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Carine Bossard,
Muriel Busson,
David Vindrieux,
Françoise Gaudin,
Véronique Machelon,
Madly Brigitte,
Carine Jacquard, Arnaud Pillon,
Patrick Balaguer,
Karl Balabanian,
Gwendal Lazennec
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ABSTRACT: Ovarian cancer is the gynecological cancer exhibiting the highest morbidity and improvement of treatments is still required. Previous studies have shown that Estrogen-receptor beta (ERβ) levels decreased along with ovarian carcinogenesis. Here, we present evidence that reintroduction of ERβ in BG-1 epithelial ovarian cancer cells, which express ERα, leads in vitro to a decrease of basal and estradiol-promoted cell proliferation. ERβ reduced the frequency of cells in S phase and increased the one of cells in G2/M phase. At the molecular level, we found that ERβ downregulated total retinoblastoma (Rb), phosphorylated Rb and phospho-AKT cellular content as well as cyclins D1 and A2. In addition, ERβ had a direct effect on ERα, by strongly inhibiting its expression and activity, which could explain part of the anti-proliferative action of ERβ. By developing a novel preclinical model of ovarian cancer based on a luminescent orthotopic xenograft in athymic Nude mice, we further revealed that ERβ expression reduces tumor growth and the presence of tumor cells in sites of metastasis, hence resulting in improved survival of mice. Altogether, these findings unveil a potential tumor-suppressor role of ERβ in ovarian carcinogenesis, which could be of potential clinical relevance for the selection of the most appropriate treatment for patients.
PLoS ONE 01/2012; 7(9):e44787. · 4.09 Impact Factor
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Wissem Mnif,
Sonia Dagnino,
Aurélie Escande, Arnaud Pillon,
Hélène Fenet,
Elena Gomez,
Claude Casellas,
Marie-Josèphe Duchesne,
Guillermina Hernandez-Raquet,
Vincent Cavaillès,
Patrick Balaguer,
Aghleb Bartegi
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ABSTRACT: Endocrin-disrupting compounds (EDCs) are frequently found in wastewater treatment plants (WWTPs). So far, research has been mainly focused on the detection of estrogenic compounds and very little work has been carried out on other receptors activators. In this study, we used reporter cell lines, which allow detecting the activity of estrogen (ERalpha), androgen (AR), pregnane X (PXR), glucocorticoid (GR), progesterone (PR), mineralocorticoid (MR), and aryl hydrocarbon (AhR) receptors, to characterise the endocrine-disrupting profile of the aqueous, suspended particulate matter, and sludge fractions from three Tunisian WWTPs. The aqueous fraction exhibited estrogenic and androgenic activities. Suspended particulate matter and sludge extracts showed estrogenic, aryl hydrocarbon and pregnane X receptor activities. No GR, MR, or PR (ant) agonistic activity was detected in the samples, suggesting that environmental compounds present in sewage might have a limited spectrum of activity. By performing competition experiments with recombinant ERalpha, we demonstrated that the estrogenic activity detected in the aqueous fraction was due to EDCs with a strong affinity for ERalpha. Conversely, in the sludge fraction, it was linked to the presence of EDCs with weak affinity. Moreover, by using different incubation times, we determined that the EDCs present in suspended particulate matter and sludge, which can activate AhR, are metabolically labile compounds. Finally, we showed in this study that environmental compounds are mainly ER, AR, PXR, and AhR activators. Concerning AR and PXR ligands, we do not to know the nature of the molecules. Concerning ER and AhR compounds, competition experiments with recombinant receptor and analysis at different times of exposure of the AhR activation gave some indications of the compound's nature that need to be confirmed by chemical analysis.
Archives of Environmental Contamination and Toxicology 07/2010; 59(1):1-12. · 1.93 Impact Factor
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ABSTRACT: Benzophenone (BP) derivatives, BP1 (2,4-dihydroxybenzophenone), BP2 (2,2',4,4'-tetrahydroxybenzophenone), BP3 (2-hydroxy-4-methoxybenzophenone), and THB (2,4,4'-trihydroxybenzophenone) are UV-absorbing chemicals widely used in pharmaceutical, cosmetics, and industrial applications, such as topical sunscreens in lotions and hair sprays to protect skin and hair from UV irradiation. Studies on their endocrine disrupting properties have mostly focused on their interaction with human estrogen receptor alpha (hERalpha), and there has been no comprehensive analysis of their potency in a system allowing comparison between hERalpha and hERbeta activities. The objective of this study was to provide a comprehensive ER activation profile of BP derivatives using ER from human and fish origin in a battery of in vitro tests, i.e., competitive binding, reporter gene based assays, vitellogenin (Vtg) induction in isolated rainbow trout hepatocytes, and proliferation based assays. The ability to induce human androgen receptor (hAR)-mediated reporter gene expression was also examined. All BP derivatives tested except BP3 were full hERalpha and hERbeta agonists (BP2>THB>BP1) and displayed a stronger activation of hERbeta compared with hERalpha, the opposite effect to that of estradiol (E2). Unlike E2, BPs were more active in rainbow trout ERalpha (rtERalpha) than in hERalpha assay. All four BP derivatives showed anti-androgenic activity (THB>BP2>BP1>BP3). Overall, the observed anti-androgenic potencies of BP derivatives, together with their proposed greater effect on ERbeta versus ERalpha activation, support further investigation of their role as endocrine disrupters in humans and wildlife.
