Removal of endocrine disruptors by activated carbons and Hypersol-Macronet hypercrosslinked polymeric adsorbents

Karounou, Eleni

January 2004

The normal operation of the endocrine (hormonal) system can be disrupted by a number of man-made and naturally-occurring chemicals, thereby affecting those physiological processes that are under hormonal control. Such substances are called endocrine disrupting compounds (EDCs). The endocrine disruption issue has alarmed the environmental authorities since the substances involved can hinder hormonal processes causing far-reaching effects on reproduction and development in current and future human and wildlife generations. Effects on some species of fish triggered worldwide concern and initiated a research scheme which is being undertaken by various organisations e.g. United States Environmental Protection Agency (USEPA), United Kingdom Environment Agency (UKEA), Oslo and Paris Commission (OSPAR), Japan Environment Agency (JEA) and World Wildlife Fund (WWF) in order to assess the effects (present and potential), point of generation, levels of contamination and exposure limits. The findings showed that most of the oestrogens are produced by humans and animals and get discharged into river streams mainly through sewage effluents. Fish in particular have been found to be affected the most even when the oestrogenic levels in water are very low. The probability of future European legislation to eliminate hormonally active compounds from wastewaters suggests that new and alternative methods should be developed for their removal. In this work, the adsorption of 17ß-oestradiol (E2) and 17a-ethinyl oestradiol (EE2) onto several granular activated carbons and Hypersol-Macronet hypercrosslinked polymers was investigated by batch experiments after a low level detection system had been developed using Gas Chromatography Mass Spectrometry (GC/MS). Equilibrium experiments were carried out for all adsorbents to quantify the sorption capacity for E2 and EE2. For better assessment of the sorbents performance, their physical properties such as surface area, average pore diameter and micropore volume and chemical structure were characterised by N2 adsorption experiments, scanning electron microscopy (SEM), FTIR spectroscopy, elemental analysis, sodium capacity determination, pH titration, proton binding curves and zeta potential measurements. Adsorption isotherm data were fitted to the Langmuir and Freundlich equations. Activated carbons were found to be preferable to Hypersol-Macronet hypercrosslinked polymers for adsorption purposes. The adsorption of oestrogens appears to be controlled by hydrophobic interactions. Kinetic experiments were performed with different size ranges of adsorbents at different concentrations and the results were analysed by a particle diffusion model. It was found that concentration did not seem to influence the kinetics of the oestrogen sorption whereas the particle size of the adsorbents influenced the adsorption rate of both molecules. The particle diffusion model seemed to fit the data collected for the adsorption rate of 17B-oestradiool onto the adsorbents but gave a poor fit for most of the data collected for 17a-ethinyl oestradiol.

628.166

Mise au point d'une méthode de culture tissulaire pour l'évaluation de l'effet antiangiogène de quelques substances

Lejmi, Esma

January 2005

Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal.

Angiogenèse

Test sur aorte de rat

Anti-angiogenèse

2-méthoxy-oestradiol

Paclitaxel

Acide rétinoïque

Devenir de polluants émergents lors d'un traitement photochimique ou photocatylitique sous irradiation solaire

