Project description:Title: CAMK1D amplification implicated in epithelial-mesenchymal transition in basal-like breast cancer Summary: Breast cancer exhibits clinical and molecular heterogeneity, where expression-profiling studies have identified five major molecular subtypes. The basal-like subtype, expressing basal epithelial markers and negative for estrogen receptor (ER), progesterone receptor (PR) and HER2, is associated with higher overall levels of DNA copy number alteration (CNA), specific CNAs (like gain on chromosome 10p), and poor prognosis. Discovering the molecular genetic basis of tumor subtypes may provide new opportunities for therapy. To identify the driver oncogene on 10p associated with basal-like tumors, we analyzed genomic profiles of 172 breast carcinomas. The smallest shared region of gain spanned just seven genes at 10p13, including calcium/calmodulin-dependent protein kinase ID (CAMK1D), functioning in intracellular signaling but not previously linked to cancer. By microarray, CAMK1D was overexpressed when amplified, and by immunohistochemistry exhibited elevated expression in invasive carcinomas compared to carcinoma in situ. Engineered overexpression of CAMK1D in non-tumorigenic breast epithelial cells led to increased cell proliferation, and molecular and phenotypic alterations indicative of epithelial-mesenchymal transition (EMT), including loss of cell-cell adhesions and increased cell migration and invasion. Our findings identify CAMK1D as a novel amplified oncogene linked to EMT in breast cancer, and as a potential therapeutic target with particular relevance to clinically unfavorable basal-like tumors. Overall design: HEEBO oligonucleotide microarrays from the Stanford Functional Genomics Facility were used to perform gene expression profiling of four CAMK1D or control-transfected MCF10A breast epithelial cell line derivatives, in comparison to a universal RNA reference. Gene set enrichment analysis was used to identify CAMK1D-assocatied gene sets. Set of arrays that are part of repeated experiments Cell Line: CAMK1D or vector transfected MCF10A breast epithelial cell line derivatives Biological Replicate Computed

Project description:A major goal of cancer research is to match specific therapies to molecular targets in cancer. Genome-scale expression profiling has identified new subtypes of cancer based on consistent patterns of variation in gene expression, leading to improved prognostic predictions. However, how these new genetic subtypes of cancers should be treated is unknown. Here we show that a gene module map can guide the prospective identification of targeted therapies for genetic subtypes of cancer. By visualizing genome-scale gene expression in cancer as combinations of activated and deactivated functional modules, gene module maps can reveal specific functional pathways associated with each subtype that might be susceptible to targeted therapies. We show that in human breast cancers, activation of a poor-prognosis wound signature is strongly associated with induction of both a mitochondria gene module and a proteasome gene module. We found that 3-bromopyruvic acid, which inhibits glycolysis, selectively killed breast cells expressing the mitochondria and wound signatures. In addition, inhibition of proteasome activity by bortezomib, a drug approved for human use in multiple myeloma, abrogated wound signature expression and selectively killed breast cells expressing the wound signature. Thus, gene module maps may enable rapid translation of complex genomic signatures in human disease to targeted therapeutic strategies. Cell Line: Transduced construct Computed

Project description:We harvested spleen tissue from Sirt6-/- or Sirt6-/- RelA+/- animals and then completed genome-wide microarray analysis. Total RNA was extracted with TRIzol (Invitrogen) and amplified with Amino Allyl MessageAmp II Amplification kit. Amplified age-matched wild-type tissues were used as reference RNA for analysis. Array hybridization of mouse MEEBO arrays is as described (Hendrickson et al., PLoS ONE, 2008). Set of arrays that are part of repeated experiments Keywords: Biological Replicate Biological Replicate Computed

