Your search keyword '"Spirhanzlova P"' showing total 24 results

1. High urinary oxidative DNA damage in wild chimpanzees ranging in proximity of agricultural fields in Sebitoli area, Uganda

Author

Krief, Sabrina, Spirhanzlova, Petra, Masi, Shelly, Couturier, Chloé, Okwir, Eric, Asalu, Edward, Bustamante, Paco, and Costantini, David

Published

2023

2. Chimpanzee exposure to pollution revealed by human biomonitoring approaches

Author

Sabrina Krief, Alba Iglesias-González, Brice M.R. Appenzeller, Lyna Rachid, Marielle Beltrame, Edward Asalu, John-Paul Okimat, Nicole Kane-Maguire, and Petra Spirhanzlova

Subjects

Pan troglodytes, Hair analysis, Pesticides, LC/MS-MS, GC/MS-MS, Organic pollutants, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

Wildlife is increasingly exposed to environmental pollution, but data illustrating to what extent this exposure can impact health and survival of endangered species is missing. In humans, hair matrix analysis is a reliable tool for assessing cumulative exposure to organic pollutants such as pesticides but has rarely been used in other primates for this purpose. LC/MS-MS and GC/MS-MS multi-residue methods were used to screen the presence of 152 organic pollutants and their metabolites belonging to 21 different chemical families in hair samples from our closest relative, the chimpanzee. Samples were collected from 20 wild chimpanzees in Sebitoli, Kibale National Park, Uganda and 9 captive chimpanzees in the Réserve Africaine de Sigean, France. In total, 90 chemicals were detected, 60 in wild chimpanzees and 79 in captive chimpanzees. The median concentrations of detected chemicals in captive individuals were significantly higher than those in wild chimpanzees. Hair from the captive individuals at RAS was sampled a second time after 6 months in an environment of reduced exposure to these pollutants (diet of organic food, decreased use of plastic food and water containers). The number of chemicals detected in captive chimpanzees reduced from 79 to 63, and their concentrations were also significantly reduced. In the present study we report for the first time the use of hair analysis to detect organic pollutants in primate hair. We conclude that both wild and captive chimpanzees are exposed to a large range of different chemicals through their diet. Our study provides surprising and alarming evidence that besides the direct threats of poaching, deforestation and diseases, wild chimpanzees might be endangered by indirect consequences of anthropic activities. As chimpanzees are our closest relatives, our results should be considered as an alert for human health as well.

Published

2022

3. Road impact in a protected area with rich biodiversity: the case of the Sebitoli road in Kibale National Park, Uganda

Author

Krief, Sabrina, Iglesias-González, Alba, Appenzeller, Brice Marc René, Okimat, John Paul, Fini, Jean-Baptiste, Demeneix, Barbara, Vaslin-Reimann, Sophie, Lardy-Fontan, Sophie, Guma, Nelson, and Spirhanzlova, Petra

Published

2020

4. EDA-EMERGE: an FP7 initial training network to equip the next generation of young scientists with the skills to address the complexity of environmental contamination with emerging pollutants

Author

Brack, Werner, Govender, Selvan, Schulze, Tobias, Krauss, Martin, Hu, Meng, Muz, Melis, Hollender, Juliane, Schirmer, Kristin, Schollee, Jennifer, Hidasi, Anita, Slobodnik, Jaroslav, Rabova, Zuzana, Ait-Aissa, Selim, Sonavane, Manoj, Carere, Mario, Lamoree, Marja, Leonards, Pim, Tufi, Sara, Ouyang, Xiyu, Schriks, Merijn, Thomas, Kevin, de Almeida, Ana Catarina, Froment, Jean, Hammers-Wirtz, Monika, Ahel, Marijan, Koprivica, Sanja, Hollert, Henner, Seiler, Thomas-Benjamin, Paolo, Carolina Di, Tindall, Andrew, and Spirhanzlova, Petra

Published

2013

5. Corrigendum to “European demonstration program on the effect-based and chemical identification and monitoring of organic pollutants in European surface waters” [Sci. Total Environ. 601–602 (2017) 1849–1868]

Author

Tousova, Z., Oswald, P., Slobodnik, J., Blaha, L., Muz, Melis, Hu, Meng, Brack, Werner, Krauss, Martin, Di Paolo, C., Tarcai, Z., Seiler, T.-B., Hollert, H., Koprivica, S., Ahel, M., Schollée, J.E., Hollender, J., Suter, M.J.-F., Hidasi, A.O., Schirmer, K., Sonavane, M., Ait-Aissa, S., Creusot, N., Brion, F., Froment, Jean, Almeida, A.C., Thomas, K., Tollefsen, K.E., Tufi, S., Ouyang, X., Leonards, P., Lamoree, M., Torrens, V.O., Kolkman, A., Schriks, M., Spirhanzlova, P., Tindall, A., Schulze, Tobias, Tousova, Z., Oswald, P., Slobodnik, J., Blaha, L., Muz, Melis, Hu, Meng, Brack, Werner, Krauss, Martin, Di Paolo, C., Tarcai, Z., Seiler, T.-B., Hollert, H., Koprivica, S., Ahel, M., Schollée, J.E., Hollender, J., Suter, M.J.-F., Hidasi, A.O., Schirmer, K., Sonavane, M., Ait-Aissa, S., Creusot, N., Brion, F., Froment, Jean, Almeida, A.C., Thomas, K., Tollefsen, K.E., Tufi, S., Ouyang, X., Leonards, P., Lamoree, M., Torrens, V.O., Kolkman, A., Schriks, M., Spirhanzlova, P., Tindall, A., and Schulze, Tobias