Maroga Mboula, Vanessa

13 November 2012

L'industrialisation et l'utilisation dans la vie courante d'un nombre croissant de produits chimiques et médicamenteux sont responsables de la dissémination dans l'environnement de substances variées nommées" polluants émergents ". Les traitements des eaux usées existants ne sont pas conçus pour éliminer cette catégorie de pollution et les polluants émergents sont alors rejetés dans le milieu récepteur. Une possible solution pour limiter le rejet de ces composés par les effluents de station d'épuration serait l'utilisation de procédés de traitement additionnels tels que les procédés d'oxydation avancés. C'est dans ce contexte qu'a démarré le projet Européen Clean Water en 2009 associant 7 entités dont le GEPEA-Ecole des Mines de Nantes. Le concept du projet est de développer des procédés photocatalytiques mettant en œuvre des nanomatériaux actifs sous la lumière solaire. Ces procédés visent à éliminer les polluants émergents tels que les perturbateurs endocriniens ou les produits pharmaceutiques. Dans ce programme, le laboratoire GEPEA est concerné par l'évaluation de l'efficacité des matériaux vis-à-vis de l'élimination des polluants émergents sous irradiations UV et visibles. Pour cela, une méthodologie expérimentale a été établie de façon à exprimer les performances des catalyseurs testés en termes de constantes cinétiques de dégradation, de taux de conversion et de minéralisation des molécules étudiées mais aussi en fonction de la formation de produits intermédiaires. Ces performances sont également évaluées en termes de biodégradabilité, d'effet de toxicité et de perturbation endocrinienne des produits intermédiaires. Dans un premier temps, la méthodologie expérimentale établie a été testée sur la dégradation de la tétracycline en utilisant un catalyseur de référence puis, elle a été appliquée sur la dégradation respective du bisphénol A et de la 17β-oestradiol en utilisant un catalyseur de référence et les catalyseurs élaborés dans le cadre du projet Clean Water. Les résultats sur la dégradation de la tétracycline ont montré que i) les intermédiaires réactionnels sont moins toxiques que la tétracycline, ii) la structure des intermédiaires réactionnelles est semblable à celle de la tétracycline ce qui explique la faible biodégradabilité de ces intermédiaires. Concernant la dégradation du bisphénol A et de la 17β-oestradiol, les résultats ont montré que i) les catalyseurs sont efficaces sous irradiation solaire simulée. Cependant, l'efficacité photocatalytique du catalyseur dépend du composé à dégrader, ii) la nature des intermédiaires réactionnels identifiés du bisphénol A dépend du catalyseur utilisé, iii) l'effet œstrogénique de la solution d'oestradiol persiste au cours du traitement photocatalytique.

[SPI:OTHER] Engineering Sciences/Other

Tétracycline

Bisphénol A

17β-oestradiol

Photocatalyse

Irradiation solaire

Intermédiaires réactionnels

Toxicité

Effet oestrogénique

Filtracijos efektyvumo ir progesterono, estradiolio, heparino poveikio bulių spermatozoidų kokybiniams rodikliams, įvertinimas / Efficacy of filtration method on sperm quality parameters and progesterone, oestradiol, heparin effect on post-thaw bovine spermatozoa

Lukoševičiūtė, Kristina

19 September 2005

It is the first time in Lithuania that practical application of semen filtration by Sephadex G-15 for the needs of artificial insemination industry was assessed. The efficacy of semen filtration was assessed applying a battery of sperm quality assays to study bovine spermatozoa quality before and after filtration, as well as after cryopreservation. The estimation of effect of different concentrations of progesterone, oestradiol, heparin separately or in combination, on different functional parameters of bull spermatozoa after thawing was performed. These are the first published studies applying integrated approach to study the effects of sperm challenge with several biologically active substances.

Veterinary Medicine

Progesterone

Spermatozoidai

Spermatozoa

Sperm filtration

Progesteronas

Oestradiol

Estradiolis

Heparin

Heparinas

Spermos filtracija

The Hormonal Regulation of Non-breeding Territorial Aggression in North American Red Squirrels (Tamiasciurus hudsonicus)

Bettio, Adam N.

03 December 2012

Classically, testosterone (T) was considered the principal regulator of aggression. However, recent studies in birds have found aggression and T uncoupled during the non-breeding season. Circulating testosterone comes with costs such as immunosuppression and energy expenditure. Instead, the pro-hormone, dehydroepiandrosterone (DHEA), is circulated and activated within the brain via conversion into oestradiol (E2), avoiding the costs associated with T. At present the site of DHEA synthesis is unknown. My thesis investigated the existence of an analogous pathway in non-breeding red squirrels (Tamiasciurus hudsonicus) with two studies: (a) a field study investigating the effects of E2 on aggression and (b) a laboratory study that attempted to determine the site of DHEA synthesis. I conclude that E2 regulates non-breeding aggression in red squirrels and that the adrenals are not the site of DHEA synthesis. My results suggest the existence of a mammalian analogue to the regulatory pathway found in birds.

Non-breeding aggression

Red squirrels

DHEA

Oestradiol

Adrenals

Gonads

ACTH

GnRH

0433

0329

0472

The Hormonal Regulation of Non-breeding Territorial Aggression in North American Red Squirrels (Tamiasciurus hudsonicus)

Bettio, Adam N.

