Project description:We performed global scale microarray analysis to identify detailed mechanisms by which bisphenol A (BPA) induce cell death by using an Affymetrix GeneChip system. Testicular Sertoli TTE3 cells used in the present study were derived from transgenic mice harboring a temperature-sensitive simian virus 40 large T-antigen. Cell death accompanying endoplasmic reticulum stress was observed in the cells treated with 0.2 mM BPA. Of the 22,690 probe sets analyzed, approximately 1,300 genes were down- and up-regulated by a factor of 2.0 or greater in the cells treated with BPA. Keywords: bisphenol A, gene expression, testicular Sertoli cell

Project description:Purpose: finding differential transcripts usage in environmentally harzardous chemical, bisphenol A (BPA) in human retinal cells Methods: transcriptome analysis by the RNA-seq via mRNA pull-down Results: We found that BPA increases cellular toxicity by the increasing of early apoptotic pathway in Y79 cells. Also, over thounds of retained intron events were detected from the RNA-seq analysis. Conclusions: Bisphenol A (BPA) increases early cytotoxic effects in Y79 cells through the early apoptotic pathway and changes the context of trascript through the splicing regulation mechanisms.

Project description:To elucidate the molecular perturbations underlying the connection of low-dose prenatal BPA exposure to cardiometabolic diseases, we assessed the liver transcriptome in both male and female mouse offspring exposed to 5ug/kg/day BPA and corn oil (control) during gestation.

Project description:Bisphenol-A (BPA) is one of the most widespread endocrine disrupting chemicals (EDC) used as the base compound in the manufacture of polycarbonate plastics. Although evidence points to consider exposure to BPA as a risk factor for the development of Diabetes, its actions on whole body metabolism and on pancreatic beta cells are still unclear. The aim of this study was to study the in vivo effects of BPA on mice pancreatic islets, particularly on how it could regulate ion channels expression and function. And thus, bringing mechanistic insight into the suggested association between BPA exposure and health disorders. We used microarrays to detail the global profile of gene expression to identified different groups of up and down-regulated genes in the work model, with a special focus on genes related to ion channel-mediated actions of BPA in mice pancreatic β-cells.

Project description:Endocrine disrupting compounds (EDCs) have the potential to cause adverse effects on wildlife and human health. Two important EDCs are the synthetic estrogen 17a-ethynylestradiol (EE2) and bisphenol A (BPA) both of which are xenoestrogens (XEs) as they bind the estrogen receptor and disrupt estrogen physiology in mammals and other vertebrates. In recent years the influence of XEs on oncogenes, specifically in relation to breast and prostate cancer has been the subject of considerable study. In this study healthy primary human prostate epithelial cells (PrECs) were exposed to environmentally relevant concentrations of BPA (5nM and 25nM BPA) and interrogated using a whole genome microarray. Microarray data were analyzed using the Pipeline for Integrated Microarray Expression and Normalization Toolkit (PIMENTo) that provides (1) data pre-processing, (2) and normalization to remove the technical variability across arrays data, (3) data visualization, (4) background subtraction, (5) quality control, and (6) differential expression (DE) analysis using the Bioconductor package 'limma'. Exposure to 5 and 25nM BPA generated 8,876 and 9,525 differentially expressed (DE) genes respectively in treated PrECs. Exposure to EE2 had the greatest effect on the PrEC transcriptome (2,389 DE genes) and all three exposures shared 7,011 common DE genes. Together, the low and high dose of BPA affected 1,839 genes not shared with the EE2 exposure.

Project description:In this study, developing zebrafish were exposed to 500-4500 µg/L BPA for 7 days from 3 hours post-fertilization for a microarray experiment to obtain molecular insights into BPA early-life exposure toxicity. We analyzed a total of 18 arrays; five biological replicate arrays for zebrafish treated with 500 µg/L BPA, four biological replicate arrays for zebrafish treated with 1500 µg/L BPA, four biological replicate arrays for zebrafish treated with 4500 µg/L BPA against 5 biological replicate arrays for control fish. A common reference sample was used for both treated and control samples.

Project description:In this study, developing zebrafish were exposed to 500-4500 µg/L BPA for 7 days from 3 hours post-fertilization for a microarray experiment to obtain molecular insights into BPA early-life exposure toxicity.

Project description:To screen changed gene expression, gene expression microarray analysis was performed in the cerebral cortex at the third postnatal week (P3W) of C57/B6J mice perinatally exposed to BPA (500 ug/kg body/day) .

Project description:Bisphenol A (BPA) is an environmental endocrine disruptor which has been detected in almost all human bodies. Many studies have implied that BPA exposure is harmful to human health. Previous studies mainly focused on BPA effects on ER-positive cells. Genome-wide impact of BPA on gene regulation in ER-negative cells is unclear. In the present study, we performed RNA-seq to characterize BPA-induced gene regulation on ER-negative HEK 293 cells.

Project description:The endocrine disrupting chemical bisphenol A (BPA) can affect reproductive organs, tissues and cells in several species. Treatment of human endometrial endothelial cells (HEECs) with 50 µM BPA decreased their proliferation compared with the control. Microarray analyses revealed that BPA affected biological processes such as the cell cycle, cell division, and cytoskeleton organization, confirming the results of the proliferation assay. Expression of three of the most differentially expressed genes identified in the microarray analysis was verified by real-time quantitative reverse transcription polymerase chain reaction in five HEEC cultures obtained from women in the proliferative phase and in five cultures obtained from women in the secretory phase of the menstrual cycle after treatment with BPA. The present study supports our previous findings of decreased proliferation and increased cell death in response to BPA, and may offer important clues to the mechanisms of action of BPA. Keywords: Exposure analysis Two-condition experiments, BPA-exposed vs. control HEEC. Biological replicates: 5 HEEC cultures, independently grown, exposed and harvested. One replicate per array. Dye-swaps for exposed and reference samples between replicates.