Abstract

no abstract

Published

2018

6. European demonstration program on the effect-based and chemical identification and monitoring of organic pollutants in European surface waters

Author

Tousova, Z., Oswald, P., Slobodnik, J., Blaha, L., Muz, Melis, Hu, Meng, Brack, Werner, Krauss, Martin, Di Paolo, C., Tarcai, Z., Seiler, T.-B., Hollert, H., Koprivica, S., Ahel, M., Schollée, J.E., Hollender, J., Suter, M.J.-F., Hidasi, A.O., Schirmer, K., Sonavane, M., Ait-Aissa, S., Creusot, N., Brion, F., Froment, Jean, Almeida, A.C., Thomas, K., Tollefsen, K.E., Tufi, S., Ouyang, X., Leonards, P., Lamoree, M., Torrens, V.O., Kolkman, A., Schriks, M., Spirhanzlova, P., Tindall, A., Schulze, Tobias, Tousova, Z., Oswald, P., Slobodnik, J., Blaha, L., Muz, Melis, Hu, Meng, Brack, Werner, Krauss, Martin, Di Paolo, C., Tarcai, Z., Seiler, T.-B., Hollert, H., Koprivica, S., Ahel, M., Schollée, J.E., Hollender, J., Suter, M.J.-F., Hidasi, A.O., Schirmer, K., Sonavane, M., Ait-Aissa, S., Creusot, N., Brion, F., Froment, Jean, Almeida, A.C., Thomas, K., Tollefsen, K.E., Tufi, S., Ouyang, X., Leonards, P., Lamoree, M., Torrens, V.O., Kolkman, A., Schriks, M., Spirhanzlova, P., Tindall, A., and Schulze, Tobias

Abstract

Growing concern about the adverse environmental and human health effects of a wide range of micropollutants requires the development of novel tools and approaches to enable holistic monitoring of their occurrence, fate and effects in the aquatic environment. A European-wide demonstration program (EDP) for effect-based monitoring of micropollutants in surface waters was carried out within the Marie Curie Initial Training Network EDA-EMERGE. The main objectives of the EDP were to apply a simplified protocol for effect-directed analysis, to link biological effects to target compounds and to estimate their risk to aquatic biota. Onsite large volume solid phase extraction of 50 L of surface water was performed at 18 sampling sites in four European river basins. Extracts were subjected to effect-based analysis (toxicity to algae, fish embryo toxicity, neurotoxicity, (anti-)estrogenicity, (anti-)androgenicity, glucocorticoid activity and thyroid activity), to target analysis (151 organic micropollutants) and to nontarget screening. The most pronounced effects were estrogenicity, toxicity to algae and fish embryo toxicity. In most bioassays, major portions of the observed effects could not be explained by target compounds, especially in case of androgenicity, glucocorticoid activity and fish embryo toxicity. Estrone and nonylphenoxyacetic acid were identified as the strongest contributors to estrogenicity, while herbicides, with a minor contribution from other micropollutants, were linked to the observed toxicity to algae. Fipronil and nonylphenol were partially responsible for the fish embryo toxicity. Within the EDP, 21 target compounds were prioritized on the basis of their frequency and extent of exceedance of predicted no effect concentrations. The EDP priority list included 6 compounds, which are already addressed by European legislation, and 15 micropollutants that may be important for future monitoring of surface waters. The study presents a novel simplified protoco

Published

2017

7. Construction and characterization of a BAC library for functional genomics in Xenopus tropicalis

Author

Spirhanzlova, P., primary, Dhorne-Pollet, S., additional, Fellah, J.S., additional, Da Silva, C., additional, Tlapakova, T., additional, Labadie, K., additional, Weissenbach, J., additional, Poulain, J., additional, Jaffredo, T., additional, Wincker, P., additional, Krylov, V., additional, and Pollet, N., additional

Published

2017

8. Composition and endocrine effects of water collected in the Kibale national park in Uganda.

Author

Spirhanzlova, Petra, Fini, Jean-Baptiste, Demeneix, Barbara, Lardy-Fontan, Sophie, Vaslin-Reimann, Sophie, Lalere, Béatrice, Guma, Nelson, Tindall, Andrew, and Krief, Sabrina

Subjects

ENDOCRINE glands, NATIONAL parks & reserves, IMIDACLOPRID, CARBARYL, WATER pollution, CARBOFURAN

