Project description:Chemical risk assessment for avian species typically depends on information from toxicity tests performed in adult birds. Early-life stage (ELS) toxicity tests have been proposed as an attractive alternative, but incorporation of these data into existing frameworks will require knowledge about the similarities/differences between ELS and adult responses. The present study uses transcriptomics to assess hepatic gene expression in ELS and adult Japanese quail following exposure to ethinylestradiol (EE2). ELS quail were dosed with 0, 3.33, and 33.3 µg EE2/g egg via air cell injection prior to incubation. Adult quail were fed a single dose of EE2 at 0, 0.5, and 5 mg/kg body weight by gavage. Liver tissue was collected from 5-6 individuals per dose group at mid-incubation for ELS quail, and 4 days after dosing for adult birds. A total of 283 and 111 differentially expressed genes (DEGs) were detected in ELS and adult quail, respectively, 16 of which were shared across life stages. Shared DEGs included estrogenic biomarkers such as vitellogenin genes and Apovitellenin-1. For the dose groups that resulted in the highest number of DEGs (ELS [3.3 µg/g]; adult [5 mg/kg]), 21 and 35 KEGG pathways were enriched, respectively. Ten of these pathways were shared between life stages, including pathways involved with signaling molecules and interaction, and endocrine system. Taken together, our results suggest conserved mechanisms of action following estrogenic exposure across two life stages, with evidence from differentially expressed genes and enriched pathways. This study contributes to the development and evaluation of toxicogenomic and ELS approaches as alternative toxicity testing methods and supports the use of the ELS test for screening estrogenic chemicals.

Project description:Species difference in susceptibility to toxicants is a critical issue in ecotoxicology. Transcriptomics is being proposed as a strategy to improve toxicity testing for regulatory risk assessment; however, different responses among species have not been extensively explored using this approach. In the present study, we identified dysregulated genes and pathways in Japanese quail (JQ) and double-crested cormorant (DCCO) embryos following exposure to ethinylestradiol (EE2). The objectives were to evaluate unique and overlapping transcriptomic responses to estrogenic exposure in the two species, and to determine whether these responses correspond to previously reported sensitivity difference at the organismal level. Exposures were conducted according to an avian egg injection protocol that we have proposed for standardization. EE2 was dissolved in dimethyl sulfoxide and injected into the air cell of eggs prior to incubation at nominal concentrations of 0, 3.33, and 33.3 µg/g egg weight. After 9-days (JQ) or 16-days (DCCO) of incubation (representing mid-incubation stage), liver tissues were collected from 5 embryos per treatment group for RNA-sequencing. Data were processed and analyzed using EcoOmicsAnalyst (www.ecoomicsanalyst.ca) and ExpressAnalyst (www.expressanalyst.ca). Following exposure to EE2, JQ and DCCO had 238 and 1987 differentially expressed genes, respectively, having 78 of them in common. The results of this study will contribute to a better understanding of the estrogenic effects of contaminants in birds, the expansion of taxonomic coverage in chemical risk assessment from model to non-model species, and the evaluation of transcriptomics and early-life stage tests as alternative toxicity testing methods. This study was conducted as a part of a large-scale Genome Canada-funded project, EcoToxChip project (www.ecotoxchip.ca).

Project description:Early-life stress (ELS) leads to increased vulnerability to psychiatric illness including cognitive impairment later in life. Neuroinflammatory processes have been implicated in ELS-induced negative health outcomes, but, how ELS impacts microglia, the macrophages of the central nervous system, is unknown. Here, we determined the effects of ELS induced by limited bedding and nesting material during the first week of life (P2 – P9) on the morphology and gene expression of microglia from young (postnatal day (P)9) and adult (P200) mice. ELS led to a change in the proportion of morphological microglia subtypes in adulthood, associated with immune reactivity. At the transcriptional level, whereas at P9 no ELS mediated changes were detected, at P200 ELS induced transcriptional changes in microglia genes involved in the immune response and protein ubiquitination. Additionally, ELS altered microglia gene expression changes during development from P9 to P200 and in response to LPS at P200, in both cases marked by GO-terms associated with the immune response. Concluding, these data show that ELS has persistent effects on the morphology and gene expression program of microglia and results in an altered transcriptional response to a systemic LPS challenge.

