Effects of Perfluoroalkyl Acids on In Ovo Toxicity and Gene Expression in the Domestic Chicken (Gallus gallus domesticus)

Cassone, Cristina

21 August 2012

Perfluoroalkyl acids (PFAAs) are a family of synthetic substances used in a wide variety of consumer and industrial applications, including non-stick and stain-resistant products. PFAAs, specifically perfluorinated sulfonates and carboxylates, are chemically stable and virtually non-biodegradable in the environment. In recent years, PFAAs have been detected in tissues and blood of humans and wildlife. Furthermore, PFAAs have a tendency to bioaccumulate and biomagnify in biota. Perfluorooctane sulfonate and perfluorooctanoate are known to be toxic when animals are exposed to environmentally-relevant levels, but scientists and regulators are challenged with determining and predicting their modes of action. There is some evidence to suggest that PFAAs can impact the thyroid hormone (TH) pathway and neurodevelopment. The studies presented in this thesis investigated the developmental effects and potential modes of action of newer PFAAs that are being introduced into the global market place. Egg injection experiments were performed in domestic chicken (Gallus gallus domesticus) embryos to assess the in ovo toxicity of perfluorohexane sulfonate (PFHxS) and perfluorohexanoate (PFHxA) during development. Real-time RT-PCR was used to measure the transcription of candidate genes in the liver and cerebral hemisphere of day 21-22 embryos. Candidate genes were selected based on their responsiveness to PFAA exposure in an in vitro screening assay conducted previously. In ovo exposure to PFHxS decreased embryo pipping success and overall growth at 38,000 ng/g; several orders of magnitude higher than concentrations reported in wild bird eggs. The expression of TH-responsive genes, including type II and III 5'-deiodinase, neurogranin, and octamer motif binding factor 1, were induced. In addition, PFHxS diminished free thyroxine (T4) levels in plasma. PFHxA had no affect on pipping success, gene expression or T4 levels in chicken embryos at the doses assessed. The transcriptional profiles in the cerebral hemisphere of chicken embryos exposed to 890 and 38,000 ng/g PFHxS were compared to a solvent control using microarray technology. The expression of 78 different genes were significantly altered (fold change > 1.5, p < 0.001) by PFHxS. Functional analysis showed that PFHxS affected genes involved in tissue development and morphology and cellular assembly and organization. Pathway and interactome analysis suggested that gene expression may be affected through integrin receptors and signaling pathways via TH–dependent and –independent modes of action. It is expected that the findings presented in this thesis will be of general relevance and importance to regulatory agencies and of interest to research scientists and risk assessors.

perfluoroalkyl acids

thyroid hormone

embryotoxicity

avian

gene expression

brain

Effects of Perfluoroalkyl Acids on In Ovo Toxicity and Gene Expression in the Domestic Chicken (Gallus gallus domesticus)