Abstract

Pesticides are used worldwide with potential harmful effects on both fauna and flora. The Kibale National Park in Uganda, a site renowned for its biodiversity is surrounded by tea, banana and eucalyptus plantations as well as maize fields and small farms. We previously showed presence of pesticides with potential endocrine disruptive effects in the vicinity. To further investigate the water pollution linked to agricultural pressure in this protected area, we implemented a complementary monitoring strategy based on: analytical chemistry, effects based methods and the deployment of Polar Organic Chemical Integrative Samplers (POCIS). Chemical analysis of the POCIS extracts revealed the presence of 13 pesticides: carbofuran, DEET, 2.4-D amine, carbaryl, ametryn, isoproturon, metolachlor, terbutryn, dimethoate, imidacloprid, picaridin, thiamethoxam, carbendazim, with the first three being present in the largest quantities. Water samples collected at the POCIS sampling sites exhibited thyroid and estrogen axis disrupting activities in vivo , in addition to developmental and behaviour effects on Xenopus laevis tadpoles model. Based on our observations, for the health of local human and wildlife populations, further monitoring as well as actions to reduce agrochemical use should be considered in the Kibale National Park and in regions exposed to similar conditions. Image 1 • The Kibale national park (KNP) in Uganda is a hotspot of biodiversity. • Wildlife in the northern part of KNP is threatened by the presence of phytochemicals. • Chemical analysis of local river water revealed the presence of 13 pesticides. • Local river water exhibited thyroid and estrogen disrupting activities in vivo. • Further monitoring and pesticide usage reduction should be considered in KNP. Water collected in Kibale national park in Uganda contains 13 pesticides and exhibits thyroid and estrogen axis disruption in aquatic larvae. [ABSTRACT FROM AUTHOR]

Published

2019

9. Functional Characterization of Xenopus Thyroid Hormone Transporters mct8 and oatp1c1.

Author

Mughal, Bilal B, Leemans, Michelle, Lima de Souza, Elaine C, le Mevel, Sébastien, Spirhanzlova, Petra, Visser, Theo J, Fini, Jean-Baptiste, and Demeneix, Barbara A

Abstract

Xenopus is an excellent model for studying thyroid hormone signaling as it undergoes thyroid hormone-dependent metamorphosis. Despite the fact that receptors and deiodinases have been described in Xenopus, membrane transporters for these hormones are yet to be characterized. We cloned Xenopus monocarboxylate transporter 8 (mct8) and organic anion-transporting polypeptide 1C1 (oatpc1c1), focusing on these two transporters given their importance for vertebrate brain development. Protein alignment and bootstrap analysis showed that Xenopus mct8 and oatp1c1 are closer to their mammalian orthologs than their teleost counterparts. We functionally characterized the two transporters using a radiolabeled hormones in vitro uptake assay in COS-1 cells. Xenopus mct8 was found to actively transport both T3 and T4 bidirectionally. As to the thyroid precursor molecules, diiodotyrosine (DIT) and monoiodotyrosine (MIT), both human and Xenopus mct8, showed active efflux, but no influx. Again similar to humans, Xenopus oatp1c1 transported T4 but not T3, MIT, or DIT. We used reverse transcription quantitative polymerase chain reaction and in situ hybridization to characterize the temporal and spatial expression of mct8 and oatp1c1 in Xenopus. Specific expression of the transporter was observed in the brain, with increasingly strong expression as development progressed. In conclusion, these results show that Xenopus thyroid hormone transporters are functional and display marked spatiotemporal expression patterns. These features make them interesting targets to elucidate their roles in determining thyroid hormone availability during embryonic development.

Published

2017

10. Rapid Fluorescent Detection of (Anti)androgens with spiggin-gfp Medaka.

Author

Sébillot, Anthony, Damdimopoulou, Pauliina, Yukiko Ogino, Spirhanzlova, Petra, Shinichi Miyagawa, Du Pasquier, David, Mouatassim, Nora, Taisen Iguchi, Lemkine, Gregory F., Demeneix, Barbara A., and Tindall, Andrew J.

Published

2014

11. Chimpanzee exposure to pollution revealed by human biomonitoring approaches.

Author

Krief, Sabrina, Iglesias-González, Alba, Appenzeller, Brice M.R., Rachid, Lyna, Beltrame, Marielle, Asalu, Edward, Okimat, John-Paul, Kane-Maguire, Nicole, and Spirhanzlova, Petra

Subjects

BIOLOGICAL monitoring, POLLUTION, HAIR analysis, CHIMPANZEES, HUMAN beings, POLLUTANTS

Published

2022

12. The pyriproxyfen metabolite, 4′–OH–PPF, disrupts thyroid hormone signaling in neural stem cells, modifying neurodevelopmental genes affected by ZIKA virus infection.

Author

Vancamp, Pieter, Spirhanzlova, Petra, Sébillot, Anthony, Butruille, Lucile, Gothié, Jean-David, Le Mével, Sébastien, Leemans, Michelle, Wejaphikul, Karn, Meima, Marcel, Mughal, Bilal B., Roques, Pierre, Remaud, Sylvie, Fini, Jean-Baptiste, and Demeneix, Barbara A.