Project description:Tumor necrosis factor alpha (TNFalpha) plays an important role in immune regulation, inflammation, and autoimmunity. Chronic TNFalpha exposure has been shown to down-modulate T cell responses. In a mouse T cell hybridoma model, TNFalpha attenuated T cell receptor (TCR) signaling. We have confirmed that chronic TNFalpha and anti-TNFalpha exposure suppressed and increased T cell responses in BDC2.5 CD4+ T cells, respectively. The goal of this study is to analyze global transcriptional alterations resulting from TNFalpha treatment on TCR signaling pathways using cDNA microarrays. We found that genes involved in functional categories including T cell signaling, cell cycle, proliferation, ubiquitination, cytokine synthesis, calcium signaling, and apoptosis were modulated. Genes such as ubiquitin family genes, cytokine inducible SH2-containing genes, cyclin-dependent kinase inhibitors p21, p57, calmodulin family genes (calmodulin -V1, -V2, and ?V3) and calcium channel voltage- dependent, N type alpha1B subunit (CaV2.2) were induced by TNFalpha, while Vav2, Rho GTPase activating protein, calcium channel voltage dependent, L type alpha 1C subunit (CaV1.2), interleukin-1 (IL) receptor-associated kinase 1, and -V2 (IRAK-1and -2) and IL enhancer binding factor 3 were reduced by TNFalpha. Genes such as CaV1.2 and proliferating cell nuclear antigen, repressed by TNFalpha, were induced by anti-TNF treatment. Further, we showed that chronic TNFalpha exposure impaired NF-kappaB and AP-1 transactivation activity, leading to T cell unresponsiveness. Thus, our results present a detailed picture of transcriptional programs affected by chronic TNFalpha exposure, and provide candidate target genes, which may function to mediate TNFalpha induced T cell unresponsiveness. Set of arrays that are part of repeated experiments Keywords: Biological Replicate The experiments addressed the effect of TNF exposure. 8-12-week-old NOD.BDC2.5 transgenic mice were injected i.p. with PBS or 3 ug murine TNFalpha; on alternate days for three weeks. At day 24 of treatment, suspensions of LNs and/or splenocytes were stimulated with the indicated concentration of the mimotope (1047-7 peptide (YVAPVWVRME)) at a density of 7-8 x 106 cells/ml, in a final volume of 1 ml in 24-well plates. After prolonged in vitro culture, cells were harvested 12 hrs post transplantation. CD4+ T cells were purified by labeling of monoclonal Abs of surface markers, Vbeta4-FITC and CD4-PE and enriched by Magnetic beads selection followed by FACS sorting. The purity of CD4+ T cells ranged from 95% to 99% depending on individual CD4 T cells preparation. The data in column represents six independent repeated experiments with half of the slides being reverse replicates. We compared RNA from PBE treated group with TNF treated group without including reference RNA.

Project description:A possible functional role of VCP/p97 during differentiation of U937 cells was addressed by siRNA-targeting of VCP/p97. Functional changes in VCP-siRNA-transfected cells following phorbol ester-induced monocytic differentiation have been examind by DNA microarray analysis. Cells transfected with the non-targeting AllStars negative siRNA (Qiagen) served as a reference. Computed

Project description:CSN5 has been implicated as a candidate oncogene in human breast cancers by genetic linkage with activation of the poor-prognosis, wound response gene expression signature. CSN5 is a subunit of the eight-protein COP9 signalosome, a signaling complex with multiple biochemical activities; the mechanism of CSN5 action in cancer development remains poorly understood. Here we show that CSN5 isopeptidase activity is essential for breast epithelial transformation and progression. Amplification of CSN5 is required for transformation of primary human breast epithelial cells by defined oncogenes. The transforming effects of CSN5 require CSN subunits for assembly of the full COP9 signalosome and the isopeptidase activity of CSN5, which potentiates the transcriptional activity of MYC. Transgenic inhibition of CSN5 isopeptidase activity blocks breast cancer progression evoked by MYC and RAS in vivo. These results highlight CSN5 isopeptidase activity in breast cancer progression, suggesting it as a therapeutic target in aggressive human breast cancers. A strain or line experiment design type assays differences between multiple strains, cultivars, serovars, isolates, lines from organisms of a single species. Computed

