Project description:To investigate the underlying mechanisms mediating resistance to NOTCH inhibition in Pten-null T-ALL tumor cells we performed gene expression profiling of isogenic Pten-positive and Pten-deleted leukemia lymphoblasts after acute treatment with DBZ in vivo. This analysis revealed that, while direct NOTCH1 target genes (such as Hes1, Dtx1, PtcrA, HeyL and Notch3) are effectively downregulated in both Pten-positive and Pten-deleted tumors, genetic ablation of Pten elicits a global reversal of much of the transcriptional effects of NOTCH inhibition. We performed microarray gene expression analysis of GSI treatment in isogenic Pten KO or WT NOTCH1 induced leukemias

Project description:Bulk RNA sequencing data of both adult and fetal enteroid lines cultured for 1 or 3 days. Conditions include enteroids grown in control basal media and basal media with the notch inhibitor DBZ added.

Project description:We report the establishment of a stable 3D in vitro organoid culture procedure from human fallopian tube samples and confirming experimentally the existence of adult stem cells in this epithelial tissue. Long term growth and the differentiation of the organoids depend on the interplay between the paracrine signaling pathways Wnt, NOTCH and BMP, since R spondin 1 and Wnt3a are required for preservation of stemness in concert with continuous suppression of TGF-beta activity. Microarray analysis revealed that inhibition of NOTCH signaling by the gamma-secretase inhibitor DBZ leads to down-regulation of a gene cluster associated with pluripotency, as the adult stem cell signature is significantly enriched in the list of downregulated targets.

Project description:Gamma-secretase inhibitors (GSIs), which block the activation of NOTCH receptors, are being tested in the treatment of T-cell acute lymphoblastic leukemia (T-ALL). Thus far, limited antileukemic cytotoxicity and severe gastrointestinal toxicity have restricted the clinical application of these targeted drugs. Here we show that combination therapy with GSIs plus glucocorticoids can improve the antileukemic effects of GSIs and reduce their gut toxicity in vivo. Inhibition of NOTCH1 signaling in glucocorticoid-resistant T-ALL restored glucocorticoid receptor auto-up-regulation and induced apoptotic cell death through induction of BIM expression. Additionally, cotreatment with glucocorticoids induced Ccnd2 upregulation in the gut which protected mice from the intestinal secretory metaplasia typically induced by loss of NOTCH signaling. These results support a role for glucocorticoids plus GSIs in the treatment of glucocorticoid-resistant T-ALL. Experiment Overall Design: Experiments analyzing the interacition of dexamethasone and the gamma-secretase inhibitor DBZ were carried out in 6-week-old C57/Black6 female mice (Jackson Laboratory). In these studies we treated mice with vehicle (DMSO) (n=2), dexamethasone (15 mg/kg) (n=2), DBZ (10 micromol/kg) (n=2) and dexamethasone (15 mg/kg) plus DBZ (10 micromol/kg) (n=2) daily by intraperitoneal injection for 5 days. At the end of the treatment, animals were euthanized and segments of the small intestine were collected and processed for RNA extraction, histological and immunohistochemical analysis.

Project description:DBZ (dibenzazepine) treatment in C57BL/6 mice, pancreatic gene expression

Project description:Using cell-based approaches and experimental mouse models for pulmonary TB we unveiled MDSCs as new myeloid populations directly interacting with Mycobacterium tuberculosis (Mtb). MDSCs readily phagocytosed Mtb, released proinflammatory (IL-6, IL-1M-NM-1) and immunomodulatory (IL-10) cytokines while retaining their suppressive capacity. MDSCs were identified at the site of infection in disease-resistant and -susceptible mice during pulmonary TB. Excessive MDSC accumulation in lungs correlated with elevated surface expression of IL-4RM-NM-1 and heightened TB lethality. Microarray experiments were performed as dual-color hybridizations on Agilent mouse whole genome catalog 44K arrays. To compensate for dye-specific effects, a dye-reversal color-swap was applied.