Cassone, Cristina

21 August 2012

Perfluoroalkyl acids (PFAAs) are a family of synthetic substances used in a wide variety of consumer and industrial applications, including non-stick and stain-resistant products. PFAAs, specifically perfluorinated sulfonates and carboxylates, are chemically stable and virtually non-biodegradable in the environment. In recent years, PFAAs have been detected in tissues and blood of humans and wildlife. Furthermore, PFAAs have a tendency to bioaccumulate and biomagnify in biota. Perfluorooctane sulfonate and perfluorooctanoate are known to be toxic when animals are exposed to environmentally-relevant levels, but scientists and regulators are challenged with determining and predicting their modes of action. There is some evidence to suggest that PFAAs can impact the thyroid hormone (TH) pathway and neurodevelopment. The studies presented in this thesis investigated the developmental effects and potential modes of action of newer PFAAs that are being introduced into the global market place. Egg injection experiments were performed in domestic chicken (Gallus gallus domesticus) embryos to assess the in ovo toxicity of perfluorohexane sulfonate (PFHxS) and perfluorohexanoate (PFHxA) during development. Real-time RT-PCR was used to measure the transcription of candidate genes in the liver and cerebral hemisphere of day 21-22 embryos. Candidate genes were selected based on their responsiveness to PFAA exposure in an in vitro screening assay conducted previously. In ovo exposure to PFHxS decreased embryo pipping success and overall growth at 38,000 ng/g; several orders of magnitude higher than concentrations reported in wild bird eggs. The expression of TH-responsive genes, including type II and III 5'-deiodinase, neurogranin, and octamer motif binding factor 1, were induced. In addition, PFHxS diminished free thyroxine (T4) levels in plasma. PFHxA had no affect on pipping success, gene expression or T4 levels in chicken embryos at the doses assessed. The transcriptional profiles in the cerebral hemisphere of chicken embryos exposed to 890 and 38,000 ng/g PFHxS were compared to a solvent control using microarray technology. The expression of 78 different genes were significantly altered (fold change > 1.5, p < 0.001) by PFHxS. Functional analysis showed that PFHxS affected genes involved in tissue development and morphology and cellular assembly and organization. Pathway and interactome analysis suggested that gene expression may be affected through integrin receptors and signaling pathways via TH–dependent and –independent modes of action. It is expected that the findings presented in this thesis will be of general relevance and importance to regulatory agencies and of interest to research scientists and risk assessors.

perfluoroalkyl acids

thyroid hormone

embryotoxicity

avian

gene expression

brain

Embryotoxicity of dioxin-like chemicals extracted from American eels (Anguilla rostrata) from the St. Lawrence River System

Kennedy, Sharilyn

01 September 2010

The American eel (Anguilla rostrata) has suffered a serious population decline in Lake Ontario since the early 1980s due to a decline in recruitment of juveniles migrating from the Sargasso Sea. This has resulted in the closure of the Lake Ontario fishery in 2004 and its listing as endangered under the Ontario Species at Risk act in June of 2008 in Ontario. Due to their complex life cycle, little is known about eels once they leave their freshwater habitats and migrate to the Sargasso Sea to reproduce. Ocean conditions, habitat destruction, disease, reduced lipid content, over-fishing, physical barriers (hydroelectric dams), and chemical contamination are all possible reasons for recruitment decline and may be acting cumulatively. Maternally derived dioxin-like contaminants (DLCs) accumulated during the growth phase of eels in Lake Ontario are toxic to fish embryos, and embryotoxicity is expressed as a series of malformations known as blue sac disease (BSD). I assessed whether these toxicants are in high enough concentrations in sexually maturing, eels to be embryotoxic to their offspring, as assessed by using Japanese medaka (Oryzias latipes), a surrogate species. Medaka embryos were first injected with 2,3,7,8-tetracholordibenzo-p-dioxin (TCDD) to establish their sensitivity to this test chemical expressed as an 11-day EC50 of 3.79 pg/mg, for the induction of BSD. Medaka embryos were injected with eel extracts and their response compared to the TCDD toxicity curve to assess whether extracts caused developmental problems and to estimate the relative concentration of DLCs. Eel extracts from all collection sites caused no dioxin-like toxicity to Japanese medaka embryos. However, significantly higher toxicity at 10 eeq relative to triolein was found for all extracts with no differences among sites, suggesting the presence of non-dioxin-like toxicants. The low level of maternal tissue contamination by DLCs implied by this bioassay is mirrored in chemical monitoring of persistent organic pollutants in Lake Ontario fish. If correct, the low levels of toxicity of extracts to embryos could contribute to the observed increase of eels entering L. Ontario from 2003 to 2008. / Thesis (Master, Biology) -- Queen's University, 2010-09-01 09:31:19.466

embryotoxicity

dioxin-like contaminants

American eel

Japanese medaka

Vliv nových psychofarmak na vyvíjející se zárodek / New psychotropic drugs and their effect on developing embryo

