The risk of exposure and the mechanistic actions of perfluorinated compounds on male infertility and metabolic disorders

Wan, Hin Ting

01 January 2013

No description available.

Analysis

Chemistry

Analytic

Disorders

Endocrine disrupting chemicals

Infertility

Male

Metabolism

A REVIEW ON THE ROLE OF A SELECTION OF BISPHENOLS IN ADIPOGENESIS

Palenius, Hildur

January 2021

Obesity is a growing global problem, and it is now considered to be a health problem with epidemic status. The condition is associated with several serious comorbidities, such as cardiovascular diseases and type 2 diabetes mellitus. This makes it highly relevant to seek for solutions to the obesity issue. Diet and exercise are two important components in the area, but studies are also indicating exposure to chemicals so called obesogens, could contribute as well. Bisphenols are chemicals we are frequently exposed to in our every-day environment, mostly through plastics. In this project, the adipogenic effects from a relevant selection of 8 different bisphenols in vitro were examined by a thorough literature search on published data. Concluding results from this research indicated that the structural analogues of BPA appear to be as problematic as BPA with respect to adipogenesis, and should be used with caution. It was also clearly demonstrated that further studies are needed in order to gain more data and understand their adipogenic impact.

Adipogenesis

bisphenol

endocrine disrupting chemicals

obesity

Pharmaceutical Sciences

Farmaceutiska vetenskaper

The Influence of Scientific Claims on an Emerging Environmental Issue

Schaberg, Beth Ann

13 December 2007

No description available.

endocrine disrupting chemicals

citation analysis

scientometrics

environmental policy

Bisphenol A and Bisphenol AF Potentiate Endometriosis Differently Based on Hormonal Status in Female Mice and Disrupt Normal Ovarian Function

Jones, Rebecca

21 September 2018

No description available.

Toxicology

Endometriosis

Endocrine Disrupting Chemicals

Ovary

Hormones

Steroidegenesis

THE IMPACT OF BISPHENOL A IN COMBINATION WITH STRESS AND DIETHYLHEXYL PHTHALATE ON IMPLANTATION, UTERINE MORPHOLOGY, AND ADHESION PROTEIN EXPRESSION IN INSEMINATED FEMALE MICE / ENVIRONMENTAL CHEMICALS AND STRESS DISRUPT IMPLANTATION

Borman, Evan D.

11 1900

Bisphenol A (BPA), the monomer of polycarbonate plastics and epoxy resins, can disrupt intrauterine implantation of fertilized ova in mice. This effect is also induced by exposure to chronic stress or high doses of diethylhexyl phthalate (DEHP), a plasticizer found in polyvinyl chloride products. I assessed the potential combinatory effects of BPA and stress on blastocyst implantation, uterine morphology, adhesion protein expression, and urinary hormone levels. Subcutaneous injections of BPA administered from gestation days (GDs) 1–4 paired with a stressor (rat exposure across a grid) reduced the number of implantation sites on GD 6 at a dose where neither BPA nor stress had this effect on their own. Uterine luminal area was increased by BPA when paired with stress. BPA reduced epithelial cadherin (e-cadherin), a uterine adhesion protein, independently from the stressor. Urinary estradiol was significantly increased by BPA relative to controls, regardless of stress. In other experiments, effects of concurrent BPA and DEHP administered were assessed. Inseminated female mice were injected with BPA, DEHP, or BPA + DEHP from GDs 1–4. Implantation measured in uteri on GD 6 was disrupted by a combined dose but not by the individual doses. This dose also decreased the amount of e-cadherin and cadherin-11, another adhesion protein expressed by cells, while cadherin-11 was also affected by BPA alone. In further experiments designed to elucidate the interaction of BPA and DEHP, mice were fed 14C-BPA and injected with varied doses of DEHP, then tissues were excised and measured for radioactivity. When given DEHP, males and cycling and peri implantation females showed increased BPA deposition in reproductive tissues and serum. As people are commonly exposed to both DEHP and BPA through consumer products, it is important to determine their interactions and also to understand how dose-response is affected by other factors such as stress. / Thesis / Doctor of Philosophy (PhD)

