Nutrient autophagy factor 1 (NAF-1) is an iron-sulfur protein found on the outer mitochondrial membrane and the ER. Recent studies highlighted an important role for NAF-1 in regulating autophagy via interaction with BCL-2. We recently reported that the level of NAF-1 is elevated in cancer cells and that NAF-1 is required for tumor growth. Here we report that shRNA suppression of NAF-1 results in the activation of apoptosis in xenograft tumors and cancer cells grown in culture. Suppression of NAF-1 resulted in a depletion in the cytosolic iron pool, facilitated uptake of iron, and accumulation of iron and ROS in mitochondria, a shift to glycolysis and glutaminolysis, and the activation of cellular stress pathways associated with HIF1a, AMPK and mTOR. Suppression of NAF-1 in breast cancer cells appears therefore to reduce their tumorigenicity by interfering with cellular iron distribution and energy metabolism resulting in the activation of apoptosis. Overall design: Examination of the effect of suppression of NAF-1 in the breast cancer cell line MCF-7. Two sample types were analyzed, MCF-7 suppressed for NAF-1 and MCF-7 Empty vector control, three replicates for each.
Activation of apoptosis in NAF-1-deficient human epithelial breast cancer cells.
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View SamplesUpon pathogenic infection, drosophila larval host mounts an immune response. Parasitic wasps inject venom that contain virulence factors during oviposition, which can elicit host immune response, and in some cases, suppress host immune responses altogether. Several microarray experiments have been performed on different classes of parasitic wasps. We wanted to compare how Ganaspis xanthopoda-infected hosts respond compared to other classes of parasitic wasps.
A database for the analysis of immunity genes in Drosophila: PADMA database.
Time
View SamplesTo elucidate the mechanism(s) underlying the synergistic interaction between ETV6 and NFKB1, we analyzed the genome-wide transcriptional consequences of single and double knock-downs of the two TFs in U251 cells.
Causal Mechanistic Regulatory Network for Glioblastoma Deciphered Using Systems Genetics Network Analysis.
Cell line
View SamplesMicroRNAs (miRNAs) have emerged as novel cancer genes. In particular, the 17~92 cluster of miRNAs is highly expressed in haematopoietic cancers and promotes lymphomagenesis in vivo1,2. Clinical use of these findings hinges on isolating the oncogenic activity within the 17~92 cluster and defining its relevant target genes. Here we show that miR-19 is sufficient to promote leukaemogenesis in Notch1 induced T-cell lymphoblastic leukaemia (T-ALL) in vivo. Consistent with the pathogenic importance of this interaction, we report a novel translocation targeting the 17~92 miRNA cluster coinciding with a second rearrangement that activates Notch1 in T-ALL. To identify the miR-19 targets responsible for its oncogenic action, we conducted a large-scale short-hairpin RNA (shRNA) screen for genes whose knockdown could phenocopy miR-19. Strikingly, the results of this screen were enriched for miR-19 target genes, and included Bim (Bcl2L11)1,3, AMP-activated kinase (Prkaa1), and the tumour suppressor phosphatases Pten and PP2A (Ppp2r5e). Hence, an unbiased, functional genomics approach reveals a coordinate clamp down on several regulators of PI3K-related survival signals by the leukaemogenic miR-19.
Genome-wide RNA-mediated interference screen identifies miR-19 targets in Notch-induced T-cell acute lymphoblastic leukaemia.
Cell line
View SamplesWe identified PHF5A as a functional synthetic-lethal hit in glioblastoma stem cells compared to normal neural stem cells. We wanted to perform analysis of RNA isoforms present in glioblastoma or normal neural stem cells with or without PHF5A depletion. We performed shRNA knockdown of PHF5A or used non-silencing shRNA as a control, selected infected cells with puromycin, and isolated RNA for sequencing. Overall design: We analyzed RNA from either normal neural stem cells or two different glioblastoma specimens aster either control knockdown, or two different shRNA sequences against the PHF5A gene transcript.