Subjects

NEURAL stem cells, ZIKA virus infections, PYRIPROXYFEN, THYROID hormones, NERVE tissue proteins

Abstract

North-Eastern Brazil saw intensive application of the insecticide pyriproxyfen (PPF) during the microcephaly outbreak caused by the Zika virus (ZIKV). ZIKV requires the neural RNA-binding protein Musashi-1 to replicate. Thyroid hormone (TH) represses MSI1. PPF is a suspected TH disruptor. We hypothesized that co-exposure to the main metabolite of PPF, 4′–OH–PPF, could exacerbate ZIKV effects through increased MSI1 expression. Exposing an in vivo reporter model, Xenopus laevis , to 4′–OH–PPF decreased TH signaling and increased msi1 mRNA and protein, confirming TH-antagonistic properties. Next, we investigated the metabolite's effects on mouse subventricular zone-derived neural stem cells (NSCs). Exposure to 4′–OH–PPF dose-dependently reduced neuroprogenitor proliferation and dysregulated genes implicated in neurogliogenesis. The highest dose induced Msi1 mRNA and protein, increasing cell apoptosis and the ratio of neurons to glial cells. Given these effects of the metabolite alone, we considered if combined infection with ZIKV worsened neurogenic events. Only at the fourth and last day of incubation did co-exposure of 4′–OH–PPF and ZIKV decrease viral replication, but viral RNA copies stayed within the same order of magnitude. Intracellular RNA content of NSCs was decreased in the combined presence of 4′–OH–PPF and ZIKV, suggesting a synergistic block of transcriptional machinery. Seven out of 12 tested key genes in TH signaling and neuroglial commitment were dysregulated by co-exposure, of which four were unaltered when exposed to 4′–OH–PPF alone. We conclude that 4′–OH–PPF is an active TH-antagonist, altering NSC processes known to underlie correct cortical development. A combination of the TH-disrupting metabolite and ZIKV could aggravate the microcephaly phenotype. [Display omitted] • The pyriproxyfen metabolite, 4′–OH–PPF, antagonizes thyroid hormone action. • 4′–OH–PPF reduces neural stem cell proliferation and increases apoptosis in vitro. • 4′–OH–PPF alters neural stem cell fate, increasing the neuro/glia ratio. • 4′–OH–PPF increases Musaschi-1, a protein the ZIKA virus needs to replicate. • 4′–OH–PPF exposure alters ZIKA virus effects on gene expression. [ABSTRACT FROM AUTHOR]

Published

2021

13. European demonstration program on the effect-based and chemical identification and monitoring of organic pollutants in European surface waters (vol 601, pg 1849, 2017)

Author

Tousova, Z, Oswald, P, Slobodnik, J, Blaha, L, Muz, M, Hu, M, Brack, W, Krauss, M, Di Paolo, C, Tarcai, Z, Seiler, TB, Hollert, H, Koprivica, S, Ahel, M, Schollee, JE, Hollender, J, Suter, MJF, Hidasi, AO, Schirmer, K, Sonavane, M, Ait-Aissa, S, Creusot, N, Brion, F, Froment, J, Almeida, AC, Thomas, K, Tollefsen, KE, Tufi, S, Ouyang, XY, Leonards, P, Lamoree, M, Torrens, VO, Kolkman, A, Schriks, M, Spirhanzlova, P, Tindall, A, and Schulze, T

14. Following Endocrine-Disrupting Effects on Gene Expression in Xenopus laevis

Author

Spirhanzlova, Petra, Leemans, Michelle, Demeneix, Barbara A., and Fini, Jean-Baptiste

Abstract

Endocrine-disrupting chemicals (EDCs), found in all categories of chemicals, are suspected to be a cause of declining well-being and human health, both as single molecules and as mixtures. It is therefore necessary to develop high throughput methods to assess the endocrine-disrupting potential of multiple chemicals currently on the market that are as yet untested. An advantage of in vivo chemical screening is that it provides a full spectrum of physiological impacts exerted by a given chemical. Xenopus laevisis an ideal model organism to test thyroid axis disruption in vivo as thyroid hormones (THs) are highly conserved across vertebrates and orchestrate tadpole metamorphosis. In particular, NF stage 45 Xenopus laevisare most apt for in vivo screening as at this stage the tadpoles possess all the main elements of thyroid hormone signaling (thyroid receptors, deiodinases transporters) and are metabolically competent, while fitting into multiple well plates, allowing the use of small amounts of test chemicals. One way to assess the endocrine-disrupting potential of chemicals or mixtures thereof is to analyze gene expression in organisms after a short time exposure to the chemical(s). Here we describe a protocol using Xenopus laevisembryos to detect endocrine disruption of the thyroid axis by analysis of gene expression and an alternative protocol for fluorescence read-out using a transgenic GFP-expressing Xenopus laevisline. Taken together, these methods allow detection of subtle changes in TH signaling by EDCs that either activate or inhibit TH signaling in vivo.