Toxicology

BPA

Endocrine Disrupting Chemicals

DEHP

Reproduction

Implantation

The production and purification of functional steroid hormone receptor ligand binding domains towards the development of a biological endocrine disruptor detection system

Tait, Timo

04 1900

Thesis (MSc)--Stellenbosch University, 2015. / ENGLISH ABSTRACT: During the last two and a half decades a large body of research has accumulated indicating the presence of various natural and synthetic chemical compounds within the environment capable of inducing hormone-like responses in humans and animals. Such compounds, termed endocrine disruptors, have been implicated in a variety of developmental, reproductive and physiological abnormalities which have been shown to converge on the endocrine system. Given that endocrine disrupters are comprised of a diverse group of molecules with dissimilar chemical structures, general screening techniques are not feasible for effective environmental monitoring. A primary method of action by which these exogenous molecules affect the homeostatic regulation of the endocrine system is believed to be via the modulation of gene transcription. It is now well established that many endocrine disrupting compounds act upon a principal group of transcription factors, the nuclear receptors, by chance interaction with the ligand binding domains of these proteins. With a view to ultimately design a portable kit for the detection of endocrine disrupting compounds in water based on the bio-specific immobilisation of nuclear receptor ligand binding domains to a stationary membrane matrix, this study specifically describes: 1. The effects on recombinant protein expression by the addition of small molecules to the cultivation media of bacteria. 2. The optimisation of conditions for the lysis of bacterial cells to increase the solubility of heterologously expressed proteins. 3. The purification of recombinant proteins from bacterial cell lysates by means of a two-step chromatographic methodology. 4. The cloning of the genes for the human androgen and estrogen receptors’ ligand binding domains into baculovirus transfer plasmids. 5. Transfer of genetic material from the created baculovirus transfer plasmids to a linearised baculovirus genome for the generation of recombinant viruses. 6. The cultivation, and baculoviral infection, of Spodoptera frugiperda and Trichoplusia ni cell lines. 7. Expression and purification of N-terminal hexahistidine-tagged human nuclear receptor LBDs from insect cell lysates by means of immobilised metal affinity chromatography. / AFRIKAANSE OPSOMMING: Die teenwoordigheid van natuurlike en sintetiese chemiese middels wat oor die vermoë beskik om die aksies van hormone in die mens en dier na te boots het toenemend aftrek gekry in navorsing gedurende die laaste twee en ’n halwe dekades. 'n Verskeidenheid van ontwikkelings-, reproduktiewe- en fisiologiese abnormaliteite ontstaan as gevolg van die aksies van hierdie molekule, genaamd endokriene-ontwrigters, op die natuurlike funksionering van die endokriene-sisteem. Gegewe dat die groep chemiese middels waaruit endokriene-ontwrigters bestaan van diverse oorsprong afkomstig is lei dit daartoe dat algemene analitiese tegnieke nie in alle gevalle geskik is vir effektiewe omgewingsmonitering is nie. Die modulasie van geentranskripsie is een van die metodes wat voorgestel word as ’n metode waarop hierdie eksogene molekule die homeostatiese regulering deur die endokriene-sisteem omverwerp. ’n Algemene metode waarop vele endokrien-ontwrigtende stowwe geentranskripsie beïnvloed, is deur interaksie met die hormoon-bindende gedeeltes van ’n belangrike groep transkripsiefaktore, die nukluêre reseptore. Hierdie studie, met die uiteindelike ontwikkeling van ’n draagbare toetsstelsel vir die opsporing van endokrien-ontwrigtende-stowwe in water, gebasseer op die bio-spesifieke immobilisering van nukluêre reseptor ligand bindingsdomeins op ’n stasionêre membraanmatriks, het ten doel om die volgende te beskryf: 1. Die effek wat die byvoeging van klein molekule tot die groeimedium van bakteriëe het op die uitdrukking van rekombinante proteïene. 2. Die optimisering van bakteriese sel-lisering in terme van verhoging in die oplosbaarheid van heteroloë proteïene. 3. Die suiwering van rekombinante proteïen vanuit bakteriese sellisate deur middel van ’n twee-stap chromatografiese sisteem. 4. Die klonering van die gene vir die menslike androgeen en estrogeen reseptore se ligand bindingsdomeine in bakulovirus oordragplasmiede. 5. Die oordrag van genetiese materiaal vanaf hierdie bakulovirus oordragplasmiede na ’n gelineariseerde bakulovirus genoom deur middel van homoloë rekombinasie vir die produksie van rekombinante virusse. 6. Die groei en infeksie van Spodoptera frugiperda en Trichoplusia ni sellyne wat lei tot die uitdrukking van menssoortgelyke nukluêre reseptor ligandbindingsdomains. 7. Suiwering van N-terminaal heksahistidien-etiket-gekoppelde menslike nukluêre reseptor ligandbindingsdomeins vanuit inseksellisate deur middel van geïmmobiliseerde metaal affiniteitschromatografie.