Genome-wide RNAi screens in human brain tumor isolates reveal a novel viability requirement for PHF5A.
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View SamplesMicroRNA microarrays and RNA expression arrays were used to identify functional signaling between neural stem cell progenitor cells (NSPC) and brain endothelial cells (EC) that are critical during embryonic development and tissue repair following brain injury.
The role of microRNAs in neural stem cell-supported endothelial morphogenesis.
Specimen part, Disease, Treatment
View SamplesWe sequenced mRNA from HCT116 p21-/- cells treated with Nutlin-3a, doxorubicin, or DMSO for 24 h. Overall design: Examination of mRNA levels from HCT116 p21-/- cells treated with Nutlin-3a, doxorubicin, or DMSO for 24 h using four replicates each.
Integration of TP53, DREAM, MMB-FOXM1 and RB-E2F target gene analyses identifies cell cycle gene regulatory networks.
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View SamplesHepG2 and THP-1 cells, the latter differentiated by phorbol 12-myristate 13-acetate (PMA), were co-cultured and characterized for typical liver-specific functions, such as xenobiotic detoxification, lipid and cholesterol metabolism. Furthermore, liver injury-associated pathways, such as inflammation, were studied. In general, the co-cultivation of these cells produced a pro-inflammatory system, as indicated by increased levels of cytokines (IL-8, TGF-α, IL-6, GM-CSF, G-CSF, TGF-β, and hFGF) in the respective supernatant. Increased expression levels of target genes of the aryl hydrocarbon receptor (AHR), e.g., CYP1A1, CYP1A2 and CYP1B1, were detected, accompanied by the increased enzyme activity of CYP1A1. Moreover, transcriptome analyses indicated a significant upregulation of cholesterol biosynthesis, which could be reduced to baseline levels by lovastatin. In contrast, total de novo lipid synthesis was reduced in co-cultured HepG2 cells. Key events of the adverse outcome pathway (AOP) for fibrosis were activated by the co-cultivation, however, no increase in the concentration of extracellular collagen was detected. This indicates, that AOP should be used with care. In summary, the indirect co-culture of HepG2/THP 1 cells results in an increased release of pro-inflammatory cytokines, an activation of the AHR pathway and an increased enzymatic CYP1A activity.
Indirect co-cultivation of HepG2 with differentiated THP-1 cells induces AHR signalling and release of pro-inflammatory cytokines.
Treatment
View SamplesDuring an incompatible or compatible interaction between rice (Oryza sativa) and the Asian rice gall midge (Orseolia oryzae), a lot of genetic reprogamming occurs in the plant host
Metabolic and transcriptomic changes induced in host during hypersensitive response mediated resistance in rice against the Asian rice gall midge.
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View SamplesGlioblastoma ranks as one of the most lethal human cancers, with no effective therapies. To discover novel therapeutic targets, here we performed parallel in vivo and in vitro RNA interference screens of epigenetic regulators and show that transcription elongation factors are essential for human glioblastoma cell survival in vivo, but not in vitro. Context-specific dependency in vivo is driven by microenvironment-induced global changes in the cancer epigenome. JMJD6, a top in vivo-specific hit, binds at enhancers and correlates with increased transcription of known pause-controlled genes. JMJD6 knockdown in patient-derived glioblastoma cells enhances survival of mice bearing orthotopic tumors. Moreover, elevated levels of JMJD6 alone, as well as transcription elongation factors collectively, informs tumor grade and predicts poor prognosis for patients. Our work provides a rationale for targeting transcription elongation as a therapeutic strategy in glioblastoma and, more broadly, the power of in vivo phenotypic screening to identify therapeutically relevant targets in cancer. Overall design: RNA-seq of primary patient-derived GBM cells grown in in vivo tumor microenvironment or in vitro in serum free cell culture
Transcription elongation factors represent in vivo cancer dependencies in glioblastoma.
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