Košťalová, Jana

January 2010

In my diploma thesis, I researched the effect of mirtazapine on a developing embryo. Nowadays, new drugs are being developed and used for the treatment of depression. These drugs also include mirtazapine. The risk of using mirtazapine during pregnancy has not been documented yet and therefore it can not be used by pregnant women. These drugs are often very effective and well tolerated so it is very important to recognize the effect on a developing embryo. In our research, we used the method of CHEST (chick embryotoxicity screening test). We applied a dose of mirtazapine solution dissolved in DMSO to 4-day old chickens. The doses were 0.2µg, 0.15µg, 0.1µg, 0.05µg, 0.03µg in 3µl of the solution. As controls, we applied 3µl DMSO and 3µl destilled water. Embryos were being incubated for 5 days in an incubator and on the 9th day, we evaluated dead and malformed embryos and the spectrum of defects. From our observations, we have obtained the lethal dose, which was above 0.15µg and the dose that was equivalent to the LD50 - 0.05µg. Lower doses were safe, although these embryos were malformed. These malformations, however, were not statistically significantly different from the malformations occurring in controls. It is neccessary to continue and complete data for 2 -and 3-day old embryos, so that we cover all...

Effects of Perfluoroalkyl Acids on In Ovo Toxicity and Gene Expression in the Domestic Chicken (Gallus gallus domesticus)

Cassone, Cristina

January 2012

Perfluoroalkyl acids (PFAAs) are a family of synthetic substances used in a wide variety of consumer and industrial applications, including non-stick and stain-resistant products. PFAAs, specifically perfluorinated sulfonates and carboxylates, are chemically stable and virtually non-biodegradable in the environment. In recent years, PFAAs have been detected in tissues and blood of humans and wildlife. Furthermore, PFAAs have a tendency to bioaccumulate and biomagnify in biota. Perfluorooctane sulfonate and perfluorooctanoate are known to be toxic when animals are exposed to environmentally-relevant levels, but scientists and regulators are challenged with determining and predicting their modes of action. There is some evidence to suggest that PFAAs can impact the thyroid hormone (TH) pathway and neurodevelopment. The studies presented in this thesis investigated the developmental effects and potential modes of action of newer PFAAs that are being introduced into the global market place. Egg injection experiments were performed in domestic chicken (Gallus gallus domesticus) embryos to assess the in ovo toxicity of perfluorohexane sulfonate (PFHxS) and perfluorohexanoate (PFHxA) during development. Real-time RT-PCR was used to measure the transcription of candidate genes in the liver and cerebral hemisphere of day 21-22 embryos. Candidate genes were selected based on their responsiveness to PFAA exposure in an in vitro screening assay conducted previously. In ovo exposure to PFHxS decreased embryo pipping success and overall growth at 38,000 ng/g; several orders of magnitude higher than concentrations reported in wild bird eggs. The expression of TH-responsive genes, including type II and III 5'-deiodinase, neurogranin, and octamer motif binding factor 1, were induced. In addition, PFHxS diminished free thyroxine (T4) levels in plasma. PFHxA had no affect on pipping success, gene expression or T4 levels in chicken embryos at the doses assessed. The transcriptional profiles in the cerebral hemisphere of chicken embryos exposed to 890 and 38,000 ng/g PFHxS were compared to a solvent control using microarray technology. The expression of 78 different genes were significantly altered (fold change > 1.5, p < 0.001) by PFHxS. Functional analysis showed that PFHxS affected genes involved in tissue development and morphology and cellular assembly and organization. Pathway and interactome analysis suggested that gene expression may be affected through integrin receptors and signaling pathways via TH–dependent and –independent modes of action. It is expected that the findings presented in this thesis will be of general relevance and importance to regulatory agencies and of interest to research scientists and risk assessors.

perfluoroalkyl acids

thyroid hormone

embryotoxicity

avian

gene expression

brain

Porovnání embryotoxického účinku inzulinu a glukozy metodou CHEST. / The comparation of embryotoxical effect of insulin and glucose by the method CHEST.

