Project description:Pancreas organogenesis is a highly dynamic process where neighbouring tissue interactions lead to dynamic changes in gene regulatory networks that orchestrates endocrine, exocrine and ductal lineage formation. To understand the spatio-temporal regulatory logic we have used the Forkhead transcription factor Foxa2-Venus fusion (FVF) knock-in reporter mouse to separate the FVF+ pancreatic epithelium from the FVF- surrounding mesenchyme and blood vessels to perform a whole genome-wide mRNA expression profiling at embryonic day (E)12.5-15.5. This allowed us to annotate genes and molecular processes differentially regulated in these cell types and compartments of the pancreas to generate a dynamic transcriptional landscape.

Project description:We describe the transcriptomic differences in FoxA2-Venus high and low cell populations in neural tube organoids.

Project description:mRNA profiling of mouse ureters comparing wild-type ureter vs. ureters from mice having whole body deletion of miR-143 and miR-145 which results in abnormal ureter peristalsis and hydronephrosis We used microarrays to detail the global program of gene expression in wild-type and miR-143/145-deficient ureters which revealed dysregulation of genes linked to smooth muscle morphology and function. Two condition experiment: wild type vs miR-143/145 KO; biological replicates: individual mice - 2 wild type, 2 mutant. One replicate per array.

Project description:RNASeq was performed on mRNA obtained from OMP expressing and TRPC2 expressing olfactory sensory neurons from 48hpf zebrafish embryos. Single-cell suspensions of 48hpf olfactory epithelia were FAC-sorted to obtain RFP expressing or venus expressing cells (RFP sample1: 3500 cells, RFP sample2: 5500 cells. Venus sample1: 676 cells, venus sample2:201 cells. RNA was extracted using QIAGEN RNEasy kit and cDNA was synthesized using a custom oligo-dT primer containing T7 promoter sequence courtesy of Jim Eberwine, University of Pennsylvanina. In vitro RNA amplification was carried out through one round for OMP:RFP neurons and through two rounds for TRPC2:venus neurons as per the protocol in Morris et al, 2011. Adapter-tagged libraries were synthesized using Illumina TruSeq v2.0 and deep-sequenced on HiSeq2500 to obtain ~100million reads per sample.

Project description:mRNA profiling of mouse spleens comparing wild type spleens vs. spleens from mice having deletion of RBP-J in cells of the renin lineage which results in B-cell leukemia We used microarrays to detail the global program of gene expression in wild type and the leukemic spleens which revealed upregulation of genes for cell cycle progression and B cell identity in the leukemic spleens. Two condition experiment: wild type vs leukemic; biological replicates: individual mice - 2 wild type, 2 mutant. One replicate per array.

Project description:During embryogenesis, the pancreas develops from separate dorsal and ventral buds, which fuse to form the mature pancreas. Little is known about the functional differences between these two buds or the relative contribution of cells derived from each portion to the pancreas after fusion. To follow the fate of dorsal or ventral bud derived cells in the pancreas after fusion, we produced chimeric Elas-GFP transgenic/wild type embryos in which either dorsal or ventral pancreatic bud cells expressed GFP. We found that ventral pancreatic cells migrate extensively into the dorsal pancreas after fusion, whereas the converse does not occur. Moreover, we found that annular pancreatic tissue is composed exclusively of ventral pancreas derived cells. To identify ventral pancreas specific genes that may play a role in pancreatic bud fusion, we isolated individual dorsal and ventral pancreatic buds, prior to fusion, from stage 38/39 Xenopus laevis tadpoles and compared their gene expression profiles. Morpholino-mediated knockdown of one of these ventral specific genes, transmembrane 4 superfamily member 3 (tm4sf3), inhibited dorsal-ventral pancreatic bud fusion as well as acinar cell differentiation. Conversely, overexpression of tm4sf3 promoted the development of annular pancreas. Our results are the first to define molecular and behavioral differences between the dorsal and ventral pancreas, and suggest an unexpected role for the ventral pancreas in pancreatic bud fusion. Experiment Overall Design: We analyzed two samples of dorsal and two samples of ventral pancreatic buds.

Project description:The winged helix transcription factor Foxa2 regulates Pdx1 gene expression and fetal endocrine pancreas development. We show here by inducible gene ablation that Foxa2 inactivation in mature beta-cells induces hyperinsulinemic hypoglycemia in Foxa2loxP/loxP, Pdx1-CreERT2 adult mice. Mutant beta-cells exhibited a markedly increased pool of docked insulin granules, some of which were engaged in sequential or compound exocytosis, consistent with an increased first phase glucose-stimulated insulin secretion. Expression of multiple genes involved in vesicular trafficking, membrane targeting and fuel-secretion pathways is dependent on Foxa2. In addition, impaired cytosolic Ca2+ oscillations and elevated intracellular cAMP production accompanied this secretory defect, and were likely contributors to the sensitization of the exocytotic machinery. Thus, in the absence of Foxa2, alterations in intracellular second messenger signaling redistribute the insulin granules into the readily releasable pool. We conclude that Foxa2 is required both for the fetal pancreas development and for the function of mature beta-cells.

Project description:We performed 7 single-cell RNAseq experiments to identify progenitor cell populations in the small intestine. To also capture rare intestinal cell populations such as stem cells and secretory cells we not only analyzed crypt cells from wildtype mice but also used two reporter mouse lines: i) the FltpZV/+ mouse line of which we mixed live crypt cells with Fltp Venus reporter (FVR) positive cells at different ratios and ii) Foxa2-Venus fusion (FVF) reporter mice. The FVF-enriched samples are part of another manuscript (link to GEO# will be provided). Using this FACS-based enrichment strategy, we could identify a Paneth cell-primed ISC population and potential progenitor populations for all intestinal lineages. To assess the role of Wnt/PCP signaling for enteroendocrine and Paneth cell differentiation, we performed 4 single-cell RNAseq experiments from crypt cells of Celsr1crsh/+; FltpZV/ZV compound mutant mice. When comparing control and mutant cells we found specific transcriptional alterations in the Paneth cell lineage.

Project description:The purpose of this study is to determine the roles and hierarchy of the transcription factors Foxa2, Gata4, Nr5a2, and Ptf1a in the control of the physiology of the adult exocrine pancreas. Knockouts of each gene were induced by tamoxifen treatment of mice bearing a Ptf1aCreER allele as well as floxed alleles of the gene(s) to be knocked out. Four to eight RNA-seq libraries were analyzed for control animals, knockouts of each single gene, pairwise knockouts of Ptf1a & Foxa2, Ptf1a & Gata4, Ptf1a & Nr5a2, Foxa2 & Gata4, Gata4 & Nr5a2, and a four gene knockout of Ptf1a, Foxa2, Gata4, and Nr5a2 (eleven different genotypes in all).

Project description:We used a mouse strain in which one Tbx3 gene was replaced with the yellow fluorescent protein variant Venus. Luminal cells had either very high Tbx3 promoter activity or not at all. We performed an expression analysis on luminal mammary epithelial cells sorted based on their Venus expression (reporting Tbx3 promoter activity) to investigate the difference between these two cell populations. Mammary epithelial cells from 3 Tbx3-Venus-KI adult virgin female mice (FVB background) were pooled and luminal cells were sorted into a Venus-hi and a Venus-neg sample. There were no repeats for this study.