Project description:Array CGH (44K) of liver tumors and unaffected liver controls from mice conditionally deficient for Mad2 and p53 in hepatocytes aCGH of sample DNA was hybridized with sex mismatched control DNA from a different mouse. Tumor and unaffected liver tissues were tested for each mouse. 19 tissue samples, 10 tumors, 9 normal samples

Project description:array CGH (244K) of liver tumors and unaffected liver controls from mice conditionally deficient for Mad2 and p53 in hepatocytes aCGH of sample DNA was hybridized with sex mismatched control DNA from a different mouse. Tumor and unaffected liver tissues were tested for each mouse. 19 tissue samples, 10 tumors, 9 normal samples

Project description:Array CGH (44K) of liver tumors and unaffected liver controls from mice conditionally deficient for Mad2 and p53 in hepatocytes aCGH of sample DNA was hybridized with sex mismatched control DNA from a different mouse. Dye swaps were performed for each sample

Project description:CD8+ T cells play a critical role in the immune response to viral pathogens. Persistent human CMV (HCMV) infection results in a strong increase in the number of virus-specific, quiescent effector-type CD8+ T cells with constitutive cytolytic activity, but the molecular pathways involved in the induction and maintenance of these cells are unknown. We show here that HCMV infection induced acute and lasting changes in the transcriptomes of virus-reactive T cells collected from HCMV-seropositive patients at distinct stages of infection. Enhanced cell cycle and metabolic activity was restricted to the acute phase of the response, but at all stages, HCMV-specific CD8+ T cells expressed the Th1-associated transcription factors T-bet (TBX21) and eomesodermin (EOMES), in parallel with continuous expression of IFNG mRNA and IFN-g–regulated genes. The cytolytic proteins granzyme B and perforin as well as the fractalkine-binding chemokine receptor CX3CR1 were found in virus-reactive cells throughout the response. During HCMV latency, virus-specific CD8+ T cells lacked the typical features of exhausted cells found in other chronic infections. Persistent effector cell traits together with the permanent changes in chemokine receptor usage of virus-specific, nonexhausted, long-lived CD8+ T cells may be crucial to maintain lifelong protection from HCMV reactivation. CD8+ T cells of naive, effector, and memory type were isolated from six latently chronic-infected healthy donors. For RNA isolation and microarray analysis, 3 independent donors and a pool of 3 additional healthy individuals were used. Total RNA of all naive CD8+ T cells was pooled and used as a common reference sample.

Project description:The CD8+ T cell compartment of human cytomegalovirus (CMV) seropositive individuals characteristically contains a high proportion of cells that expresses Natural Killer Cell Receptors (NKR) which may contribute to the surveillance of virus-infected cells. To test if this enhanced expression is a direct and immediate result of CMV infection we used DNA microarrays to analyse putative changes in RNA-expression level of 39 NKRs in CMV-specific CD8+ T cells of renal transplant recipients experiencing primary CMV infection. Already in the acute phase of infection 29 NKRs were induced of which 19 remained high 1 year after cessation of viral replication. Activating and inhibitory NKRs were induced to a similar extent. Detailed longitudinal flowcytometric analyses confirmed NKR changes at the protein level. Strikingly, a strong induction of CD94 on CD3+ T cells was observed with surface expression of activating CD94dimNKG2C dimers appearing before inhibitory CD94brightNKG2A ones. After the acute phase of infection, the balance between inhibitory and activating receptors did not change. Thus, CMV infection induces a rapid and lasting change in the expression of NK receptors on human CD8+ T cells. Keywords: primary cytomegalovirus infection, human, CD8+ T cells, NKR, latent infection, chronic infection CMV-specific CD8+ T cells were isolated at three different stages (peak, 1 year p.i, latent) from three CMV seropositive individuals. Total RNA for each stage was pooled and compared with pooled RNA of naive CD8+ T-cells from healthy controls. For quality control naive CD8+ T-cells were compared with naive CD8+ T-cells. The experiment was performed in dye-swap.