Turková, Aneta

January 2011

If gravid women suffer from diabetes,their unborn children have 10x higher risk of development of malformation,prenatal and postnatal death and post partum complications than children of women belonging to healthy population.The main and very controversial potential teratogenic factors are glucose and insulin.However,there are very ambivalent opinions on which one of these two substances causes damage to embryo. Therefore,the aim of this diploma thesis was to contribute to solving of this problem and test direct embryotoxicity of insulin and glucose. For solving of this issue, the so-called CHEST.The principle of this method is creation of a window in eggshell and consequent subgerminal or intraamnial application of the substance being tested.Embryos were tested from the second until the sixth incubation day.Firstly, two types of insulin were injected.Injected doses varied between 3µg/3µl to 0,003µg/3µl. Then glucose was tested,with dosage of 300µg/3µl and 30µg/3µl. Embryotoxic effect was detected for both types of insulin. The beginning of embryotoxicity line of insulin's lies between the dosage of 0,03µg/3µl and 0,003µg/3µl. From embryotoxic effect, death of embryos predominated over development of congenital malformations. Only after application on the second incubation day, there was increased...

Testování embryotoxicity vybraných lidských teratogenů na zárodcích kuřete. / Testing of embryotoxicity of selected human teratogenes on chicken embryos.

Pavlíková, Zuzana

January 2012

Teratogenes are external environmental factors that can cause a developmental or a congenital defect in exposed individuals. The methods used for detecting the embryotoxic effect of substances are the classic when laboratory mammals are used and the alternative which use in vitro and in ovo systems. The main difference between these two is that the alternative methods lack metabolism of maternal organism. The metabolism of maternal organism brings a high variability of results to systems of the classic methods. We used two alternative methods in this thesis, both using chicken embryo. The first of them was in ovo method called CHEST (Jelínek, 1977). CHEST method can be used for administration of tested substances from ED2 to ED6. The disadvantage of this method is due to the dilution of the tested substance after subgerminal application at ED2. Therefore we developed in vitro method called SANDWICH. No dilution occurs while using the SANDWICH method. The aim of this study was to develop in vitro method SANDWICH while using proven teratogene (all-trans retinoic acid) and its solvent (dimethyl sulfoxide), to estimate beginning of the embryotoxicity dose range for both substances using CHEST and SANDWICH, and finally to compare obtained results. We confirmed the embryotoxic effect of all-trans...