03 December 2012

Classically, testosterone (T) was considered the principal regulator of aggression. However, recent studies in birds have found aggression and T uncoupled during the non-breeding season. Circulating testosterone comes with costs such as immunosuppression and energy expenditure. Instead, the pro-hormone, dehydroepiandrosterone (DHEA), is circulated and activated within the brain via conversion into oestradiol (E2), avoiding the costs associated with T. At present the site of DHEA synthesis is unknown. My thesis investigated the existence of an analogous pathway in non-breeding red squirrels (Tamiasciurus hudsonicus) with two studies: (a) a field study investigating the effects of E2 on aggression and (b) a laboratory study that attempted to determine the site of DHEA synthesis. I conclude that E2 regulates non-breeding aggression in red squirrels and that the adrenals are not the site of DHEA synthesis. My results suggest the existence of a mammalian analogue to the regulatory pathway found in birds.

Non-breeding aggression

Red squirrels

DHEA

Oestradiol

Adrenals

Gonads

ACTH

GnRH

0433

0329

0472

Mise en place prénatale des cellules à kisspeptine du noyau arqué chez la souris : effet du sexe et de l'oestradiol / Prenatal development of arcuate nucleus kisspeptin cells in mice : sexual dimorphism and effects of estradiol

Alfaïa, Caroline

22 November 2017

Le kisspeptine est un peptide, encodé par le gène Kiss1, qui joue un rôle majeur dans le contrôle central de la fonction de reproduction en régulant la sécrétion du GnRH après la naissance. Les neurones exprimant Kiss1 apparaissent avant la naissance exclusivement dans le noyau arqué. Les objectifs de cette thèse étaient de décrire comment le système s‟organise avant la naissance en fonction du sexe à une période où il existe chez le mâle un pic prénatal de testostérone, puis de déterminer si cette organisation pouvait être influencée par les stéroïdes sexuels. Nos résultats ont permis 1) de caractériser précisément chez la souris la mise en place des cellules kisspeptine en fonction du sexe et d‟identifier un gradient de différenciation antéro-postérieur sexe-indépendant 2) de mettre en évidence une interaction réciproque avec les neurones à GnRH, chez les mâles et les femelles, suggérant ainsi une certaine maturité du système 3) de montrer la diversité des récepteurs aux stéroïdes sexuels déjà exprimés par ces cellules avant la naissance ainsi que l‟émergence d‟un dimorphisme sexuel 4) de démontrer la sensibilité et la réponse morphologique à l'oestradiol de ces cellules in vitro après la mise au point du premier modèle de culture primaire de cellules kisspeptine. / Kisspeptin neurons express the Kiss1 gene encoding kisspeptin, a potent neuropeptide secretagogue of gonadotropin releasing hormone (GnRH) that plays a fundamental role in regulation of reproductive life cycles after birth. Neurons expressing Kiss1 appear before birth only in the arcuate nucleus. The overall purpose of this study is to understand how kisspeptin neurons are set up during fetal development, if and how estrogen signaling in these cells could interfere with their development at a time of a prenatal testosterone peak in male. Our finding showed 1) precisely the placement of kisspeptin cells as a function of sex and to identify a sex-independent anteroposterior differentiation gradient 2) a reciprocal interaction with GnRH neurons, in males and females, thus suggesting a certain maturity of the system 3) the diversity of sexual steroids receptors already expressed by these cells before birth as well as the emergence of a sexual dimorphism 4) sensitivity and morphological response to estradiol of these cells in vitro after the development of the first primary culture model of kisspeptin cells.

Kisspeptine

Développement

Souris

Noyau arqué

Dimorphisme sexuel

Oestradiol

Kisspeptin

Development

Mouse

Arcuate nucleus

Sexual dimorphism

Estradiol

The roles of prostaglandin E2, prostaglandin F2α and aldo-keto reductase 1C isoenzymes in endometriosis and breast cancer

