Project description:Cancer cells display an altered metabolism with increased glycolysis and glucose uptake. Anti-cancer strategies targeting glycolysis through metabolic inhibitors have been considered. The glucose analog 2-deoxyglucose (2DG) is imported into cells and after phosphorylation becomes 2DG-6-phosphate, a toxic by-product that inhibits glycolysis. 2DG has other cellular effects and can induce resistance. Using yeast as a model, we performed an unbiased, mass-spectrometry-based approach to probe the cellular effects of 2DG on the proteome and study resistance mechanisms. We found that two 2DG-6-phosphate phosphatases, Dog1 and Dog2, were induced upon exposure to 2DG and participated in 2DG detoxication. 2DG induced Dog2 by activating several signaling pathways, such as the MAPK (the p38 ortholog Hog1)-based stress-responsive pathway, the unfolded protein response (UPR) triggered by 2DG-induced ER stress, and the MAPK (Slt2)-based cell wall integrity (CWI) pathway. Thus, 2DG-induced interference with cellular signaling rewired the expression of these endogenous phosphatases to promote 2DG resistance. Consequently, loss of the UPR or CWI pathways led to 2DG hypersensitivity. In contrast, DOG2 was transcriptionally repressed by glucose availability through the inhibition of the Snf1/AMPK pathway, and glucose-repression mutants were 2DG-resistant. The characterization and genome resequencing of spontaneous 2DG-resistant mutants revealed that DOG2 overexpression was a common strategy to achieve 2DG resistance. A human Dog2 homolog, HDHD1, also displays 2DG-6-phosphate phosphatase activity in vitro, and its overexpression conferred 2DG resistance in HeLa cells, suggesting potential interference with chemotherapies involving 2DG.

Project description:To evaluate the effect of millimeter waves (MMW) exposure on the gene expression, we have employed whole genome microarray expression profiling. Neonatal primary Keratinocyte cells pooled from 3 healthy donors were exposed ex vivo, by 60.4 GHz-MMW, at an incident power density (IPD) of 20 mW/cm² (3 hours of treatment in athermic condition).No modification of keratinocyte transcriptome was observed. Considering that MMW could also impact the cell metabolism, we assessed then effect of glycolysis inhibitor 2 deoxyglucose treatment (2dG, 20 mM during 3 hours) in association with MMW co-exposure. 2dG treatment induces a high modification of the transcriptome (632 coding genes). Genes affected in their expression are linked with transcriptional repression, cellular communication and endoplasmic reticulum homeostasis. The MMW/2dG co-exposition induced a slight modification of cell transcriptome, which reflects the capacity of MMW to interfere with bioenergetic stress response. After RT-PCR validation, 6 genes (SOCS3, SPRY2, TRIB1, FAM46A, CSRNP1 and PPP1R15A) were confirmed as sensitive to MMW exposure during 2dG treatment.

Project description:To evaluate the genetic changes of systemic CD8+T cells induced by microwave ablation(MWA+PBS) or microwave ablation combined with 2DG(MWA+2DG),We then performed gene expression profiling analysis using data obtained from RNA-seq of 3 different spleens from two group of mice.

Project description:Here, we used bulk RNA-seq data derived from healthy colon organoids (un)exposed to carcinogen. Through the use of external single cell RNA-seq data, we estimate changes in cell composition. We extend this analysis by controlling for cell composition and performing WGCNA to identify modules of co-expression differentially affected by carcinogen treatment in colon organoids.

Project description:Here, we used bulk RNA-seq data derived from healthy colon organoids (un)exposed to aspirin. Through the use of external single cell RNA-seq data, we estimate changes in cell composition. We extend this analysis by controlling for cell composition and performing WGCNA to identify modules of co-expression differentially affected by aspirin treatment in colon organoids.

Project description:Phenotypes of the tomato (Solanum lycopersicum L.) high pigment-2dg (hp-2dg) mutant are caused by a mutation in the gene encoding DEETIOLATED1, a negative regulator of light signaling. Homozygous hp-2dg plants display a plethora of distinctive developmental and metabolic phenotypes in comparison to their normal isogenic counterparts. This mutant is however best known for the increased levels of lycopene and other plastid-accumulating functional metabolites. In this study we analyzed the transcriptional alterations in mature-green, breaker and early-red fruits of hp-2dg/hp-2dg plants in relation to their normal counterparts using microarray technology. Results show that a large portion of the genes that are affected by hp-2dg mutation, display a tendency for up- rather than down-regulation. Ontology assignment of these differentially regulated transcripts, revealed a consistent upregulation of those related to chloroplast biogenesis and photosynthesis in hp-2dg mutants throughout fruit ripening. A tendency of upregulation was also observed in structural genes involved in phytonutrient biosynthesis. However, this upregulation was not as consistent, positioning plastid biogenesis as an important determinant of phytonutrient overproduction in hp-2dg mutant fruits. Microscopic observations revealed a highly significant increase in chloroplasts size and number in pericarp cells of mature-green hp-2dg/hp-2dg fruits in comparison to their normal counterparts. This increase could be observed from early stages of fruit development. Therefore, the molecular trigger that drives phytonutrient overproduction in hp-2dg mutant fruits should be initially traced at early stages of fruit development. Keywords: Comparative Transcriptional Profiling of tomato fruit pericarp tissue

Project description:To determine the metabolic requirements of key autoimmune populations in a spontaneous lupus-prone mouse model, we carried out RNA-seq of BXSB.Cg-Cd8atm1Mak Il15tmImx Yaa (Yaa DKO) mice following glycolytic inhibition with 2-deoxyglucose (2DG). Pre-symptomatic (6-week old) mice were used as controls for symptomatic (10-week old) mice with or without long-term (4-week) treatment with 2DG. As a result, we found that 2DG-mediated glycolytic inhibition preferentially affected gene signatures of activated B cells and not T cells or other immune cell populations.

Project description:Analysis of hepatic transcript data using unbiased Weighted Gene Correlation Network Analysis (WGCNA) to identify significant modules of genes correlated with lesion burden and performed pathway enrichment analysis of genes in significant modules. The hypothesis tested in the present study was that transcript modules are predictive of atherosclerotic lesion burden after a high cholesterol, high fat diet challenge. results of the study provide an understanding of the key pathways and genes underlying atherosclerotic lesion burdenafter high cholesterol and high fat diet challenge in baboons .

Project description:Analysis of hepatic transcript data using unbiased Weighted Gene Correlation Network Analysis (WGCNA) to identify significant modules of genes correlated with lesion burden and performed pathway enrichment analysis of genes in significant modules. The hypothesis tested in the present study was that transcript modules are predictive of atherosclerotic lesion burden after a high cholesterol, high fat diet challenge. results of the study provide an understanding of the key pathways and genes underlying atherosclerotic lesion burdenafter high cholesterol and high fat diet challenge in baboons .

Project description:Analysis of hepatic transcript data using unbiased Weighted Gene Correlation Network Analysis (WGCNA) to identify significant modules of genes correlated with lesion burden and performed pathway enrichment analysis of genes in significant modules. The hypothesis tested in the present study was that transcript modules are predictive of atherosclerotic lesion burden after a high cholesterol, high fat diet challenge. Results of the study provide an understanding of the key pathways and genes underlying atherosclerotic lesion burdenafter high cholesterol and high fat diet challenge in baboons .