Published

2019

15. A Mixture of Chemicals Found in Human Amniotic Fluid Disrupts Brain Gene Expression and Behavior in Xenopus laevis .

Author

Leemans M, Spirhanzlova P, Couderq S, Le Mével S, Grimaldi A, Duvernois-Berthet E, Demeneix B, and Fini JB

Subjects

Humans, Animals, Xenopus laevis metabolism, Thyroid Hormones metabolism, Brain metabolism, Gene Expression, Larva metabolism, Amniotic Fluid metabolism, Endocrine Disruptors pharmacology

Abstract

Thyroid hormones (TH) are essential for normal brain development, influencing neural cell differentiation, migration, and synaptogenesis. Multiple endocrine-disrupting chemicals (EDCs) are found in the environment, raising concern for their potential effects on TH signaling and the consequences on neurodevelopment and behavior. While most research on EDCs investigates the effects of individual chemicals, human health may be adversely affected by a mixture of chemicals. The potential consequences of EDC exposure on human health are far-reaching and include problems with immune function, reproductive health, and neurological development. We hypothesized that embryonic exposure to a mixture of chemicals (containing phenols, phthalates, pesticides, heavy metals, and perfluorinated, polychlorinated, and polybrominated compounds) identified as commonly found in the human amniotic fluid could lead to altered brain development. We assessed its effect on TH signaling and neurodevelopment in an amphibian model ( Xenopus laevis ) highly sensitive to thyroid disruption. Fertilized eggs were exposed for eight days to either TH (thyroxine, T 4 10 nM) or the amniotic mixture (at the actual concentration) until reaching stage NF47, where we analyzed gene expression in the brains of exposed tadpoles using both RT-qPCR and RNA sequencing. The results indicate that whilst some overlap on TH-dependent genes exists, T 4 and the mixture have different gene signatures. Immunohistochemistry showed increased proliferation in the brains of T 4 -treated animals, whereas no difference was observed for the amniotic mixture. Further, we demonstrated diminished tadpoles' motility in response to T 4 and mixture exposure. As the individual chemicals composing the mixture are considered safe, these results highlight the importance of examining the effects of mixtures to improve risk assessment.

Published

2023

16. Short- and Long-Term Effects of Chlorpyrifos on Thyroid Hormone Axis and Brain Development in Xenopus laevis.

Author

Spirhanzlova P, Couderq S, Le Mével S, Leemans M, Krief S, Mughal BB, Demeneix BA, and Fini JB

Subjects

Animals, Xenopus laevis metabolism, Thyroid Hormones, Metamorphosis, Biological physiology, Brain metabolism, Chlorpyrifos toxicity, Chlorpyrifos metabolism

Abstract

Introduction: The extensive use of the insecticide chlorpyrifos (CPF) throughout the world has brought increased scrutiny on its environmental and health impact. CPF is a cholinergic neurotoxicant; however, exposure to low noncholinergic doses is associated with numerous neurodevelopmental effects in animal models. In this study, we aimed to assess CPF for its potential to disrupt thyroid hormone signalling and investigate the short- and long-term effects on neurodevelopment by using Xenopus laevis., Methods: The thyroid hormone (TH) disrupting potential of CPF was assessed using TH-sensitive transgenic Tg(thibz:eGFP) tadpoles. The consequences of early embryonic exposure were examined by exposing fertilized eggs for 72 h to environmentally relevant CPF concentrations (10-10 M and 10-8 M). Three endpoints were evaluated: (1) gene expression in whole embryonic brains immediately after exposure, (2) mobility and brain morphology 1 week after exposure, and (3) brain morphology and axon diameters at the end of metamorphosis (2 months after the exposure)., Results: CPF disrupted TH signalling in Tg(thibz:eGFP) tadpoles. The expression of genes klf9, cntn4, oatp1c1, and tubb2b was downregulated in response to CPF. Tadpoles exposed to CPF exhibited increased mobility and altered brain morphology compared to control tadpoles. Early embryonic exposure of CPF affected myelinated axon diameter, with exposed animals exhibiting shifted frequency distributions of myelinated axons diameters towards smaller diameters in the hindbrain of froglets., Discussion/conclusion: This study provides more evidence of the endocrine and neurodevelopment disrupting activity of CPF. Further experimental and epidemiological studies are warranted to determine the long-term consequences of early CPF exposure on brain development., (© 2022 S. Karger AG, Basel.)