Project description:Transcriptional profiling of murine bone marrow c-kit+, Sca-1+ lineage neative (KSL) cells from p21CDKN1a-/- and p21+/+ overexpressing Flt3/ITD. The goal was to determine the effect on global gene expression by loss of p21 in Flt3/ITD transformed KSL cells Internal tandem duplication (ITD) mutations in the Flt3 gene (Flt3-ITD) are associated with poor prognosis in patients with acute myeloid leukemia (AML). Few inhibitors of Flt3-ITD are effective against Flt3-ITD+ AML due to the development of drug-resistance. In this study, we demonstrate that Flt3-ITD activates a novel pathway involving p21Cdkn1a (p21) and pre-B cell leukemia transcription factor 1 (Pbx1) that attenuates Flt3-ITD cell proliferation and is involved in the development drug resistance. Flt3-ITD up-regulated p21 expression in mouse bone marrow c-kit+-Sca-1+-Lin- (KSL) cells and in Ba/F3 cells. Loss of p21 expression enhanced growth factor-independent proliferation and sensitivity to cytarabine as a consequence of enriching the S+G2/M phase population concomitant with a significant increase in the expression of Pbx1, but not Evi-1, in Flt3-ITD+ cells. This enhancement of cell proliferation by loss of p21 was partially abrogated when Pbx1 expression was silenced in Flt3-ITD+ primary bone marrow colony-forming cells (CFCs) and Ba/F3 cells. Antagonizing Flt3-ITD using AC220, a selective inhibitor of Flt3-ITD, decreased the expression of p21, coincident with the up-regulation of Pbx1 mRNA and a rapid decline in the number of viable Flt3-ITD+ Ba/F3 cells, however the cells eventually became refractory to AC220. Overexpressing p21 in Flt3-ITD+ Ba/F3 cells delayed the emergence of cells refractory to AC220, whereas silencing p21 accelerated their development. These data demonstrate that Flt3-ITD is capable of inhibiting the proliferation of Flt3-ITD+ cells through the p21/Pbx1 axis and that antagonizing Flt3-ITD contributes to the subsequent development of cells refractory to Flt3-ITD inhibitor by disrupting p21 expression. biological replicates: 3 KSL cell replicates overexpressing ITD-Flt3 from p21+/+ and p21-/- cells, 1 KSL cell replicate from p21+/+ and p21-/- cells

Project description:A CHG microarray for detection and identification of bacteria and viruses pathogenic on maize Two-condition experiment, Agilent SurePrint G3 Cust. CGH Microarray 4x180K

Project description:Transcriptional profiling of human renal clear-cell carcinoma cells comparing control unexpressing MUC1 cells (82-F7 and 82-65 samples) with MUC1 overexpressing cells (83-2 and 83-5 samples) Goal was to determine the effect of MUC1 expression on global gene expression

Project description:Treatment of healthy donors with G-CSF and dexamethasone, results in sufficient number of circulating granulocytes to prepare granulocyte concentrates for clinical purposes. Granulocytes obtained this way demonstrate relatively normal functional behavior combined with a prolonged life span. To study the influence of mobilizing agents on granulocytes, we used oligonucleotide microarrays to identify genes that are differentially expressed in mobilized granulocytes as compared to control ones. Keywords: mobilized granulocytes, G-CSF/dexamethasone treated granulocytes Granulocytes were isolated from three individuals before (control situation) and 18 hours after treatment with G-CSF&dexamethasone; part of the control cells was cultured overnight in HBSS medium with or without addition of G-CSF and dexamethasone. Total RNA from each experimental condition was compared to pooled RNA of control granulocytes.

Project description:Borderline personality disorder (BPD) is a complex psychiatric disease with an increased impact in the last years. While the diagnosis and therapy are well established, little is known on the pathogenesis of borderline personality disorder. Previously, a significant increase in DNA methylation of relevant neuropsychiatric genes in BPD patients has been reported. In our study we performed genome wide methylation analysis and revealed specific CpG sites that exhibited increased methylation in 26 BPD patients compared to 11 healthy controls. Bead chip technology and quantitative bisulfite pyrosequencing showed a significantly increased methylation at CpG sites of APBA2 (1.1 fold) and APBA3 (1.1 fold), KCNQ1 (1.6 fold), MCF2 (1.1 fold) and NINJ2 (1.2 fold) in BPD patients. For the CpG sites of GATA4 an increase in DNA methylation was observed, but was only significant in the bead chip assay. Moreover genome wide methylation levels of blood samples of BPD patients and control samples are similar. In summary, our results show a significant 1.26 fold average increase in methylation at the analyzed gene associated CpG sites in the blood of BPD patients compared to controls samples (p<0.001). This data may provide new insights into epigenetic mechanisms underlying the pathogenesis of BPD. Whole blood samples for 26 BPD patients and 11 controls were obtained from the Psychiatric Hospital in Münsterlingen, Switzerland. All patients signed informed consent at initial clinical investigation. The study was approved by the local ethic committee. Diagnosis of BPD was established by an experienced psychiatrist (Dr. G. W. Dammann). Clincopathological parameter of the patients and controls are summarized in table S1 (for details see (Dammann et al, 2011)). Genomic DNA from whole blood was isolated by Nucleo Spin XL Blood (Macherey and Nagel, Düren, Germany). For the bead chip array 500 ng of genomic DNA was treated with bisulfite (Dammann et al, 2011).