Project description:We identified specific long-term culture conditions that allow the formation of 3-dimensional human gastric spheroids, which can be differentiated by withdrawal of Wnt3A and R-spondin1 to human gastric organoids. These cultures can expand indefinitely and exhibit important characteristics of human stomach tissue. Furthermore, these 3-dimensional cultures can be transferred into 2-dimensional primary epithelial cell layers, which can be successfully infected with H. pylori and thereby provide ideal conditions to study infections in vitro. Microarray experiments were performed as dual-color hybridizations on Agilent human whole genome catalog 44K arrays. To compensate for dye-specific effects, a dye-reversal color-swap was applied.

Project description:Microarrays were used to examine gene expression changes that may be present in the fallopian tube epithelium of morphologically normal BRCA1 mutation positive and negative subjects. Fallopian tube epithelia has been implicated as an early point of origin for serous carcninoma. By examining the early events present in the microenvironment of this tissue between BRCA1 mutation carriers and non-carriers, we hoped to elucidate mechanisms that may lead to the development of epithelial ovarian cancer. Laser microcapture of samples from 12 BRCA1 mutation carriers and 12 non-mutation subjects was performed. Samples were further grouped according to menstrual cycle.

Project description:Intracellular parasites reprogram the host functions for their survival and reproduction. Conversely, the infected host attempts to defend the microbial insult. The extent and relevance of parasite-mediated host response in vivo remains poorly studied. We utilized Eimeria falciformis, an obligate intracellular parasite completing its entire life cycle in the mouse intestinal epithelium, to identify and validate the host determinants of the parasite infection. The most prominent mouse genes induced during the onset of asexual (24 hrs) and sexual (144 hrs) parasite cycle include IFNg-regulated factors, e.g., immunity-related GTPases IRGA6/B6/D/M2/M3, guanylate-binding proteins GBP2/3/5/8, chemokines CxCL9-11 and several enzymes of the kynurenine pathway including indoleamine 2,3-dioxygenase 1 (IDO1). These results indicated a multifarious innate defense (tryptophan catabolism, IRG, GBP, chemokines signaling) mounted by epithelial cells, and a consequential adaptive immune response (chemokines-cytokines signaling, lymphocyte recruitment). A notable increase in the inflammation- and immunity-associated transcripts correlated with the severity of infection and influx of B-cells, T-cells and macrophages to the parasitized tissue. Indeed, parasite growth was enhanced in the animals inhibited for CxCr3, a major chemokine receptor on immune cells. Interestingly, despite a prominent induction, the mouse IRGB6 failed to recognize and disrupt the parasitophorous vacuole in the parasite cultures, implying an immune evasion by E. falciformis. Likewise, the oocyst output was impaired in IFNg-R-/- and IDO1-/- mice, which signifies a subversion of IFNg-signaling by the parasite to promote its growth. In brief, the Eimeria-rodent model shows contrasting roles of IFNg-signaling for parasite development, identifies a retinue of potential host determinants, and epitomizes its efficacy for in vivo parasite-host interaction studies. Microarray experiments were performed as dual-color hybridizations on Agilent mouse whole genome catalog 44K arrays. To compensate for dye-specific effects, a dye-reversal color-swap was applied.

Project description:The innate defense mechanisms that control infections with intracellular bacteria are still incompletely understood. Here we show that type I and II IFNs are key regulators of the early gene expression and the host-protective immune response during Legionella pneumophila-induced pneumonia. Using mixed bone marrow-chimeric mice and isolated cells we indicate that both IFNs protect against L. pneumophila by activating an alveolar macrophage-intrinsic antibacterial defense pathway. Quantitative mass spectrometry analysis reveals that both IFNs markedly alter the protein composition of purified Legionella-containing vacuoles, and integrated network analysis defines distinct subsets of IFN-regulated proteins. Subsequent experiments uncover Immunoresponsive gene 1 (Irg1) as a central effector that restricts the bacteria through production of itaconic acid. Collectively, we provide a comprehensive analysis of IFN-mediated effects on gene expression and the bacterial vacuole proteome, and show that L. pneumophila is restricted by an Irg1-dependent production of a bactericidal metabolite. Microarray experiments were performed as dual-color hybridizations on Agilent mouse whole genome catalog 44K arrays. To compensate for dye-specific effects, a dye-reversal color-swap was applied.