Published

2023

17. Transgenic Medaka Identify Embryonic Periods Sensitive to Disruption of Sex Determination.

Author

Spirhanzlova P, Trébulle P, Lallement J, Sébillot A, Kanamori A, Lemkine GF, and Tindall AJ

Subjects

Animals, Dihydrotestosterone toxicity, Estradiol toxicity, Female, Green Fluorescent Proteins genetics, Male, Oryzias metabolism, Ovary drug effects, Ovary metabolism, Animals, Genetically Modified embryology, Endocrine Disruptors toxicity, Organogenesis drug effects, Oryzias embryology, Ovary embryology, Sex Determination Processes drug effects

Abstract

Gonadal development in medaka (Oryzias latipes) is dependent on the synergy between estrogens and androgens. Disruption of steroid hormone levels can lead to ovo-testis. To determine the sensitive windows for hormonally induced sex reversal in medaka, we developed a novel 42sp50-GFP_ChgH-GFP transgenic medaka line, allowing the identification of female gonadal tissue by fluorescence present in developing oocytes. Germinal transgenesis resulted in a stable line exhibiting a strong green fluorescent protein signal constitutively in the ovaries and in the liver in response to estrogens. The sensitivity of this line to disruption of sex determination following 16-d chronic exposures was in the nanograms per liter range. To identify the developmental period sensitive to exogenous agents, fry were exposed to 24-h pulses of high concentrations of 17β-estradiol (E2) or 5α-dihydrotestosterone (DHT) at various time points between days postfertilization (dpf) 0 and 12. Evaluation of phenotype followed by genotyping at 16 dpf revealed sensitivity to E2 between 1 and 8 dpf as well as 2 periods of susceptibility to DHT between 0 and 1 dpf and 4 and 8 dpf. No phenotypic sex reversal was detected after exposure to DHT or E2 on 11 or 12 dpf. The observed effects persisted to at least 24 dpf. The identified sensitive embryonic time periods for disruption of sex determination will aid future research on sex determination and the development of screening assays using early embryonic life stages. Environ Toxicol Chem 2020;39:842-851. © 2020 SETAC., (© 2020 SETAC.)

Published

2020

18. Corrigendum to "European demonstration program on the effect-based and chemical identification and monitoring of organic pollutants in European surface waters" [Sci. Total Environ. 601-602 (2017) 1849-1868].

Author

Tousova Z, Oswald P, Slobodnik J, Blaha L, Muz M, Hu M, Brack W, Krauss M, Di Paolo C, Tarcai Z, Seiler TB, Hollert H, Koprivica S, Ahel M, Schollée JE, Hollender J, Suter MJ, Hidasi AO, Schirmer K, Sonavane M, Ait-Aissa S, Creusot N, Brion F, Froment J, Almeida AC, Thomas K, Tollefsen KE, Tufi S, Ouyang X, Leonards P, Lamoree M, Torrens VO, Kolkman A, Schriks M, Spirhanzlova P, Tindall A, and Schulze T

Published

2018

19. Novel procedures for whole organism detection and quantification of fluorescence as a measurement for oxidative stress in zebrafish (Danio rerio) larvae.

Author

Lackmann C, Santos MM, Rainieri S, Barranco A, Hollert H, Spirhanzlova P, Velki M, and Seiler TB

Subjects

Animals, Antioxidants metabolism, Fluorescence, Fluorescent Dyes analysis, Fluorescent Dyes chemistry, Glutathione metabolism, Reactive Oxygen Species metabolism, Water Pollutants, Chemical toxicity, tert-Butylhydroperoxide toxicity, Antioxidants analysis, Glutathione analysis, Larva metabolism, Oxidative Stress physiology, Reactive Oxygen Species analysis, Zebrafish metabolism

Abstract

The modes of action of pollutants are diverse, and a common consequences to pollutant exposure is oxidative stress. This phenomenon is caused by an imbalance or disurption in the control of Reactive Oxygen Species (ROS) resulting in an accumulation of free radicals. Oxidative stress may cause damages to the DNA, phospholipids and proteins, and lead to cell death. Due to the possible contribution of oxidative stress to pollutant toxicity, it is valuable to assess its occurrence, role and mechanism. Detection of oxidative stress at low concentrations soon after the onset of exposure can be a sensitive, general marker for contamination. This study aimed at developing and benchmarking a set of novel fluorescence-based procedures to assess the occurrence of oxidative stress in zebrafish larvae (96 hpf) by measuring the antioxidant glutathione (GSH) and general ROS. Zebrafish larvae were exposed to tert-butyl hydroperoxide (t-BHP). ROS and GSH were made visible by means of specific fluorescent molecular probes in different experimental scenarios. The induction was qualified using microscopy and quantified through photometric measurement. For quantitative assessment, an approach based on homogenized larvae and a non-invasive plate assay were developed. The novel procedures proved suitable for oxidative stress detection. Comparisons of qualitative to quantitative data showed that the orientation of the larvae in the well can influence fluorescence data evaluation. The non-invasive quantitative assay proved robust against any influence of the orientation of the larvae. The developed protocols promise to be useful tools for the detection of oxidative stress in zebrafish larvae., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

20. Reference gene identification and validation for quantitative real-time PCR studies in developing Xenopus laevis.

Author

Mughal BB, Leemans M, Spirhanzlova P, Demeneix B, and Fini JB

Subjects

Animals, Brain metabolism, Databases, Genetic, Embryo, Nonmammalian metabolism, Embryonic Development genetics, Female, Life Cycle Stages genetics, Male, Metamorphosis, Biological genetics, Ovum metabolism, RNA chemistry, RNA isolation & purification, RNA metabolism, Reference Standards, Signal Transduction genetics, Thyroid Gland metabolism, Transcriptome, Real-Time Polymerase Chain Reaction standards, Xenopus Proteins genetics, Xenopus laevis genetics

