β-catenin mutational activation. In vivo liver samples in 4 conditions: Betacat activated (WCE, Tcf4 chipseq, Betacat chipseq, mRNAseq with 2 replicates), Betacat null (WCE, Tcf4 chipseq, mRNAseq with 2 replicates), Betacat control (mRNAseq with 2 replicates), Wild type (mRNAseq with 2 replicates)

Project description:Regulation of zebrafish endothelial gene expression by miR-126

Project description:To address the role of endothelial Wnt/β-catenin signaling in CNS angiogenesis, we compared the bulk transcriptomes of WT and Wnt/β-catenin signaling-deficient PHBC endothelial cells, prior to CNS vascular invasion. To this end, we used three approaches to abrogate endothelial Wnt/β-catenin signaling: Morpholino-mediated knock-down of gpr124, reck or wnt7aa. We find that the expression of mmp25b is decreased in PHBC endothelial cells of all Wnt/β-catenin signaling deficient conditions as compared to the WT controls.

Project description:Mural lymphatic endothelial cells regulate meningeal angiogenesis in the zebrafish (pericytes)

Project description:Targeting oncogene expression to endothelial cells induces proliferation of the myelo-erythroid lineage by repressing the notch pathway