Project description:Mouse small intestinal crypts were co-cultured with primary intestinal fibroblasts in Organoid Growth Media (OGM) with/without inhibitor for the prostaglandin E2 receptor Ptger4 (EP4), labeled respectively as “Ptger4-OFF” and “Ptger4-ON” conditions. Crypts co-cultured with fibroblasts in Ptger4-ON conditions (OGM containing DMSO vehicle control) acquired a spheroid morphology. Crypts co-cultured with fibroblasts in Ptger4-OFF conditions (OGM supplemented with Ptger4 inhibitor) developed into budding organoids. Fibroblasts were isolated from the small intestine of wild type mice. For the co-cultures 2 x 10e4 fibroblasts were seeded in 48-well plates overnight. Freshly isolated crypts (n = 500) were suspended in 1:1 Matrigel (Corning, 356231) and IntestiCult Organoid Growth Medium (Stem Cell Technologies, 06005) and added as an overlay on the fibroblasts. Crypts/fibroblasts were co-cultured with IntestiCult Organoid Growth Medium for 4 days. The ONO-AE3-208 Ptger4 (EP4) inhibitor (Cayman, 14522) dissolved in DMSO was added to the co-cultureson days 0 and 2 at a final concentration of 10 uM. DMSO was used as a vehicle control for the untreated co-cultures. On day 4, one pool of six Ptger4-ON co-cultures and one pool of six Ptger4-OFF co-cultures were subjected to the Drop-seq protocol.

Project description:In vitro 2D cultures of intestinal epithelial cells or epithelial cell lines have been widely used to study cell function and host-pathogen interactions in the bovine intestine. However, these cultures lack the cellular diversity encountered in the intestinal epithelium, and the physiological relevance of monocultures of transformed cell lines is uncertain. Little is also known of the factors that influence cell differentiation and homeostasis in the bovine intestinal epithelium, and few cell-specific markers that can distinguish the different intestinal epithelial cell lineages have been reported. Here we describe a simple and reliable procedure to establish in vitro 3D enteroid, or “mini gut”, cultures from bovine small intestinal (ileal) crypts. These enteroids contained a continuous central lumen lined with a single layer of polarized enterocytes, bound by tight junctions with abundant microvilli on their apical surfaces. Histological and transcriptional analyses suggested that the enteroids comprised a mixed population of intestinal epithelial cell lineages including intestinal stem cells, enterocytes, Paneth cells, goblet cells and enteroendocrine cells. We show that bovine enteroids can be successfully maintained long-term through multiple serial passages without observable changes to their growth characteristics, morphology or transcriptome. Furthermore, the bovine enteroids can be cryopreserved and viable cultures recovered from frozen stocks. Our data suggest that these 3D bovine enteroid cultures represent a novel, physiologically-relevant and tractable in vitro system in which epithelial cell differentiation and function, and host-pathogen interactions in the bovine small intestine can be studied.

Project description:TGFbeta/TNFalpha treated spheroid A549 cultures are a model of the epithelial-mesenchymal transition (EMT). These experiments capture the changes in global gene expression that result from cells being induced to undergo EMT (3D control vs 3D treated), but also the differences in gene expression when A549 is grown in spheroid cultures (2D control vs 3D untreated). EMT is efficiently induced only in the spheroid culture model.

Project description:Enteric glial cells (EGCs) are the main constituent of the enteric nervous system and share similarities with astrocytes from the central nervous system including their reactivity to an inflammator microenvironment. In this study we isolated GFAP-positive myenteric glia from FVB/hGFAP-eGFP transgenic postnatal day 7 mice. Following cell sorting for the eGFP reporter, GFAP-positive EGCs were cultured for 3 weeks to generate neurosphere-like bodies. This cell culture was stimulated with LPS for 48 h and cells were employed for gene expression profiling. LPS-stimulated cell cultures were compared to untreated control cell cultures. Enriched GFAP+ EGC cultures secreted increased levels of prominent inflammatory cytokines upon LPS stimulation. Further, in vitro cultures were compared to GFAP-eGFP-positive cells directly analyzed after cell sorting of small intestinal LMMP digests (in vivo) to assess alterations in transcriptomic profiles due to the in vitro culture. In vivo data and in vitro data were collected in three independent replicates. For each replicate one litter of FVB/hGFAP-eGFP transgenic mice at postnatal day 7 was employed. GFAP-eFP-positive small intestines were digested enzymatically and from the single cell suspensions eGFP-positive GFAP-expressing cells were sorted by fluorescence-activated cell sorting. For the in vivo data the cells were directly sorted into lysis buffer and further processed . For the in vitro data GFAP-eGFP cells were seeded onto coated plastic dishes for adherent growth and cultured in DMEM/F12-medium supplemented with antibiotics, N2, B27, bFGF and EGF. In the first passage cells were divided into two uncoated six well dishes to promote spheroid growth. One well was supplemented with LPS (100 µg/ml, from E. coli O26:B6, Sigma Aldrich, potency 3 EU/ng) for 48 h, the corresponding second well was left untreated and used as respective control. After 48 h, cells were processed for total RNA isolation.