Abstract

Reference genes are essential for gene expression analysis when using real-time quantitative PCR (RT-qPCR). Xenopus laevis is a popular amphibian model for studying vertebrate embryogenesis and development. Further, X. laevis is ideal for studying thyroid signaling due to its thyroid dependent metamorphosis, a stage comparable to birth in humans. When using PCR based studies, a primary concern is the choice of reference genes. Commonly used references are eef1a1, odc1, rpl8, and actnB, although there is a lack of ad hoc reference genes for X. laevis. Here, we used previously published RNA-seq data on different X. laevis stages and identified the top 14 candidate genes with respect to their expression levels as a function of developmental stage and degree of variation. We further evaluated the stability of these and other candidate genes using RT-qPCR on various stages including the unfertilised eggs, whole embryos during early development and brains during late development. We used four different statistical software packages: deltaCT, geNorm, NormFinder and BestKeeper. We report optimized reference gene pair combinations for studying development (early whole embryos), brains at later stages (metamorphosis and adult), and  thyroid signalling. These reference gene pairs are suitable for studying different aspects of X. laevis development and organogenesis.

Published

2018

21. European demonstration program on the effect-based and chemical identification and monitoring of organic pollutants in European surface waters.

Author

Tousova Z, Oswald P, Slobodnik J, Blaha L, Muz M, Hu M, Brack W, Krauss M, Di Paolo C, Tarcai Z, Seiler TB, Hollert H, Koprivica S, Ahel M, Schollée JE, Hollender J, Suter MJ, Hidasi AO, Schirmer K, Sonavane M, Ait-Aissa S, Creusot N, Brion F, Froment J, Almeida AC, Thomas K, Tollefsen KE, Tufi S, Ouyang X, Leonards P, Lamoree M, Torrens VO, Kolkman A, Schriks M, Spirhanzlova P, Tindall A, and Schulze T

Abstract

Growing concern about the adverse environmental and human health effects of a wide range of micropollutants requires the development of novel tools and approaches to enable holistic monitoring of their occurrence, fate and effects in the aquatic environment. A European-wide demonstration program (EDP) for effect-based monitoring of micropollutants in surface waters was carried out within the Marie Curie Initial Training Network EDA-EMERGE. The main objectives of the EDP were to apply a simplified protocol for effect-directed analysis, to link biological effects to target compounds and to estimate their risk to aquatic biota. Onsite large volume solid phase extraction of 50 L of surface water was performed at 18 sampling sites in four European river basins. Extracts were subjected to effect-based analysis (toxicity to algae, fish embryo toxicity, neurotoxicity, (anti-)estrogenicity, (anti-)androgenicity, glucocorticoid activity and thyroid activity), to target analysis (151 organic micropollutants) and to nontarget screening. The most pronounced effects were estrogenicity, toxicity to algae and fish embryo toxicity. In most bioassays, major portions of the observed effects could not be explained by target compounds, especially in case of androgenicity, glucocorticoid activity and fish embryo toxicity. Estrone and nonylphenoxyacetic acid were identified as the strongest contributors to estrogenicity, while herbicides, with a minor contribution from other micropollutants, were linked to the observed toxicity to algae. Fipronil and nonylphenol were partially responsible for the fish embryo toxicity. Within the EDP, 21 target compounds were prioritized on the basis of their frequency and extent of exceedance of predicted no effect concentrations. The EDP priority list included 6 compounds, which are already addressed by European legislation, and 15 micropollutants that may be important for future monitoring of surface waters. The study presents a novel simplified protocol for effect-based monitoring and draws a comprehensive picture of the surface water status across Europe., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

22. Using short-term bioassays to evaluate the endocrine disrupting capacity of the pesticides linuron and fenoxycarb.

Author

Spirhanzlova P, De Groef B, Nicholson FE, Grommen SVH, Marras G, Sébillot A, Demeneix BA, Pallud-Mothré S, Lemkine GF, Tindall AJ, and Du Pasquier D

Subjects

Animals, Animals, Genetically Modified, Biological Assay, Dose-Response Relationship, Drug, Larva drug effects, Molecular Structure, Oryzias, Phenylcarbamates chemistry, Thyroid Gland drug effects, Xenopus laevis, Endocrine Disruptors pharmacology, Linuron pharmacology, Pesticides pharmacology, Phenylcarbamates pharmacology

