Summary
In recent years, an increasing number of emerging pollutants were identified in aquatic ecosystems, and one of the major concerns is the presence of sex-steroid hormones and mimics which act on aquatic organisms as endocrine-disrupting compounds (EDCs). The proposed multidisciplinary project will have focus on in vitro testing of complex of EDCs mixtures: the EU watch listed pollutant ethinylestradiol with emergent progestins drugs (levonorgestrel and megestrol acetate), taking into account a standard versus a warming scenario, as a major global change issue. This will be done by developing and exploiting cutting edge in vitro fish toxicity test tools: single-cell and (new in fish studies) multi-cell type 3D spheroids of liver cells (hepatocytes, stellate cells and biliary epithelial cells) of brown trout (Salmo trutta). The project will explore the advantages of 3D cultures, which have been proved to be much more biologically realistic than common 2D cultures, in order to study: (i) their morphology and viability using light and electron microscopy, including immunocytochemistry; (ii) multi end-point biochemical assays in combination with Raman microspectroscopy (novel in 3D culture); (iii) mechanistic insights of disruption and eventual (still unavailable) biomarkers of fish exposure/effect as to progestins. Quantitative gene expression is the method of choice for this task, targeting specific genes related to lipid-metabolism, yolk and eggshell proteins and androgen/estrogen/progestin receptors. An additional innovative contribution of this project is developing new tolls for enforcing the 3Rs (Replacement, Reduction, and Refinement) in fish research. The project will bring to another level the collaboration between the applicant and the host mentor by bidirectional transfer of skills and expertise, while conducting a scientifically innovative project. The strategy will benefit persons while establishing grounds for long-term institutional benefits.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101038087 |
| Start date: | 01-11-2021 |
| End date: | 31-10-2022 |
| Total budget - Public funding: | 79 907,52 Euro - 79 907,00 Euro |
Cordis data
Original description
In recent years, an increasing number of emerging pollutants were identified in aquatic ecosystems, and one of the major concerns is the presence of sex-steroid hormones and mimics which act on aquatic organisms as endocrine-disrupting compounds (EDCs). The proposed multidisciplinary project will have focus on in vitro testing of complex of EDCs mixtures: the EU watch listed pollutant ethinylestradiol with emergent progestins drugs (levonorgestrel and megestrol acetate), taking into account a standard versus a warming scenario, as a major global change issue. This will be done by developing and exploiting cutting edge in vitro fish toxicity test tools: single-cell and (new in fish studies) multi-cell type 3D spheroids of liver cells (hepatocytes, stellate cells and biliary epithelial cells) of brown trout (Salmo trutta). The project will explore the advantages of 3D cultures, which have been proved to be much more biologically realistic than common 2D cultures, in order to study: (i) their morphology and viability using light and electron microscopy, including immunocytochemistry; (ii) multi end-point biochemical assays in combination with Raman microspectroscopy (novel in 3D culture); (iii) mechanistic insights of disruption and eventual (still unavailable) biomarkers of fish exposure/effect as to progestins. Quantitative gene expression is the method of choice for this task, targeting specific genes related to lipid-metabolism, yolk and eggshell proteins and androgen/estrogen/progestin receptors. An additional innovative contribution of this project is developing new tolls for enforcing the 3Rs (Replacement, Reduction, and Refinement) in fish research. The project will bring to another level the collaboration between the applicant and the host mentor by bidirectional transfer of skills and expertise, while conducting a scientifically innovative project. The strategy will benefit persons while establishing grounds for long-term institutional benefits.Status
CLOSEDCall topic
WF-03-2020Update Date
17-05-2024
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