Endocrine disrupting chemicals

Steroid hormones

Baculovirus expression vector system

Proteins -- Purification

UCTD

Detection and evaluation of the fate of estrogen endocrine disrupting chemicals in wastewater treatment

Surujlal-Naicker, Swastika

January 2014

Submitted in fulfillment of the requirements for the degree of Doctorate of Technology: Biotechnology, Durban University of Technology, Durban, South Africa, 2014. / All over the world concerns have been raised over the possible adverse effects that may occur when exposed to chemicals that have the potential to interfere and affect the endocrine system. The concern is directed at both humans and wildlife. There is still a lack of public awareness regarding Endocrine Disrupting Chemicals (EDCs) and the harmful effects on humans and wildlife. It has only been within the last decade that South Africa began the actual task for proper management and control for water and wastewater quality. There are many ways to detect these EDCs all of which are very laborious and most of the cases these EDCs are either in the pico or nano gram per litre range, too minute for many methods to detect effectively; so therefore the research project aimed to use rapid and sensitive techniques to determine the quickest means to detect the very low concentrations of theses EDCs. Two techniques were researched, i.e., Enzyme Linked immunoassays (ELISAs) and Radio-immunoassays (RIAs). The research study thus assessed the solid phase extraction (SPE) technique for total recovery of hormones; the ELISA and RIA techniques for rapid detection of natural (estrone (E1), estradiol (E2) and estriol (E3) and synthetic ethinylestradiol (EE2) by validating the precision and reproducibility . These techniques were then applied to determine hormone EDC removal first at laboratory scale investigations and then applied to full scale wastewater treatment plants (WWTP) with different configurations in order to deduce removal efficiency of each type of plant. The next phase assessed the toxicity of individual and combined estrogen standards as well as the toxicity in the WWTPs and classify and to determine if there was a correlation between hormone concentration and toxicity in final effluents. The assessment of the SPE and the immunoassay procedures (ELISA AND RIA) using standards and controls found that both these assays can be utilised to quantify hormone estrogens in wastewater. The small sample volume required reduced the labour time and application of the procedure made it cost effective and reliable techniques. The intra-assay and inter-assay validation procedures as well as the standard recoveries confirmed reproducibility and precision of the immunoassays. The % CV were <10% for both the intra-assay and inter-assay validations. The laboratory scale investigations included the operation of a modified Ludzak-Ettinger (MLE) process which enabled control and manipulation over the operational parameters in order to establish how certain parameters influenced the removal of hormone EDCs. One such parameter that was manipulated was the sludge retention time (SRT). The MLE tests showed that the SRTs definitely have an effect on the removal of hormones from the influent as well as the overall performance of sewage treatment. The 10 day SRT proved that longer SRTs will definitely aid in the removal of hormones and possibly other EDCs in raw sewage. During the 10 day SRT the influent hormone concentrations (E1: 59.11 ng/L, E2: 61.40 ng/L) were almost double than the influent hormone concentrations (E1: 26.46 ng/L, E2: 27.60 ng/L) during the 5 day SRT, which impacted on the removal efficiency. The 5 day SRT had an overall average E2 and E1 removal of 78.11% and 81.71% respectively while the 10 day SRT had average E2 and E1 removal of 91.24 % and 80.56% respectively. The 24 hour batch test provided evidence of the reversible metabolism of the E2 hormone. This was seen by the rapid decrease of E2 and the rapid increase of E1 in less than 3 hours, which proved that E2 can be metabolized in to E1. An average reduction of 94.44% of E2 was seen after 5 hours and after 