Project description:New Indicators for human fecal pollution in urban waters

Project description:We reported the gene expression profile of T47D cells treated with the organic extract of Particulate matter 2.5 (PM2.5) sampled next to the municipal solid waste incineration plant of Bologna city. Based on a air pollution distribution model that takes the incinaration plant as point source of emission, two sites were chosen to sample particulate matter near incineration plant: "FrulloEst" representing the maximum effect of the incineration plant, "Calamosco" representing the negative control of "FrulloEst" (minimun effect of incineration plant, same effect of other air pollution fonts). Another site, "Giardini Margherita", is chosen to sample the urban background air pollution. for each site sample collection was performed in winter and in summer season.

Project description:Bacterial communities as indicators of environmental pollution

Project description:Epigenetic variation has the potential to control environmentally dependent development and contribute to phenotypic responses to local environments. Environmental epigenetic studies of sexual organisms confirm the responsiveness of epigenetic variation, which should be even more important when genetic variation is lacking. A previous study of an asexual snail, Potamopyrgus antipodarum, demonstrated that different populations derived from a single clonal lineage differed in both shell phenotype and methylation signature when comparing lake versus river populations. Here, we examine methylation variation among lakes that differ in environmental disturbance and pollution histories. The differential DNA methylation regions (DMRs) identified among the different lake comparisons suggested a higher number of DMRs and variation between rural Lake 1 and one urban Lake 2 and between the two urban Lakes 2 and 3, but limited variation between the rural Lake 1 and urban Lake 3. DMR genomic characteristics and gene associations were investigated. Observations suggest there is no effect of geographic distance or any consistent pattern of DMRs between urban and rural lakes. Environmental factors may influence epigenetic response.

Project description:The microbiome of urban waters

Project description:The neurotoxicity of air pollution is undefined for sex and APOE alleles. These major risk factors of Alzheimer’s disease (AD) were examined in mice given chronic exposure to nPM, a nano-sized subfraction of urban air pollution. In the cerebral cortex, female mice had two-fold more genes responding to nPM than males. Transcriptomic responses to nPM had sex-APOE interactions in AD-relevant pathways. Only APOE3 mice responded to nPM in genes related to Abeta deposition and clearance (Vav2, Vav3, S1009a). Other responding genes included axonal guidance, inflammation (AMPK, NFKB, APK/JNK signaling), and antioxidant signaling (NRF2, HIF1A). Genes downstream of NFKB and NRF2 responded in opposite directions to nPM. Nrf2 knockdown in microglia augmented NFKB responses to nPM, suggesting a critical role of NRF2 in air pollution neurotoxicity. These findings give a rationale for epidemiologic studies of air pollution to consider sex interactions with APOE alleles and other AD-risk genes.

Project description:Over the last years, evidence has grown that exposure to air pollution, in addition to impairing lung function and health in individuals of all age, can be linked to negative effects in newborn when present during pregnancy. Data suggests that intrauterine exposure of fetuses (exposure of the mother to air pollution during pregnancy) in fact exerts a negative impact on lung development. However, the means by which exposure during pregnancy affects lung development, have not been studied in depth yet. In this study, we investigated alterations of the transcriptome of the developing lung in a mouse model of gestational and early-life postnatal exposure to urban PM2.5 (from Sao Paulo, Brazil).

Project description:Epidemiological studies have demonstrated that exposure to particulate matter (PM) ambient pollution has adverse effects on lung health, exacerbated by cigarette smoking. Fine airborne particles <2.5 µm (PM2.5) are the most harmful of the urban pollutants, and the most closely linked to respiratory disease. Based on the knowledge that the small airway epithelium (SAE) plays a central role in pathogenesis of smoking-related lung disease, we hypothesized that elevated PM2.5 levels are associated with dysregulation of SAE gene expression.

Project description:The Nation’s streams and rivers contain several contaminants in the form of complex mixtures. These cocktails of chemicals are not equivalent in concentrations, some pollutants such as nutrients can be found in the range of mg/L (macro-pollutants) but others components (micro-pollutants) such as endocrine disrupting chemicals (EDCs) are in amounts thousands to millions of times less concentrated ug/L to ng/L. These mixtures hamper the determination of particular effects of contaminants in aquatic biota. Nonetheless, the fact that toxicity is preceded by alteration in gene expression in an organism allows the use of gene expression profiling (from microarray studies) to detect early toxic effects and identify mechanisms of action. The microarray technology, a collection of DNA fragments attached to a solid surface, can be used to measure the expression levels of large numbers of genes. This facilitates establishment of links between toxicants and effects on biota. In urban waters, micropollutants such as EDCs, are known to cause effects at very low concentrations. One common class of EDCs found in low levels in urban waters is the class of perfluorochemicals (PFCs). Previously, we observed that urban waters with wastewater influence containing PFCs in the 300 ng/L range exerted effects in fish by altering the expression of cholesterol metabolism and DNA repair genes in the liver. To determine whether low concentrations in the range of the PFCs found in the environment can elicit gene expression changes, we investigated the impact of 7 different types of PFCs in a controlled laboratory study by exposing fathead minnows for 48h to environmentally relevant concentrations of PFCs. Additionally, we use blood as starting material for microarray analysis in order to explore non-invasive techniques. No fish mortality was observed in any treatment exposures, but gene expression was altred. Surprisingly, low levels of PFCs that we used altered gene expression in fish liver and blood. Several of the same genes were altered in both liver and blood from exposed fish. Micorarray analysis yields information on altered molecular pathways that predict changes at higher levels of biological organization such as survival and reproduction.

Project description:Metagenomes of coastal waters with different pollution level