Project description:With the goal of identifying changes in gene expression in CD4(+) T cells during the development of diabetes in the nonobese diabetic (NOD) mouse, we used DNA microarrays to analyze gene expression in CD4(+) T cells from the pancreatic draining lymph nodes of NOD/BDC 2.5 T cell receptor transgenic and WT NOD mice at different ages. At 4 and 6 weeks of age, we found up-regulation of a number of genes that are known to be induced by IFN-alpha. IFN-alpha levels and IFN-alpha-producing plasmacytoid dendritic cells were increased in the PLNs of 3- to 4-week-old NOD mice. Moreover, blockade of IFN-alpha receptor 1 in NOD mice by a neutralizing antibody at 2-3 weeks of age significantly delayed the onset and decreased the incidence of type 1 diabetes, increased the relative number of immature dendritic cells in the PLNs, and enhanced the ability of spleen CD4(+) T cells to produce IL-4 and IL-10. These findings demonstrate that IFN-alpha in the PLNs is an essential initiator in the pathogenesis of type 1 diabetes in NOD mice. An all pairs experiment design type is where all labeled extracts are compared to every other labeled extract.

Project description:Monoamine oxidase A (MAO-A), a mitochondrial enzyme that degrades monoamines including neurotransmitters, is highly expressed in basal cells of the normal human prostatic epithelium and in poorly differentiated (Gleason grades 4 and 5), aggressive prostate cancer (PCa). Clorgyline, an MAO-A inhibitor, induces secretory differentiation of normal prostate cells. We systematically assessed gene expression changes induced by clorgyline in E-CA cells using high-density oligonucleotide microarrays. Genes differentially expressed in treated and control cells were identified by Significance Analysis of Microarrays. Expression of genes of interest was validated by quantitative real-time polymerase chain reaction. time series design

Project description:Background: Atopic eczema (AE) is a common chronic inflammatory skin disorder. In order to dissect the genetic background several linkage and genetic association studies have been performed. Yet very little is known about specific genes involved in this complex skin disease, and the underlying molecular mechanisms are not fully understood. Results: We used human DNA microarrays to identify a molecular picture of the programmed responses of the human genome to AE. The transcriptional program was analyzed in skin biopsy samples from lesional and patch-tested skin from AE patients sensitized to Malassezia sympodialis (M. sympodialis), and corresponding biopsies from healthy individuals. The most notable feature of the global gene-expression pattern observed in AE skin was a reciprocal expression of induced inflammatory genes and repressed lipid metabolism genes. The overall transcriptional response in M. sympodialis patch-tested AE skin was similar to the gene-expression signature identified in lesional AE skin. In the constellation of genes differentially expressed in AE skin compared to healthy control skin, we have identified several potential susceptibility genes that may play a critical role in the pathological condition of AE. Many of these genes, including genes with a role in immune responses, lipid homeostasis, and epidermal differentiation, are localized on chromosomal regions previously linked to AE. Conclusion: Through genome-wide expression profiling, we were able to discover a distinct reciprocal expression pattern of induced inflammatory genes and repressed lipid metabolism genes in skin from AE patients. We found a significant enrichment of differentially expressed genes in AE with cytobands associated to the disease, and furthermore new chromosomal regions were found that could potentially guide future region-specific linkage mapping in AE. A disease state experiment design type is where the state of some disease such as infection, pathology, syndrome, etc is studied. Disease State: Skin biopsies from normal ('normal') and lesional and patch-tested ('leisonal') skin from Atopic eczema patients sensitized to Malassezia sympodialis Organism Part: location of skin biopsy Keywords: disease state analysis Computed

Project description:We established HeLa cell lines stably expressing a short hairpin RNA against SIRT6 (S6 sh2), and then completed genome-wide microarray analysis in shSIRT6 knock-down and control pSR HeLa cells. Prior to RNA extraction, HeLa cells were treated with TNF-alpha (5 ng/ml) for the indicated times. Total RNA was extracted with TRIzol (Invitrogen) and amplified with Ambion MessageAmp RNA Amplification kit. Amplified human Universal Reference RNA (Stratagene) was used as reference RNA for analysis. Construction and array hybridization of human cDNA microarrays were performed as previously described (Perou et al., 2000). Groups of assays that are related as part of a time series. Compound Based Treatment: 5 ng/ml TNF-alpha Keywords: time_series_design Computed