Untersuchungen zur Embryotoxizität von Ozon nach einer in ovo-Begasung beim Huhn

Thiele, Margrit

21 November 2011

Die derzeit angewendete Formalinbegasung von Bruteiern zur Keimreduktion stellt ein wichtiges Mittel zum Schutz des Verbrauchers vor dem Eintrag der Salmonellose aus der Geflügelindustrie in die Lebensmittelkette dar. Jedoch verlangt sein kanzerogenes Potenzial die Suche nach einer ebenso effektiven und einfach zu praktizierenden, aber weniger gesundheitlich bedenklichen alternativen Methode. In dieser Arbeit wurde die Eignung einer in ovo-Ozonbegasung zur Bruteidesinfektion hinsichtlich ihrer Auswirkung auf die Embryonalentwicklung untersucht. Dafür wurden befruchtete Eier vor ihrem Einsatz in den Brüter mit unterschiedlichen Ozonkonzentrationen zwischen 0,5% bis >5,0% (wt/ wt O3 in O2) bei einer relativen Luftfeuchte von 70% in einer Laborkammer begast. Die verwendeten Ozonkonzentrationen wurden dabei in drei Konzentrationsgruppen eingeteilt: hoch (2,8% bis 5,0%), mittel (1,1% bis 2,5%) und niedrig (0,5% bis 1,0%). Nach Erreichen der Zielkonzentration blieben die Eier für eine definierte Einwirkzeit (EWZ) zwischen 0 bis 24 h in der Kammer. Am Bruttag (BT) 18, 19 oder 20 wurden die Überlebensrate (ÜLR), Gewicht und Länge erhoben sowie histologische Untersuchungen der Organe Herz, Leber, Milz und Niere vorgenommen. Bei vier Versuchen erfolgte zusätzlich die Untersuchung am BT 6 und BT 12. Insgesamt wurden 13 Versuchsreihen mit Begasungen in der Laborkammer in den drei genannten Konzentrationsgruppen durchgeführt. Des Weiteren sollte die Übertragbarkeit der ermittelten Ergebnisse auf eine großtechnische Lösung, durch die Anwendung in einer projektintern entwickelten Prototyp-Kammer überprüft werden. Die Konzipierung dieses Prototyps folgte den technischen Gegebenheiten unter Einbeziehung der ermittelten Ergebnisse zur Embryotoxizität, zur Effektivität der Keimreduktion sowie der Veränderung der Eiinhaltsstoffe. Im Prototyp wurde daher die Begasungskonzentration von 0,7% Ozon bei einer EWZ von 2 h angewendet und in 2 Versuchsreihen hinsichtlich ihrer Auswirkungen auf die Lebensfähigkeit und die morphologische Entwicklung getestet. Um zusätzlich eine Aussage treffen zu können, welche Wirkung eine hohe Ozonkonzentration bei der Applikation während der Bebrütung zur Folge hat, wurde in zwei weiteren Versuchsreihen jeweils am BT 3, 4 und 5 eine Ozondosis von 5,0% in Kombination mit 1 h EWZ appliziert. Nach der Entnahme der Embryonen am BT 6 bzw. BT 8 erfolgte die morphologische Untersuchung. Aus der vorliegenden Arbeit wird zusammenfassend geschlussfolgert:  Ozon besitzt einen dosisabhängigen Effekt auf die ÜLR: je höher die Dosis, desto geringer die Überlebensrate. Bei niedrigen Ozonkonzentrationen zwischen 0,5% und 1,0% kommt es zu ÜLR von 90% und 100%.  Die Einwirkzeit stellt einen wichtigen Einflussfaktor auf die Überlebensrate dar. Eine Kombination einer hohen Ozondosis mit langer EWZ hat eine höhere Embryomortalität zur Folge, als eine hohe Ozondosis ohne EWZ. Eine erhöhte Mortalitätsrate zeigt sich auch bei der Kombination einer mittleren Ozondosis mit einer langen EWZ. Keinen Einfluss zeigt sie bei der Kombination mit einer niedrigen Ozonkonzentration.  Ozonierte Embryonen zeigen dosisabhängig eine geringere Längen- oder Gewichtsentwicklung im Vergleich zur Kontrollgruppe. Signifikante Gewichts- und Längenunterschiede lagen nur vereinzelt bei der Begasung mit hoher Ozonkonzentration vor.  Pathohistologische Befunde an Organen, die mit einer Ozonbegasung in Zusammenhang gebracht werden können, konnten nicht erhoben werden.  Die Versuche zur Begasung während der Organogenese wiesen nicht auf ein teratogenes Potenzial von Ozon hin. Korrespondierend mit den Ergebnissen der Begasung am BT 0 zeigte sich ebenfalls eine deutliche Embryotoxizität.  Die Wirkung von Ozon folgt einem Alles-oder-Nichts-Prinzip: entweder die Schädigung ist so stark, dass es zu keiner Entwicklung mehr kommt, oder aber der überlebende Embryo bzw. Fetus zeigt ein phänotypisch normales Aussehen.  Mit den vorgestellten Untersuchungen konnte bewiesen werden, dass bei einer in ovo-Begasung von befruchteten Hühnereiern am Bruttag 0 mit einer niedrigen Ozonkonzentration von 0,5% bis 1,0% in Kombination mit einer mittleren und geringen EWZ keine teratogenen oder embryotoxischen Veränderungen zu erwarten sind.  Aus diesen Befunden ergibt sich ein unbedenklicher Einsatze von Ozon als alternative Methode zur Bruteidesinfektion. Die Voraussetzung dafür ist, dass die großtechnische Lösung die Anwendung von 1,0% Ozonkonzentration in Kombination mit 2 h EWZ ermöglicht, um eine sehr gute ÜLR, Entwicklung und eine 100%ige Inaktivierung des in Legehennenbeständen vorherrschenden Serovars Salmonella Enteritidis zu gewährleisten.