Project description:Maternal exposures during pregnancy influence the risk of many chronic adult-onset diseases in the offspring. We investigated whether feeding pregnant rats a high fat (HF) or ethinyl-estradiol (EE2)-supplemented diet affects carcinogen-induced mammary cancer risk in daughters, granddaughters and great-granddaughters. Here we show that mammary tumorigenesis is higher in daughters and granddaughters of HF rat dams and in daughters, granddaughters and great-granddaughters of EE2 rat dams. Outcross experiments indicate that increased mammary cancer risk is transmitted to HF granddaughters equally through the female or male germlines, but it is only transmitted to EE2 granddaughters through the female germline. The effects of maternal EE2 exposure on offspring's mammary cancer risk are associated with alternations in the DNA methylation machinery and methylation patterns in mammary tissue of all three EE2 generations. We conclude that dietary and estrogenic exposures in pregnancy increase breast cancer risk in multiple generations of offspring, possibly through non-genetic means

Project description:Maternal exposures during pregnancy influence the risk of many chronic adult-onset diseases in the offspring. We investigated whether feeding pregnant rats a high fat (HF) or ethinyl-estradiol (EE2)-supplemented diet affects carcinogen-induced mammary cancer risk in daughters, granddaughters and great-granddaughters. Here we show that mammary tumorigenesis is higher in daughters and granddaughters of HF rat dams and in daughters, granddaughters and great-granddaughters of EE2 rat dams. Outcross experiments indicate that increased mammary cancer risk is transmitted to HF granddaughters equally through the female or male germlines, but it is only transmitted to EE2 granddaughters through the female germline. The effects of maternal EE2 exposure on offspring's mammary cancer risk are associated with alternations in the DNA methylation machinery and methylation patterns in mammary tissue of all three EE2 generations. We conclude that dietary and estrogenic exposures in pregnancy increase breast cancer risk in multiple generations of offspring, possibly through non-genetic means We examined the whole genome methylation status of both control and EE2-supplemented diet rats in three consecutive generations

Project description:Early life stress (ELS), such as neglect and maltreatment, exhibits a strong impact on the mental and brain development of children. However, it is not fully understood how ELS affects the function in developing prefrontal cortex (PFC). In this study, we performed social isolation on weaned pre-adolescent mice and investigated how ELS could affect the function in behavior and transcriptome in PFC. We found that reductions of social interaction, social preference, and social novelty in ELS mice. Moreover, an increase of anxiety-like behavior was observed in ELS mice, but there were no changes in weight and repetitive behavior. To identify the gene involved in social behavior, we conducted transcriptome analysis and identified 15 differentially expressed genes (DEGs) in the PFC of ELS mice. These genes were involved in transcriptional regulation, stress, and synaptic signaling. We also found that a decreased number of neurons and an increased number of microglia in the PFC of ELS mice. These results suggest that ELS affects PFC cytoarchitecture by stress signal transduction and eventually alters mouse behavior. Our study demonstrates that ELS influences behavior, transcriptome and cytoarchitecture in the brain of adolescent mice.

Project description:Since Japanese quail and chicken belong to the same order Galliforms, DNA sequence of both species are highly conserved and proved to be applicable for various analyses each other. Quail are commonly used to address physiological questions for reasons of economy. To test whether chicken microarrays are useful to quail samples, we compared hybridization signals of chicken and quail genomic DNA on Affymetrix chicken genome array. Experiment Overall Design: Genomic DNA of female chicken and quail were extracted individually from liver of three birds and hybridized on Affymetrix microarrays. Samples were analyzed in triplicate set of array (three biological replicates).

Project description:Transcriptional profiling was carried out on lung and ileum samples at 1dpi and 3dpi from quail infected with either low pathogenic (H5N2) or highly pathogenic (H5N1) avian influenza. Infected birds were compared to control birds at each time point.

Project description:To determine what kind of genes are involved in vocal learning ability, we performed microarray experiments using 3 vocal learning species (zebra finch, budgerigar, Anna's hummingbird) and 2 non-vocal learning species(ring dive, and Japanese quail) from bird group. All of the animals are adult males. They were isolated over night and had 1hour light exposure at morning. Birds who did not sing were used in this experiment.

Project description:Endocrine disruption (ED) can trigger far-reaching effects on environmental populations, justifying a refusal of market approval for chemicals with ED properties. For the assessment of ED effects on development and reproduction, regulatory decisions mostly rely on apical endpoints from in vivo testing with adult animals. Here, we present a rapid and reproducible data dependent proteomics approach for identifying comprehensive molecular fingerprints interfering with the sexual endocrine system in zebrafish (Danio rerio) embryos as an alternative to animal testing. For this, we have analysed ethinylestradiol as model substances for estrogenic perturbation in a modified zebrafish embryo toxicity test (zFET). These signatures allow for a definition of solid biomarkers as tools in screening approaches and for integration in chronic toxicity studies for identifying suspect ED substances, in the fish early life-stage test (OECD TG 210).