10 hours was no longer detected. After 13 hours E1 could no longer be detected. This finding also provided clarity as to the lower percentage removal of E1 during the 10 day SRT of the MLE process. The Vibrio fischeri biotox method implemented was the most economic and easiest way to conduct the toxicity tests. The validation of the test used a 52.9 mg/L K2Cr2O7 standard which provided a Cr (VI) concentration of 18.7 mg/L in the final test suspension which is the theoretical effective concentration causing 50% inhibition (EC50). This specific concentration of the Cr (VI) exhibited an EC50 at 20.08 mg/L. The toxicity investigations of the individual and mixed hormone standards revealed that at the 10 ng/L concentration the individual E2 standard had the highest percentage inhibition (%INH) of 45.99% after the 30 minute contact time (T30), and when this standard was further diluted to 5 and 1 ng/L also showed higher % INH (26.04 and 23.66 %INH, respectively) than the individual EE2 standard (21.92 %INH) at 10 ng/L. . According to the toxicity classification system and after interpretation of the data, all the hormone standards were classified as Class II as they all exhibited slight acute toxicity. The 10 ng/L E2 standard had Toxicity Units (TU) of 0.8 which was close to the Class III level; however when it was in a mixture with E1 and E3, the TU was much lower (0.6 TU). The synthetic EE2 hormone also showed slight acute toxicity and had the lowest TU of 0.4. The application of the above mentioned techniques to full scale WWTPs with different configurations showed different removal efficiencies. The WWTPs ranged from the most primary consisting of just oxidation ponds to biological trickling filters, to biological nutrient removal (BNR) to conventional activated sludge (AS) plants. Removal rates ranged from 29% to 96% for E2, 0% to 89% for E1 and 0% to 100% for EE2. The overall ranking of the WWTPs from the most efficient to least efficient in terms of hormone removal were as follows: Plant E (91%) = Plant D (before UF) (91%) > Plant B (east side) (88%) > Plant B (west side) (77%) > Plant C (east side) (71%) > Plant D (after UF) (57%) > Plant A (56%) > Plant C (west side) (12%). Using the Vibrio fischeri method to evaluate the reduction of toxicity in WWTPs C, D and E proved effective. It was seen immediately after secondary biological treatment in the clarifier effluent the toxicity was reduced. Plants C, D and E had reduced the toxicities by 100, 80 and 97 % immediately after secondary biological treatment, while after the addition of the Chlorine disinfectant in the final stage of treatment the toxicity increased having %INH of 99.9, 15.7 and 99.9 respectively. In conclusion the SPE can be used as an extraction procedure for hormones in wastewater and the immunoassays can be used as rapid techniques for quantification of hormone EDCs in wastewater. The ELISA technique proved to be the slightly superior to the RIA in terms of facilities required. The laboratory scale procedures proved that some hormones can be oxidised to other hormones and therefore longer sludge retention times may be required to improve the removal. The study of the different WWTPs configuration showed that plant configuration and operational parameters impact the removal of hormone EDCs. The composition of the influent received by the plant also has an effect on the removal, i.e., whether it’s industrial, domestic or a mixture of both. Results concluded that plants which have either mixing and/or aeration with activated sludge and longer SRTs of more than 10 days have a higher rate of hormone removal than those plants with shorter SRTs and that the activated sludge processes were capable of reducing the toxicity of the influent. Overall results indicated that hormone EDCs are indeed being discharged with the effluents from WWTPs in South Africa. However whether the concentrations left in the final effluents will still have an adverse effect on the aquatic life is a question that still remains unanswered. The aquatic ecosystems are inevitably being polluted with these EDCs and their breakdown products. / D