Ozon

Begasung

Embryotoxizität

Teratogenität

Hühnerembryonen

Brutteier

Ozone

fumigation

embryotoxicity

teratogenicity

chick embryos

hatching eggs

ddc:636.089

Maternal Transfer of Dietary Methylmercury and Implications for Embryotoxicity in Fathead Minnows (Pimephales promelas)

Bridges, Kristin N.

12 1900

Mercury (Hg) is a ubiquitous environmental contaminant, which is capable of global atmospheric transport. As a result, even the most pristine aquatic ecosystems are affected by atmospheric Hg deposition, following which microbial transformation yield organic Hg forms, the most concerning of which is methylmercury (MeHg). Methylmercury is capable of bioaccumulation and biomagnification in food webs, resulting in potentially toxic body burdens due to regular dietary exposure in long-lived organisms at higher trophic levels. It is also a molecular mimic of some endogenous amino acids, providing a route of transfer from mother to offspring via large amino acid transporters. Exposure during neurodevelopment can lead to serious, irreversible neurological dysfunction, associated with a variety of cognitive and motor abnormalities across species. The present studies evaluate the effects of maternally-transferred dietary MeHg, at environmentally relevant concentrations on early life stage fathead minnows (Pimephales promelas). Embryos were collected from adult fatheads exposed to one of three diets with varying concentrations of MeHg for 30 days. Adult reproductive metrics were also monitored over the course of the study, with results indicating no effects on spawning frequency, clutch size, or total egg output. In embryos, Hg concentration was a function of female diet and the duration (number of days) of female exposure. Offspring spawned in tanks administered the low Hg diet displayed altered embryonic movement patterns (hyperactivity), decreased time to hatch, decreased mean larval size, and alterations to several metabolite abundances when compared with controls. Significantly altered metabolites include those associated with cellular energetics, fatty acid metabolism, and polyamine synthesis, indicating current environmental exposure scenarios are sufficient to disrupt important cellular pathways. Dysregulation of the dopaminergic system of embryos is also characterized, and may be a possible mechanism by which hyperactive behaviors are observed in these embryos. Offspring from tanks administered the high Hg diet exhibited delayed hatching, increased mortality, and physiological abnormalities. Brain tissue of exposed adults from the low diet were dissected into regions, and also evaluated for alterations in dopamine cycling. Collectively, these results indicate current exposure scenarios in North American lakes and rivers are sufficient to cause reductions in fitness and survival of early life stage fish. The potential for community structure impacts exists, as sensitive individuals and species become disproportionately affected by chronic, low-level MeHg exposure.

methylmercury

embryotoxicity

neurodevelopment

metabolomics

Fishes -- Mercury content.

Maternal-fetal exchange.

Testovani embryotoxicity psychofarmak metodou CHEST / Embryotoxicity testing of psychopharmacs using the CHEST method

Pavlovič, Ondřej

January 2014

Psychotropic drugs are commonly used group of pharmaceuticals, their main effect is to alter psychic condition, including mental diseases treatment. Symptoms of mental illnesses are more and more common, theref orenumber of patients diagnosed with mental illnes, and thus using psychotropics, is growing stronger. But using psychotropics during gestation is not without risks for mother and embryo itself. However, thanks to the absence of controlled human studies, the knowledge of emrbyotoxic effects of pschotropics is limited to casuistics, reported side effects and animal experimental studies. Many of those studies suggests emrbyotoxic potential of psychotropic drugs, on the other hand, others claim their safety. The goal of this thesis is to test at least some of them, using CHEST method, that allows us to observe direct effect of unmetabolized substance on chick embryo. In this thesis we tested selected psychotropics, very common antidepressant fluoxetine (prozac) and antipsychotic drug olanzapine, for embryotoxicity, using in ovo method CHEST with chick embryos as model organism. By bypassing the maternal organism and his metabolism, this method allows to observe direct effect of unmetabolized substance on chick embryo. Results revealed embryotoxic effect of fluoxetin in dosage 10-2 and 10-3 on 3rd and...