Zarroug, Osman Hamza

January 2017

Endometriosis and breast cancer are sex hormone dependent diseases characterised by the local production of high levels of 17β-oestradiol. The relationship between prostaglandins and sex steroid hormones is one of the focal questions in endometriosis, breast cancer and other sex steroid hormone related disorders. Therefore, the main hypothesis was that the aldo-keto reductase (AKR) 1C isoenzymes are responsible for controlling the availability of 17β-oestradiol, progesterone and prostaglandins in the microenvironment of the endometrium, and surrounding adipose tissues of endometriotic lesions and breast tumours. This was investigated using quantitative real-time polymerase chain reaction (PCR) for measuring the gene expression of AKR1C1-3 enzymes, and prostaglandin E (1-4) and F receptors in the endometrium, and surrounding adipose tissues of endometriotic lesions and breast tumours. This was then followed by investigating the role of one of the AKR1C enzymes - AKR1C3 - by inhibiting its catalysis using bimatoprost, followed by using PGE2 as one of the main candidates acting as a transcription factor for upregulating the expression of AKR1C3 which in turn upregulates the production of the local 17β-oestradiol. The gene expression of AKR1C1 was significantly higher in endometriotic lesions compared to eutopic endometrium of endometriosis patients. However, there was no significant difference in the gene expression of AKR1C (1-3) enzymes in the surrounding adipose tissues of endometriotic lesions between patients with or without endometriosis. Also, there was no significant difference in the gene expression of AKR1C (1-3) enzymes in the breast adipose tissues of patients with breast tumours, regardless of the oestrogen or progesterone receptor status. The gene expression of prostaglandin E (EP) receptor subtype 3 was significantly higher in the endometriotic lesions compared to eutopic endometrium of endometriosis patients. In the omental adipose tissue, there was no significant difference in the gene expression of EP1-4 and FP receptors between endometriosis and non-endometriosis patients. In the breast adipose tissue, there was also no significant difference in the gene expression of EP1-4 and FP receptors in patients with breast cancer regardless of the oestrogen or progesterone receptor status. The inhibitory constant (Ki) of bimatoprost was determined using oestrone as a substrate: Ki = 2.9µM and αKi = 0.7µM. Bimatoprost also significantly inhibited the production of 17β-oestradiol and inhibited the production of 9α,11β PGF2 in a dose dependent manner in the human endometrial cells. The effect of PGE2 on the expression of AKR1C1 and AKR1C3 was assessed in the human endometrial cells. The EP4 receptor agonist, L-902688, increased the gene expression of AKR1C1 and AKR1C3. Despite gene expression elevation, L-902688 did not increase the production of 17β-oestradiol. In conclusion, the results were contradictory and highlighted the need for further investigation into the relationship between prostaglandins and sex steroid hormones in the microenvironment of the endometrium, and surrounding adipose tissues of endometriotic lesions and breast tumours.

616.99

Efeito da administração de diferentes doses de estradiol seguido de progesterona sobre a expressão de receptores endometriais de estrógeno e progesterona em éguas receptoras acíclicas

Fritsch, Samuel

January 2016

Orientador: Cezinande de Meira / Resumo: Diferentes tratamentos hormonais com a utilização de estrógenos e progestágenos são comumente utilizados para aumentar a oferta de receptoras nos programas de TE. Porém, pouco se sabe sobre a ação destes hormônios na expressão gênica e proteica dos receptores endometriais de estrógeno e progesterona em éguas acíclicas. O presente estudo teve como objetivo avaliar os efeitos de três tratamentos hormonais utilizados durante a preparação de éguas acíclicas sobre o edema, tônus uterino e expressão gênica e proteica de receptores de estrógeno e progesterona endometriais. Éguas em anestro foram divididas em três grupos: Dose Total 10 mg BE+P4, (n=7), Dose Total 5 mg BE+P4 (n=7), Priming Hormonal (n=7) e comparadas com o grupo de éguas cíclicas (n=7). Foram avaliados: a expressão proteica e gênica relativa dos transcritos para os receptores de estrógeno e progesterona presentes no endométrio por meio das técnicas de imunohistoquímica e RT-qPCR; e as características morfológicas do útero por palpação retal e ultrassonografia em modo B. Os tratamentos hormonais utilizados no presente estudo foram eficazes em promover edema e tônus uterinos semelhante ao que ocorre em éguas cíclicas. Adicionalmente, o grupo Priming Hormonal demonstrou induzir características uterinas similares as observadas nos grupos 5 mg BE+P4 e no grupo controle, após 14 dias de intervalo. O tratamento hormonal com dose total de 10 mg de BE+P4 LA utilizando para o preparo de éguas acíclicas, demonstrou ser similar ... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Different hormonal treatments with the use of estrogen and progestogen are commonly used to increase the supply of receiving the TE programs. However, little is known about the effect of these hormones on gene and protein expression of endometrial receptors for estrogen and progesterone in non-cyclic mares. This study aimed to evaluate the effects of three hormonal treatments used for the preparation of non-cyclic mares on the edema and uterine tone and gene and protein expression of estrogen and endometrial progesterone receptors. Mares anestrus were divided into three groups: total dose 10 mg EB + P4 (n = 7) total dose 5 mg EB + P4 (n = 7) Hormonal Priming (n = 7) and compared with the group of cyclic mares (n = 7). Were evaluated: protein expression and gene transcripts related to the estrogen and progesterone receptors present in the endometrium by the techniques of immunohistochemistry and RT-qPCR; and the morphological characteristics of the uterus by rectal palpation and ultrasound in B mode. Hormonal treatments used in this study were effective in promoting edema and uterine tone similar to what occurs in cyclic mares. Additionally, the Hormonal Priming group demonstrated induce uterine similar characteristics observed in the groups 5 mg EB + P4 and control group, after 14 days apart. Hormonal treatment with a total dose of 10 mg EB + P4 LA using for the preparation of non-cyclic mares, was shown to be similar in tone and uterine edema, protein expression and relative... (Complete abstract click electronic access below) / Mestre