Abstract

Several short-term whole-organism bioassays based on transgenic aquatic models are now under validation by the OECD (Organization for Economic Co-operation and Development) to become standardized test guidelines for the evaluation of the endocrine activity of substances. Evaluation of the endocrine disrupting capacity of pesticides will be a domain of applicability of these future reference tests. The herbicide linuron and the insecticide fenoxycarb are two chemicals commonly used in agricultural practices. While numerous studies indicate that linuron is likely to be an endocrine disruptor, there is little information available on the effect of fenoxycarb on vertebrate endocrine systems. Using whole-organism bioassays based on transgenic Xenopus laevis tadpoles and medaka fry we assessed the potential of fenoxycarb and linuron to disrupt thyroid, androgen and estrogen signaling. In addition we used in silico approach to simulate the affinity of these two pesticides to human hormone receptors. Linuron elicited thyroid hormone-like activity in tadpoles at all concentrations tested and, showed an anti-estrogenic activity in medaka at concentrations 2.5mg/L and higher. Our experiments suggest that, in addition to its previously established anti-androgenic action, linuron exhibits thyroid hormone-like responses, as well as acting at the estrogen receptor level to inhibit estrogen signaling. Fenoxycarb on the other hand, did not cause any changes in thyroid, androgen or estrogen signaling at the concentrations tested., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

23. Human amniotic fluid contaminants alter thyroid hormone signalling and early brain development in Xenopus embryos.

Author

Fini JB, Mughal BB, Le Mével S, Leemans M, Lettmann M, Spirhanzlova P, Affaticati P, Jenett A, and Demeneix BA

Subjects

Animals, Animals, Genetically Modified, Brain embryology, Brain metabolism, Cell Differentiation drug effects, Cell Differentiation genetics, Embryo, Nonmammalian embryology, Embryo, Nonmammalian metabolism, Female, Gene Expression Regulation, Developmental drug effects, Humans, Larva drug effects, Larva genetics, Larva growth & development, Neurons cytology, Neurons drug effects, Neurons metabolism, Signal Transduction drug effects, Xenopus laevis, Amniotic Fluid chemistry, Brain drug effects, Embryo, Nonmammalian drug effects, Endocrine Disruptors pharmacology, Thyroid Hormones metabolism

Abstract

Thyroid hormones are essential for normal brain development in vertebrates. In humans, abnormal maternal thyroid hormone levels during early pregnancy are associated with decreased offspring IQ and modified brain structure. As numerous environmental chemicals disrupt thyroid hormone signalling, we questioned whether exposure to ubiquitous chemicals affects thyroid hormone responses during early neurogenesis. We established a mixture of 15 common chemicals at concentrations reported in human amniotic fluid. An in vivo larval reporter (GFP) assay served to determine integrated thyroid hormone transcriptional responses. Dose-dependent effects of short-term (72 h) exposure to single chemicals and the mixture were found. qPCR on dissected brains showed significant changes in thyroid hormone-related genes including receptors, deiodinases and neural differentiation markers. Further, exposure to mixture also modified neural proliferation as well as neuron and oligodendrocyte size. Finally, exposed tadpoles showed behavioural responses with dose-dependent reductions in mobility. In conclusion, exposure to a mixture of ubiquitous chemicals at concentrations found in human amniotic fluid affect thyroid hormone-dependent transcription, gene expression, brain development and behaviour in early embryogenesis. As thyroid hormone signalling is strongly conserved across vertebrates the results suggest that ubiquitous chemical mixtures could be exerting adverse effects on foetal human brain development.

Published

2017

24. Oestrogen reporter transgenic medaka for non-invasive evaluation of aromatase activity.

Author

Spirhanzlova P, Leleu M, Sébillot A, Lemkine GF, Iguchi T, Demeneix BA, and Tindall AJ

Subjects

Animals, Animals, Genetically Modified, Dose-Response Relationship, Drug, Drug Evaluation, Preclinical methods, Enzyme Activation drug effects, Enzyme Activation physiology, Oryzias genetics, Water Pollutants, Chemical pharmacology, Aromatase metabolism, Estrogens pharmacology

Abstract

Vertebrate reproduction involves complex steroid hormone interplay and inter-conversion. A critical element in maintaining sex steroid levels is the enzyme aromatase (cytochrome P450 19A1) which converts androgens to oestrogens. In turn oestrogen signalling is targeted by numerous chemicals, from pharmaceuticals to agricultural chemicals, both frequent sources of contamination in waste waters and consequently rivers. Although many models are now available to address disruption of oestrogen signalling, there are currently no published protocols allowing discrimination between alterations in testosterone metabolism and in oestrogenic signalling. It was with this limitation in mind that we optimised this protocol. We show using a 48h protocol that pre-feeding fry of the choriogenin h-gfp (chgh-gfp) medaka line are sensitive to 0.05nM EE2 (15ng/L), within the range of the lowest published observable physiological effect concentrations for medaka. In addition, co-treatment with testosterone can reveal potential effects of test substances on aromatase enzymatic activity. As the measurements are visualised in real-time without affecting embryo viability, repeated measures are possible. We demonstrate the ability of this model to detect oestrogen receptor agonists, aromatisable androgens, P450 aromatase activity modulators and selective oestrogen response modulators. Importantly, the range of this assay is physiologically relevant., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2016