Project description:To better understand the molecular basis of the anticancer effects of acyclic retinoid (ACR), a genome-wide screening was applied to identify novel targets of ACR in human hepatocellular carcinoma (HCC) cells JHH7. Gene expression profiles of JHH7 were measured at 0h, 1h and 4 hours after treatment with1 μM All-trans retinoic acid (AtRA) or 10 μM ACR. Hierarchical clustering with Ward’s method of 44,907 genes demonstrated diverse expression changes in HCC cells treated with ACR for 4h. A total of 973 differentially expressed genes in response to ACR by comparing with AtRA for 4h treatments were identified with a fold change more than 2. Then, network analysis was performed on the altered gene expression profiles using Ingenuity Pathways Analysis (IPA) program. The most highly populated networks were associated with the regulation of cell cycle and DNA replication, as ACR is well known to induce apoptosis and suppress cell proliferation in HCC cells. Moreover, networks related with amino acid metabolism, protein synthesis and lipid metabolism, such as the biological network entitled “Lipid Metabolism, Small Molecular Biochemistry, Vitamin and Mineral Metabolism” were also observed. Of interest, this network contains genes that play critical roles in controlling the development of tissues and organs such as the nuclear orphan receptor nuclear receptor subfamily 2, group F, member 2 (NR2F2), suggesting potential drug targets to prevent/treat HCC.

Project description:To better understand the molecular basis of the reproductive health effects of bisphenol A (BPA) on humans, a genome-wide screening was applied to identify novel targets of low-dose bisphenol A exposure in huamn skin fibroblast cells (hSFCs) derived from hypospadias patient children. Three hSFCs were collected at National Research Institute for Child Health and Development, Japan. Gene expression profiles of hSFCs were measured at 24 hours after exposure to 10nM BPA, 0.01nM 17β-estradiol (E2) and 1nM 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD). Differentially expressed genes following chemical treatments were identified by unpaired Student’s t test with P values cut off by 0.05 and fold change of more than 1.2 and selected for the network generation and pathway analysis using Ingenuity Pathways Analysis (IPA) program. As the result, 71 genes (42 downregulated and 29 upregulated), 814 genes (371 downregulated and 443 upregulated), and 824 genes (344 downregulated and 480 upregulated) were identified significantly differently expressed in response to BPA, E2, and TCDD, respectively. The network analysis indicated that the most associated network fuctions of genes genes with altered expression profile derived from microarray analysis were “Endocrine System Disorders, Gastrointestinal Disease, Genetic Disorder”, “Cellular Growth and Proliferation, Skeletal and Muscular System Development and Function, Cell Cycle”, and “Post-Translational Modification, Genetic Disorder, Hematological Disease” in response to BPA, E2, and TCDD, respectively. Gene expression profiles of 3 hSFCs derived from hypospadias patient children were measured at 24 hours after exposure to 10nM BPA, 0.01nM E2 and 1nM TCDD.

Project description:To identify the molecular mechanisms and environmental inducers contributing to reprogramming of hepatocytes into progenitors in HCC context, we used the HepaRG cell line as model. We performed transcriptomic analysis at various time-points during this process; 0h, 1h, 4h, 8h, 12h, 16h, 24h and 48h.

Project description:Brain transcriptome at 0h, 1h, 3h, 6h, 12h, 24h, 48h after hypoxia stress