Endocrine disrupting chemicals in water

Sewage--Purification

Estrogen

Hormones

Water--Pollution--Toxicology

Parameters impacting the reproductive fitness of Tursiops truncatus (Atlantic bottlenose dolphin): interactions between native endocrinology and endocrine-disruptors

Unknown Date

Persistent, anthropogenic contaminants collectively known as endocrine-disrupting chemicals (EDCs), are considered to be potential threats to wildlife reproductive fitness (Wingfield, 2002). The modes by which EDCs act on the reproductive system, and establishment of steroid profiles in wildlife, are important areas of study. Two means of performing an endocrine snapshot profile from dolphin tissues (serum and urine) were tested on samples, comparing a novel high performance liquid chromatography method to newly-validated enzyme-linked immunoassays (ELISAs). Serum and urine samples were obtained from two marine parks, and from free-ranging dolphins in the Indian River Lagoon (IRL) and Charleston Harbor (CHS) systems. Relative binding affinities of steroids versus putative EDCs to steroid receptors were compared in dolphin reproductive tissues, obtained by the Georgia Aquarium's Dolphin Conservation Field Station (GADCFS) from strained bottlenose dolphins (four male, three female) during 2010 and 20ll.........I conclude that endocrine disruptors are tissue and receptor specific, and both legacy and emerging contaminants are of concern to dolphin stocks, particularly those facing other significant environmental stressors. / by Sharon M. Homer-Drummond. / Vita. / Thesis (Ph.D.)--Florida Atlantic University, 2012. / Includes bibliography. / Mode of access: World Wide Web. / System requirements: Adobe Reader.

Population genetics

Social behavior in animals

Environmental toxicology

Marine mammals--Reproduction

Investigação da atividade estrogênica e de interferentes endócrinos em águas superficiais do Estado de São Paulo / Investigation of estrogenic activity and endocrine disrupting chemicals in surface water of São Paulo State