Project description:This SuperSeries is composed of the following subset Series: GSE14818: Gene expression analysis of glioblastoma spheroid cultures I GSE14819: Array CGH analysis of glioblastoma serum grown adherent cultures GSE14820: Array CGH analysis of glioblastoma cell lines GSE14821: Array CGH analysis of single spheroids from glioblastoma spheroid cultures GSE14822: Array CGH analysis of glioblastoma spheroid cultures GSE14823: Array CGH analysis of glioblastomas GSE16666: Gene expression analysis of glioblastoma spheroid cultures II Refer to individual Series

Project description:The purpose of this study was to characterise iPSC-derived human intestinal epithelial organoids (iPSCo) by comparing these cultures with primary purified intestinal epithelial cells (IEC). Intestinal epithelial organoid (IEO) cultures were derived from at least three different lines of iPSCs, RNA was extracted and gene expression was profiled using RNA-sequencing. We compared these profiles with datasets we have previously derived from purified IEC from mature terminal ileum (TI) and sigmoid colon (SC) as well as human fetal proximal gut (FPG) and fetal distal gut (FDG).

Project description:The purpose of this study was to characterise iPSC-derived human intestinal epithelial organoids (iPSCo) by comparing these cultures with primary purified intestinal epithelial cells (IEC). Intestinal epithelial organoid (IEO) cultures were derived from at least three different lines of iPSCs, DNA was extracted and gene expression was profiled using Illumina Infinium HumanMethylation450Beadarray. We compared these profiles with datasets we have previously derived from purified IEC from mature terminal ileum (TI) and sigmoid colon (SC) as well as human fetal proximal gut (FPG) and fetal distal gut (FDG).

Project description:TGFbeta/TNFalpha treated spheroid A549 cultures are a model of the epithelial-mesenchymal transition (EMT). These experiments capture the changes in global gene expression that result from cells being induced to undergo EMT (3D control vs 3D treated), but also the differences in gene expression when A549 is grown in spheroid cultures (2D control vs 3D untreated). EMT is efficiently induced only in the spheroid culture model. A total of 8 samples are analyzed, corresponding to 4 conditions (2D control, 2D treated, 3D control, 3D treated) and 2 biological replicates.

Project description:Immortal spheroids were generated from fetal mouse intestine using the culture system developed to culture organoids from adult intestinal epithelium. Spheroids are made of a monostratified polarized epithelium displaying a poorly differentiated intestinal phenotype. The proportion of spheroids generated from intestinal explants progressively decreases from fetal to postnatal period, with a corresponding increase in production of organoids. Spheroid cells show indefinite self-renewing properties but exhibit a transcriptome strikingly different from that of adult intestinal stem cells reminiscent of incompletely caudalized progenitors. The receptor Lgr4, but not Lgr5, is essential for their growth. Trop2/Tacstd2 and Cnx43/Gja1, two markers highly enriched in spheroids, are expressed throughout the E14 intestinal epithelium. Comparison of in utero and neonatal lineage tracing using Cnx43-CreER and Lgr5-CreERT2 mice identified spheroid-generating cells as developmental progenitors involved in generation of the prenatal intestinal epithelium. Ex vivo, spheroid cells have the potential to differentiate into organoids, thus qualifying them as a new type of intestinal stem-like cells. Two-channel microarray experiments were performed from spheroid/organoid pairs isolated each from a given embryo. Following initial seeding of small intestine from a given embryo/mouse (at E16, E18 or P0), spheroids and organoids were selectively picked up for each animal and replated for 3 passages to reach sample homogeneity. Hybridization was performed on the 4 independent pairs with dye-swap.

Project description:Liver X Receptor (LXR) activation in intestinal epithelial organoids promotes their growth in vitro. To investigate the downstream effect of LXR activation in intestinal epithelial cells and identify potential pathways driving regeneration, we carried out an unbiased transcriptomic analysis of intestinal epithelial organoids stimulated with the LXR agonist GW3965. In detail, wild type small intestinal crypts were seeded in vitro and stimulated with vehicle (DMSO) or GW3965. After six hours, closing crypts (organoids) were collected for RNA extraction and were analyzed by RNA sequencing.