Equinos

Benzoato de estradiol

Progesterona.

Expressão de receptores

Equine

Oestradiol benzoate

Progesterone

Receptor expression

Mécanismes d'action de l'oestradiol dans la mise en place de la puberté et l'expression du comportement sexuel femelle / Mechanisms of estradiol underlying the establishment of puberty and the expression of female sexual behavior

Naule, Lydie

13 November 2014

La différenciation sexuelle du système nerveux central est régie par les hormones stéroïdes sexuelles. Chez la femelle, les ovaires sont silencieux pendant la période fœtale et le cerveau est protégé de l’action masculinisante de l’œstradiol périnatal par l’action de l’α-fœtoprotéine. Des études révèlent un rôle actif de l’œstradiol ovarien postnatal dans la mise en place de la puberté et la féminisation des circuits neuraux gouvernant l’expression du comportement sexuel. A l’âge adulte, l’œstradiol a un rôle activationnel dans la régulation de l’axe hypothalamo-hypophysaire-gonadotrope (HPG) et les comportements reproducteurs. Il agit principalement via les récepteurs des œstrogènes nucléaires ERα et ERβ. L’ERα neural est indispensable à la maturation et la régulation de l’axe HPG et à l’expression du comportement sexuel. Le rôle de l’ERβ neural restait à clarifier. Au cours de ma thèse, nous avons généré un modèle de souris invalidées de manière sélective pour l’ER neural. Les femelles mutantes sont fertiles et ne présentent pas d’altération de l’axe HPG, ni de l’expression du comportement sexuel. Elles présentent un retard de puberté, corrélé à une diminution de l’expression prépubertaire de la kisspeptine dans le noyau rostral périventriculaire du 3e ventricule. Nous avons aussi étudié les effets d’une exposition maternelle au bisphénol A (BPA) sur les fonctions de reproduction femelle. Les résultats obtenus révèlent un rôle de l’ER dans la mise en place de la puberté et la régulation de l’expression de la kisspeptine dans le RP3V, et un effet du BPA probablement pendant la période postnatale/prépubertaire sur les fonctions neuroendocrines et comportementales femelles. / Sexual differentiation of the central nervous system is governed by the sex steroid hormones. In females, the ovaries are inactive during the fetal period, and the brain is protected from the masculinizing action of perinatal estradiol by the action of α-fetoprotein. Recent studies suggest an active role of postnatal ovarian estradiol in the establishment of puberty and feminization of neural circuits involved in the expression of female sexual behavior. In adulthood, estradiol has an activational role in the regulation of the hypothalamic-pituitary-gonadal (HPG) axis and reproductive behaviors. Estradiol acts mainly via nuclear estrogen receptors ERα and ERβ. Neural ERα is essential for the maturation and the regulation of the HPG axis, as well as the expression of sexual behavior. The role of neural ERβ remained to be clarified. During my thesis, we generated a mouse model selectively lacking ERβ in the nervous system. The mutant females show normal fertility, HPG axis regulation, and expression of sexual behavior. However, these mice have delayed puberty, correlated with a significant decrease in prepubertal expression of kisspeptin in the rostral periventricular area of the third ventricle (RP3V). Furthermore, we studied the effects of maternal exposure to bisphenol A (BPA) on the regulation of female reproductive functions. The overall results highlight the importance of ERβ in the postnatal/prepubertal regulation of kisspeptin expression and pubertal onset, as well as the potential effects of BPA during this period on neuroendocrine and behavioral responses.

Oestradiol

Récepteur des œstrogènes β

Puberté

Comportement sexuel

Bisphénol A

Système nerveux

Estradiol

Nervous system

616.8