Project description:This project utilized oligonucleotide microarrays to examine gene expression patterns in adult male fathead minnows (Pimephales promelas) exposed to a common nanomaterial, titanium dioxide (TiO2, stearate-coated particles, MT-100TV®). We exposed adult male fathead minnows for 96 hr to three doses (0, 1, and 10 mg/L nominal) of TiO2 under static renewal conditions. TiO2 is stearate coated, 15 nm particle size.

Project description:This project utilized oligonucleotide microarrays to examine gene expression patterns in adult male fathead minnows (Pimephales promelas) exposed to a common nanomaterial, titanium dioxide (TiO2, stearate-coated particles, MT-100TV®). We exposed adult male fathead minnows for 96 hr to three doses (0, 1, and 10 mg/L nominal) of TiO2 under static renewal conditions. TiO2 is stearate coated, 15 nm particle size. Three-condition experiment: high dose, controls (untreated, low dose). Three tissues: liver, gill, brain. Biological replicates: 4 control replicates, 4 low dose, 4 high dose for gill and liver. One array for brain control and low dose; and 2 arrays for brain high dose. Contributor: Johnson & Johnson Worldwide Envrionmental

Project description:The widespread commercial use of TiO2-NPs, such as in medical stents, has led to extensive investigations on their toxicity and biological impact but lacks a detailed study on their effects. Proteomics and transcriptomics are key methodologies to unravel cellular dynamics, macromolecular interactions and biological response to NP exposure through the protein or gene identification and quantification. We focus on integration of several Omics strategies that could offer a more complex understanding of the impact. In this study, our goal was to gain insight into the cellular response after the exposure to sublethal concentration of TiO2-ultra small nanoparticles (USNPs) and NPs by analyzing the modification on the genomic and proteomic expression in human microdermal endothelial cells (HMEC-1). We investigated the correlation between the NP size and the cellular response to the exposure. We evaluated if multiOmics approaches could thus reveal more extensive information on the potential cellular responses to NPs exposure.

Project description:Exposure to titanium dioxide (TiO2) food additive by ingestion increased over the years. TiO2 is used in food to give a brighter, fresher colour to sweets, cookies, salad dressing under the name E171. New studies on E171 showed that after ingestion in a colorectal cancer mouse model, a significant increased number of colorectal tumours were found. In addition, short-term exposure to E171 induces gene expression changes in relation to oxidative stress responses, an impairment of the immune system, activation of signalling and cancer-related genes. Furthermore, dysregulation of the immune system was also observed after ingestion of E171 in rats. E171 comprises nanoparticles (NPs) and microparticles (MPs). Previous in vitro studies showed the capacity of E171, TiO2 NPs and MPs to induce oxidative stress, DNA damage, and induction of the micronuclei. The aim of our study was to investigate the relative contribution of the NPs and MPs fractions to the effects of E171 at the molecular level. This investigation was performed using in vitro exposure of Caco-2 cells to E171 as well as the NPs and MPs fractions of TiO2 and assessing effects with genome wide gene expression analysis. Results showed that the E171, TiO2 NPs and MPs induce gene expression changes in signalling, inflammation, immune system, transport, and cancer. Contribution of NPs was observed on genes involved in TLR cascade, MHC class I and II presentation, late cornified envelope, potassium channels, and cell cycle. MPs contribution was observed with changes in gene expression on a target to Hedgehog family, α-defensins, cadherin and cholinergic receptors. The gene expression changes associated with the immune system and inflammation induced by E171, MPs, and NPs suggest the creation of a favourable environment for cancer development.

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Project description:In the present study, we investigated the transcriptional expression patterns of the model strain E. coli exposed to titanium dioxide nanoparticles (NP-TiO2), under dark conditions by using a microarray. Expression profiles were compared to unexposed E.coli and ratio of expression were analysed.