Martini, Gisela de Assis

05 July 2018

Nas últimas décadas, a ocorrência de atividade estrogênica e interferentes endócrinos (IEs) no ambiente aquático têm se tornado uma crescente preocupação. Dentre as diversas substâncias classificadas como IEs, destacam-se os fármacos, produtos de higiene e cuidados pessoais, hormônios naturais e sintéticos, produtos químicos industriais, praguicidas e muitos outros compostos que atingem o ambiente aquático por meio de descargas de esgoto doméstico, industrial ou de escoamento agrícola. Os objetivos deste estudo foram determinar a atividade estrogênica em amostras de águas superficiais, e avaliar seus efeitos biológicos no desenvolvimento de embriões de Danio rerio, a fim de propor faixas baseadas em valores de desencadeamento de efeitos para categorizar a atividade estrogênica. As amostras ambientais também foram analisadas por cromatografia líquida acoplada com a espectrometria de massas para identificar as substâncias que são suspeitas de causar alteração endócrina. Os compostos analisados foram: praguicidas, hormônios, triclosan, bisfenol A, octilfenol, nonilfenol, e a cafeína como indicador de atividade antrópica. A atividade estrogênica foi medida pelo ensaio Bioluminescent Yeast Estrogen (BLYES), que fornece os resultados em equivalente de 17&beta;-estradiol (EEQ). No entanto, este ensaio não é capaz de prover informações sobre os efeitos adversos em organismos aquáticos. Para observação de possíveis efeitos na biota, os embriões foram expostos a amostras de águas superficiais com resultados acima de 0,1 EEQ no BLYES. Os ensaios foram realizados de acordo com a OECD No. 236 (2013), verificando efeitos agudos como: ausência de batimento cardíaco, não formação de somitos, não desprendimento da cauda, e embrião coagulado. Malformações embrionárias tais como: redução do tamanho do organismo, edema cardíaco e vitelínico, curvatura da coluna vertebral, também foram avaliadas. As informações obtidas pelo ensaio com embriões de Danio rerio foram adequadas para mostrar os efeitos da mistura de contaminantes em organismos não-alvo. A atividade estrogênica medida pelo BLYES ficou abaixo do limite de quantificação (0,1 EEQ) em 44,8% do total de 116 amostras analisadas, e a faixa de atividade estrogênica variou de 0,11 a 14,6 EEQ. Além disso, a presença de contaminantes mesmo que em concentrações baixas ressalta a necessidade de mais estudos para entender os efeitos dessas substâncias nos organismos aquáticos. / Over the last few decades, the occurrence of estrogenic activity and endocrine disrupting chemicals (EDCs) in aquatic environment has become a worldwide issue of increasing environmental concern. The EDCs have the ability to alter the endocrine system of organisms, and includes pharmaceuticals, personal care products, steroid hormones, industrial chemicals, pesticides and many other compounds. Such compounds are present in several industrial and domestic activities and reach the aquatic environment via wastewater discharges or agricultural runoff. The aim of this study was to determine the overall estrogenic activity of surface water, evaluate biological effects on fish embryos development, in order to propose concentrations range based on trigger value to categorize estrogenic activity. Environmental samples were also analyzed by liquid chromatography tandem mass spectrometry to identify substances that are suspected to be an endocrine disruptor. The analyzed compounds were: pesticides, hormones, triclosan, bisphenol A, octylphenol, nonylphenol, and caffeine as an indicative of anthropic activity. The estrogenic activity was measured by Bioluminescent Yeast Estrogen assay (BLYES), with the results expressed in 17&beta;-estradiol equivalent quotient (EEQ). However, this assay is not able to provide information about adverse effects to aquatic organisms. In order to observe effects on aquatic organisms, organic extracts of surface water with results &ge; 0.1 EEQ in BLYES were tested in a bioassay using Danio rerio embryos. The methodology was conducted according OECD No. 236 and verified effects such as: lack of heart beat, lack of somites formation, non-detachment tail and coagulated embryo. Embryonic malformations were also evaluated, such as: reduction of organism size, edema and spine curvature, which are chronic effects. These effects probably are associated with contaminants mixtures. The obtained information by embryonic assay with Danio rerio was suitable to show the effects of contaminants mixture and was used to a categorization proposal of estrogenic activity. Estrogenic activity was below the limit of quantification (0.1 EEQ) in 44.8% of 116 analyzed samples, and range of estrogenic activity was from 0.11 to 14.6 EEQ. The tested samples in FET test were analyzed for acute or chronic toxicity in Danio rerio embryos. Based on the obtained results, even when estrogenic activity is present in surface water, the contaminants mixture can cause toxic effects in non-target organisms. Besides this, the widespread presence of these chemicals highlight the need for further studies in order to understand the harmfulness of these contaminants to aquatic organisms.

assortment

atividade estrogênica

BLYES

BLYES

categorização

endocrine disrupting chemicals

estrogenic activity

FET

FET

interferentes endócrinos

Investigação da atividade estrogênica e de interferentes endócrinos em águas superficiais do Estado de São Paulo / Investigation of estrogenic activity and endocrine disrupting chemicals in surface water of São Paulo State

