ABSTRACT: Transcriptional impact of organophosphate and metal mixtures on olfaction: copper dominates the chlorpyrifos-induced response in adult zebrafish.
Project description:Chemical exposures in fish have been linked to loss of olfaction leading to an inability to detect predators and prey and decreased survival. However, the mechanisms underlying olfactory neurotoxicity are not well characterized, especially in environmental exposures which involve chemical mixtures. We used zebrafish to characterize olfactory transcriptional responses by two model olfactory inhibitors, the pesticide chlorpyrifos (CPF) and mixtures of CPF with the neurotoxic metal copper (Cu).
Project description:Chemical exposures in fish have been linked to loss of olfaction leading to an inability to detect predators and prey and decreased survival. However, the mechanisms underlying olfactory neurotoxicity are not well characterized, especially in environmental exposures which involve chemical mixtures. We used zebrafish to characterize olfactory transcriptional responses by two model olfactory inhibitors, the pesticide chlorpyrifos (CPF) and mixtures of CPF with the neurotoxic metal copper (Cu). 30 one-year-old adult AB strain zebrafish were exposed, in groups of three, to CPF/Cu concentrations of 0/0, 0.1/0, 0.25/0, 0.6/0, 0/0.1, 0/0.25, 0/0.6, 0.1/0.25, 0.25/0.25, 0.6/0.25.
Project description:Zebrafish exposed to 2 waterborne copper concentrations (8 & 15 ug/L) in softwater for 21 days. Fish were terminally sampled and livers extracted for RNA extraction and hybridization to micorarrays
Project description:Cypermethrin (CYP) and chlorpyrifos (CPF) are pesticides which are frequently used in agricultural areas around the world. These chemicals have been shown to cause serious toxicological damage in the brain of fish, which is non-target organisms. However, circRNAs associated with acute brain toxicity caused by cypermethrin and chlorpyrifos have not been studied yet. In this study, circRNAs were identified and characterized using RNA-seq in Zebrafish brains exposed to acute cypermethrin and chlorpyrifos toxicity. A total of 10375 circRNAs were detected. It was determined that 6 circRNAs were up-regulated, 10 circRNAs were down-regulated in CYP brain samples compared to controls . In addition, it was found that 57 circRNAs are up-regulated and 3 circRNAs down-regulated in CPF brain samples compared to controls. Moreover, 62 circRNAs were down-regulated in the CYP samples, when CYP and CPF samples were compared. However, up-regulated circRNA could not be detected. It was revealed that the detected circRNAs specifically regulated the MAPK signaling pathway, endocytosis mechanism, apoptosis and p53 signaling pathway. This study, which was conducted for the first time in terms of the subject of the study, could bring a different perspective especially to pesticide toxicity studies.
Project description:The commercially available zebrafish (Danio rerio) gene expression microarray (4x44K format, Agilent G2519F-026437) was used to characterise the changes in gene expression levels in the ovary and brain of adult female zebrafish after exposure to 55, 553 and 5442 ng/L DRS for 14 days. Also, the transcriptional response in the brain of adult female zebrafish was characterised after exposure to mixtures of DRS and P4 at concentrations of 27+0.8, 277+8, 3119+123 (ng/L), respectively. This study was designed to achieve an understanding of the mode of action of DRS and steroid mixtures in zebrafish.
Project description:Purpose: Construction of 3D zebrafish spatial transcriptomics data for studying the establishment of AP axis. Methods: We performed serial bulk RNA-seq data of zebrafish embryo at three development points. Using the published spatial transcriptomics data as references, we implemented Palette to infer spatial gene expression from bulk RNA-seq data and constructed 3D embryonic spatial transcriptomics. The constructed 3D transcriptomics data was then projected on zebrafish embryo images with 3D coordinates, establishing a spatial gene expression atlas named Danio rerio Asymmetrical Maps (DreAM). Results: DreAM provides a powerful platform for visualizing gene expression patterns on zebrafish morphology and investigating spatial cell-cell interactions. Conclusions: Our work used DreAM to explore the establishment of anteroposterior (AP) axis, and identified multiple morphogen gradients that played essential roles in determining cell AP positions. Finally, we difined a hox score, and comprehensively demonstrated the spatial collinearity of Hox genes at single-cell resolution during development.
