Project description:Differential expression analysis of gill tissues of bay scallop (Argopecten irradians) exposed to Thiazolidinedione derivatives 49 at a concentration of 0.64 μM for 48 h.

Project description:Polycyclic aromatic hydrocarbons (PAHs) are ubiquitous in the environment as components of fossil fuels and by-products of combustion. These multi-ring chemicals differentially activate the Aryl Hydrocarbon Receptor (AHR) in a structurally-dependent manner, and induce toxicity via both AHR-dependent and -independent mechanisms. PAH exposure is known to induce developmental malformations in zebrafish embryos, and recent studies have shown cardiac toxicity induced by compounds with low AHR affinity. Unraveling the potentially diverse molecular mechanisms of PAH toxicity is essential for understanding the hazard posed by complex PAH mixtures present in the environment. We analyzed transcriptional responses to PAH exposure in zebrafish embryos exposed to benz(a)anthracene (BAA), dibenzothiophene (DBT) and pyrene (PYR) at a concentration that induces developmental malformations by 120 hours post-fertilization (hpf). Whole genome microarray analysis of mRNA expression at 24 and 48 hpf identified genes that were differentially regulated over time and in response to the three PAH structures. PAH body burden was analyzed at these time points using GC-MS, and demonstrated differences in PAH uptake into the embryos. This was important for discerning dose-related differences from those that represented unique molecular mechanisms. While BAA misregulated the smallest number of transcripts, it caused strong induction of cyp1a and other genes known to be downstream of the AHR, which were not induced by the other two PAHs. Analysis of functional roles of misregulated genes and their predicted regulatory transcription factors also distinguished the BAA response from regulatory networks disrupted by DBT and PYR exposure. These results indicate that systems approaches can be used to classify the toxicity of PAHs based on the networks perturbed following exposure and may provide a path for unraveling the toxicity of complex PAH mixtures. Gene expression was measured in zebrafish embryos after exposure to PAHs. Embryos were batch-exposed in groups of 40 to 25 μM BAA, 25 μM DBT, 25 μM PYR or 1% DMSO vehicle control starting at 6 hpf and collected at 24 or 48 hpf. Four independent biological replicates were prepared for each treatment. The reference was a pool of zebrafish embryos exposed to DMSO control until 24 and 48 hpf.

Project description:NRCMs were treated with ISO (10 μM) in the presence or absence of FGF18 (50 ng/ml) for 48 h. Protein bands at ~60 kDa were excised from the SDS-PAGE gels for LC-MS/MS analysis

Project description:Thallium (Tl) is a trace metal element used in the electronics, semiconductor and electro-optical industries. With the development of high-tech industries, thallium severely pollutes the aquatic environment. The purpose of this study was to evaluate the cardiotoxicity and developmental toxicity of Tl by using vertebrate model zebrafish embryos. RNA-seq was performed on wild type zebrafish embryos exposed to 0, 200, and 800 ppb Tl from 6 to 48 hpf. The transcriptomic profile revealed molecular understanding regarding the cardiovascular and developmental toxicity of Tl, providing valuable information for risk assessment of the emerging contaminant thallium.

Project description:AAmiodarone is an antiarrhythmic drug and representatively induce pulmonary phospholipidosis. Amiodarone-induced toxicity has been a serious unpredictable side effect of the treatment and an important clinical problem. Possible causes include allergic, cytotoxic or immunologic reactions to this agent. We examined the consequences of the mechanism of amiodarone-induced pulmonary toxicity gene expression in BEAS-2B cells, huma bronchial cell line, by microarray. The expression of these genes are potential biomarker of amiodarone-induced pulmonary toxicity. Also, We provide a clue about mechanism of pulmonary toxic action by these clinical chemotherapeutic agents. BEAS-2B cells were seeded and after incubation for 24 h at 37C, the cells were treated with 29.388 μM(IC20) amiodarone for 48 h. And after total RNA isolation, gene expression analysis was conducted using a 44-k whole human genome microarray. Labeling and hybridization were performed using a FairPlay microarray labeling kit, followed by the coupling of Cy3 (controls) or Cy5 (treated samples) dye. The hybridized slides were scanned using a GenePix 4000B microarray scanner, and the images were analyzed using GenePix 4.1 software to obtain gene expression ratios. The fluorescence intensity of each spot was calculated by local median background subtraction. We then used the robust scatter-plot smoother LOWESS function to perform intensity-dependent normalization of gene expression. Scatter-plot analysis was performed using Microsoft Excel 2000. A significance analysis of microarray (SAM) was performed for genes with significant changes in expression.

Project description:We performed 4D label free-based quantitative proteomic analysis of Eimeria tenella unsporulated oocysts and sporulated oocysts. Briefly, protein extraction was performed using liquid nitrogen grinding and sonication on ice in SDT buffer (4% SDS, 100 mM Tris-HCl, pH7.6). After trypsin digestion, the peptides were separated on Easy-nLC1000 liquid chromatograph (Thermo Fisher Scientific, Waltham, MA, USA) with a trap column (Thermo Fisher Scientific Acclaim PepMap100, 100 μm × 2 cm, nanoViper C18) and analytical column (Thermo Fisher Scientific Easy Column, 25 cm long, 75 μm inner diameter, 1.9 μm resin). LC-MS/MS analysis was conducted on a timsTOF Pro mass spectrometry. The resulting LC-MS/MS data files were processed with the MaxQuant software (version 1.5.3.17) for identification and quantitation analysis.

Project description:Transcriptomic profiling of the response to dioxin in developing zebrafish embryos, at 24, 48, 72, 96, and 120 h post-fertilization. The goal was to elucidate mechanisms by which dioxin causes toxicity in zebrafish; this dose was previously shown to induce teratogenesis.

Project description:Passiflora mollissima commonly known as “banana passion fruit” is usually consumed as fresh food or processed products, being seeds and peel the main by-products of the industrial processing. The potentially bioactive metabolites from banana passion fruit PLE-extract seeds have been recently characterized by HPLC-HRMS after sequential pressurized liquid extraction (PLE) To apply a Foodomics approach to study the effects of a banana passion fruit seeds PLE-extract (with high antioxidant capacity and enriched in phenolic-type compounds) on the transcriptome and metabolome of HT-29 colon cancer cells.

Project description:We employed human HaCaT cells as a model system to identify cellular proteins that accompany SDS-induced toxicity based on a proteomic approach. HaCaT human keratinocyte cell line were treated with a non-cytotoxic dose of SDS (25 µg/ml, as determined by the MTT assay and microscopically examination) for 48 h. The altered abundance of proteins from HaCaT keratinocytes exposed to SDS was analyzed by LC-MS/MS approach and quantified using Progenesis LC software. The abundance of 217 proteins (which were identified by multiple peptides, ≥ 2) was altered in keratinocytes exposed to SDS; in which 131 proteins had increased abundance while 86 proteins was down regulated. The Pathview map of 131 up-regulated proteins was built and enhancement of glycolysis/gluconeogenesis was found.

Project description:The zebrafish (Danio rerio) embryo toxicity test (DarT) is considered as an alternative to the acute fish toxicity test. However, DarT rarely reveals information on the mechanisms underlying a toxic effect and is relatively insensitive compared to chronic toxic effects. We hypothesized that, by using gene expression profiles as an additional endpoint, it may be possible to increase the sensitivity and predictive value of DarT. Therefore we exposed zebrafish embryos for 48 h to the reference compound 3,4-dichloroaniline and analyzed gene expression patterns with a 14 k oligonucleotide array. Keywords: differential gene expression upon chemical exposure in zebrafish embryos