Gisela de Assis Martini

05 July 2018

Nas últimas décadas, a ocorrência de atividade estrogênica e interferentes endócrinos (IEs) no ambiente aquático têm se tornado uma crescente preocupação. Dentre as diversas substâncias classificadas como IEs, destacam-se os fármacos, produtos de higiene e cuidados pessoais, hormônios naturais e sintéticos, produtos químicos industriais, praguicidas e muitos outros compostos que atingem o ambiente aquático por meio de descargas de esgoto doméstico, industrial ou de escoamento agrícola. Os objetivos deste estudo foram determinar a atividade estrogênica em amostras de águas superficiais, e avaliar seus efeitos biológicos no desenvolvimento de embriões de Danio rerio, a fim de propor faixas baseadas em valores de desencadeamento de efeitos para categorizar a atividade estrogênica. As amostras ambientais também foram analisadas por cromatografia líquida acoplada com a espectrometria de massas para identificar as substâncias que são suspeitas de causar alteração endócrina. Os compostos analisados foram: praguicidas, hormônios, triclosan, bisfenol A, octilfenol, nonilfenol, e a cafeína como indicador de atividade antrópica. A atividade estrogênica foi medida pelo ensaio Bioluminescent Yeast Estrogen (BLYES), que fornece os resultados em equivalente de 17&beta;-estradiol (EEQ). No entanto, este ensaio não é capaz de prover informações sobre os efeitos adversos em organismos aquáticos. Para observação de possíveis efeitos na biota, os embriões foram expostos a amostras de águas superficiais com resultados acima de 0,1 EEQ no BLYES. Os ensaios foram realizados de acordo com a OECD No. 236 (2013), verificando efeitos agudos como: ausência de batimento cardíaco, não formação de somitos, não desprendimento da cauda, e embrião coagulado. Malformações embrionárias tais como: redução do tamanho do organismo, edema cardíaco e vitelínico, curvatura da coluna vertebral, também foram avaliadas. As informações obtidas pelo ensaio com embriões de Danio rerio foram adequadas para mostrar os efeitos da mistura de contaminantes em organismos não-alvo. A atividade estrogênica medida pelo BLYES ficou abaixo do limite de quantificação (0,1 EEQ) em 44,8% do total de 116 amostras analisadas, e a faixa de atividade estrogênica variou de 0,11 a 14,6 EEQ. Além disso, a presença de contaminantes mesmo que em concentrações baixas ressalta a necessidade de mais estudos para entender os efeitos dessas substâncias nos organismos aquáticos. / Over the last few decades, the occurrence of estrogenic activity and endocrine disrupting chemicals (EDCs) in aquatic environment has become a worldwide issue of increasing environmental concern. The EDCs have the ability to alter the endocrine system of organisms, and includes pharmaceuticals, personal care products, steroid hormones, industrial chemicals, pesticides and many other compounds. Such compounds are present in several industrial and domestic activities and reach the aquatic environment via wastewater discharges or agricultural runoff. The aim of this study was to determine the overall estrogenic activity of surface water, evaluate biological effects on fish embryos development, in order to propose concentrations range based on trigger value to categorize estrogenic activity. Environmental samples were also analyzed by liquid chromatography tandem mass spectrometry to identify substances that are suspected to be an endocrine disruptor. The analyzed compounds were: pesticides, hormones, triclosan, bisphenol A, octylphenol, nonylphenol, and caffeine as an indicative of anthropic activity. The estrogenic activity was measured by Bioluminescent Yeast Estrogen assay (BLYES), with the results expressed in 17&beta;-estradiol equivalent quotient (EEQ). However, this assay is not able to provide information about adverse effects to aquatic organisms. In order to observe effects on aquatic organisms, organic extracts of surface water with results &ge; 0.1 EEQ in BLYES were tested in a bioassay using Danio rerio embryos. The methodology was conducted according OECD No. 236 and verified effects such as: lack of heart beat, lack of somites formation, non-detachment tail and coagulated embryo. Embryonic malformations were also evaluated, such as: reduction of organism size, edema and spine curvature, which are chronic effects. These effects probably are associated with contaminants mixtures. The obtained information by embryonic assay with Danio rerio was suitable to show the effects of contaminants mixture and was used to a categorization proposal of estrogenic activity. Estrogenic activity was below the limit of quantification (0.1 EEQ) in 44.8% of 116 analyzed samples, and range of estrogenic activity was from 0.11 to 14.6 EEQ. The tested samples in FET test were analyzed for acute or chronic toxicity in Danio rerio embryos. Based on the obtained results, even when estrogenic activity is present in surface water, the contaminants mixture can cause toxic effects in non-target organisms. Besides this, the widespread presence of these chemicals highlight the need for further studies in order to understand the harmfulness of these contaminants to aquatic organisms.

atividade estrogênica

BLYES

categorização

FET

interferentes endócrinos

assortment

BLYES

endocrine disrupting chemicals

estrogenic activity

FET