Project description:The aim of the measurements was to investigate RNA damage and RNA-protein crosslinks (RPC) formation in the context of aldehyde-induced toxicity. For this, a photoactivatable-ribonucleoside-enhanced crosslinking (PAR-CL) strategy using 4-thiouridine (4-SU) and UVA-radiation was used. The submitted dataset contains data from LC-MS/MS measurements of crosslinks between proteins and poly-adenylated mRNAs (mRPCs). The measurements included the following six samples sets: Sample set 1 (9 runs = 3 conditions in 3 replicates): RPCs after formaldehyde (FA) and 4-SU + UVA treatment isolated using the protein-x-linked RNA extraction (XRNAX) protocol (doi:10.1016/j.cell.2018.11.004) Conditions: RPCs from untreated HAP1 =Ctrl RPCs from HAP1 treated with FA RPCs from HAP1 treated with 4-SU + UVA Sample set 2 (12 runs = 4 conditions in 3 replicates): mRPCs after 4-SU + UVA treatment using poly-A pulldown Conditions: mRPCs from untreated HAP1=Ctrl mRPCs from HAP1 treated with UVA but without 4-SU (0h after irradiation) mRPCs from HAP1 treated with 4-SU but without UVA mRPCs from HAP1 treated with 4-SU + UVA (0h after irradiation) Sample set 3 (24 runs = 6 conditions in 4 replicates): mRPCs after 4-SU + UVA and Ub-E1i treatment using poly-A pulldown Conditions: mRPCs from HAP1 treated with 4-SU + UVA (0h, 0.5h and 1h after irradiation) mRPCs from HAP1 treated with 4-SU + UVA and Ub-E1i (0h, 0.5h and 1h after irradiation) Sample set 4 (24 runs = 6 conditions in 4 replicates): mRPCs after 4-SU + UVA and MG132 treatment isolated using poly-A pulldown Conditions: mRPCs from HAP1 treated with 4-SU + UVA (0h, 0.5h and 1h after irradiation) mRPCs from HAP1 treated with 4-SU + UVA and MG132 (0h, 0.5h and 1h after irradiation) Sample set 5 (24 runs = 6 conditions in 4 replicates): mRPCs after 4-SU + UVA and ANS treatment using isolated poly-A pulldown Conditions: mRPCs from HAP1 treated with 4-SU + UVA (0h, 0.5h and 1h after irradiation) mRPCs from HAP1 treated with 4-SU + UVA and ANS (0h, 0.5h and 1h after irradiation) Sample set 6 (24 runs = 6 conditions in 4 replicates ): mRPCs after 4-SU+UVA in AAVS1 control and RNF14 KO cells using poly-A pulldown mRPCs from HAP1 AAVS1 control cells (clone #6) treated with 4-SU+UVA (0h, 0.5h and 1h after irradiation) mRPCs from HAP1 RNF15 KO cells (clone #15) treated with 4-SU+UVA (0h, 0.5h and 1h after irradiation) Abbreviations: 4-SU: 4-thiouridine ANS: Anisomycine, a translation elongation inhibitor FA: Formaldehyde MG132: proteasome-inhibitor mRPCs: crosslinks between proteins and poly-adenylated mRNAs isolated by Poly-A pulldown RPCs: crosslinks between proteins and RNA isolated by XRNAX Ub-E1i: ubiquitin E1 inhibitor (E1i, TAK-243) UVA: Ultraviolet A

Project description:H3K4me3 and H3K36me3 ChIP seq in HeLa cells exposed to 0H (normoxia) or 1H of 1%O2 (hypoxia)

Project description:Quantitative proteomic analysis of Chlamydomonas reinhardtii exposed to high light. Samples were taken 0h, 1h, 4h and 24h after beginning of the treatment.

Project description:We report the mRNA profiles of the Arabidopsis thaliana seedlings germinated for 7days in the dark, then treated with light for 0h, 1h, 2h, 4h, 8h and 12h.

Project description:CD133 (Prominin-1) is considered the most important cancer stem cell (CSC)-associated marker identified so far, with increased expression in the CSC fraction of a large variety of human malignancies, including melanoma. Here we investigated the effects of CD133 down-regulation in vitro and in vivo in human metastatic melanoma. The average number of CD133 molecules on the cell surface of FEMX-I melanoma cells was decreased by 8.7-fold and 1.8-fold using two different short hairpin RNAs. Down-regulation of CD133, confirmed by immunocytochemistry, Western blotting, microarray analysis and RT-PCR, resulted in slower cell growth, reduced cell motility, and decreased capacity to form spheroids under stem cell-like growth conditions. Clonal analysis revealed that the reduction in growth rate was proportional to the extent of CD133 down-regulation. Monoclonal antibodies directed against two different epitopes of the CD133 protein induced a specific, dose-dependent cytotoxic effect in FEMX-I cells. The down-regulation of CD133 severely reduced the capacity of the cells to metastasize, particularly to the spinal cord. In the CD133 downregulated cells, microarray analysis revealed expression changes for only 143 annotated genes (76 up- and 67 down-regulated). Ten of the 76 up-regulated genes coded for Wnt inhibitors, suggesting an interaction between CD133 and the canonical Wnt pathway. We conclude that CD133, in addition to its role as a cancer stem cell marker, is an important therapeutic target for metastatic melanoma and, potentially, for other CD133-expressing cancer types. Two control experiments and two CD133 knockdown experiments.

Project description:We studied the meiotic regulation of transcription, by comparing the mRNA level at time t=1h to t=8h after meiosis induction, to the mRNA level at time t=0h. Keywords: yeast meiotic time course, transcriptome