Toxicology and Applied Pharmacology 07/2008; 232(3):384-95. · 4.45 Impact Factor
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Géraldine Lemaire,
Cindy Benod,
Virginie Nahoum, Arnaud Pillon,
Anne-Marie Boussioux,
Jean-François Guichou,
Guy Subra,
Jean-Marc Pascussi,
William Bourguet,
Alain Chavanieu,
Patrick Balaguer
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ABSTRACT: The human pregnane X receptor (hPXR) is a nuclear receptor that regulates the expression of phase I and II drug-metabolizing enzymes as well as that of drug transporters. In addition, this receptor plays a critical role in cholesterol homeostasis and in protecting tissues from potentially toxic endobiotics. hPXR is activated by a broad spectrum of low-affinity compounds including xenobiotics and endobiotics such as bile acids and their precursors. Crystallographic studies revealed a ligand binding domain (LBD) with a large and conformable binding pocket that is likely to contribute to the ability of hPXR to respond to compounds of varying size and shape. Here, we describe an in silico method that allowed the identification of nine novel hPXR agonists. We further characterize the compound 1-(2-chlorophenyl)-N-[1-(1-phenylethyl)-1H-benzimidazol-5-yl]methanesulfonamide (C2BA-4), a methanesulfonamide that activates PXR specifically and more potently than does the reference compound 4-[2,2-bis(diethoxyphosphoryl)ethenyl]-2,6-ditert-butyl-phenol (SR12813) in our stable cell line expressing a Gal4-PXR and a GAL4 driven luciferase reporter gene. Furthermore treatment of primary human hepatocytes with C2BA-4 results in a marked induction of the mRNA expression of hPXR target genes, such as cytochromes P450 3A4 and 2B6. Finally, C2BA-4 is also able to induce hPXR-mediated in vivo luciferase expression in HGPXR stable bioluminescent cells implanted in mice. The study suggests new directions for the rational design of selective hPXR agonists and antagonists.
Molecular Pharmacology 10/2007; 72(3):572-81. · 4.88 Impact Factor
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ABSTRACT: The pregnane X receptor (PXR, NR1I2) and the estrogen receptors (ERalpha, NR3A1 and ERbeta, NR3A2) bind a large number of compounds, including environmental pollutants and drugs, which exhibit remarkably diverse structural features. This prompted us to investigate if ER ligands could be PXR activators. We focused our attention on known estrogens from various chemical classes: physiological and synthetic estrogens and antiestrogens, plant and fungus estrogens, and other man-made chemicals belonging to phthalate plasticizers, surfactant-derived alkylphenols and cosmetics. Altogether, nearly 50 compounds were thus analyzed for their ability to activate human PXR in stably transfected cells, HGPXR cells, derived from HeLa cells and expressing luciferase under the control of a chimeric hPXR. Some of the newly identified hPXR activators were also checked for their ability to induce cytochrome P450 3A4 and 2B6 expressions in a primary culture of human hepatocytes. A significant proportion (54%) of compounds with estrogenic activity or able to bind ER were found to be hPXR activators: in particular, antiestrogens, mycoestrogens and phthalates. An even greater proportion is observed if estrogenic pesticides are included. Altogether, these results raise the question of the meaning and consequences of compounds with double PXR/ER activation ability.
Toxicology Letters 05/2007; 170(1):19-29. · 3.23 Impact Factor
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ABSTRACT: Prostate cancer (CaP) cells possess high affinity for bone marrow and predilection to induce bone metastasis. Although the end result of metastasis is predominantly osteoblastic, most patients present mixed lesions with osteolytic component which could initiate and precede bone formation. A precise characterization of tumor-induced bone resorption is thus necessary for early evaluation of therapeutic efficiency. Herein, we investigate the advantage of combining micro-computed tomography (microCT) and in vivo bioluminescence imaging (BLI) to determine the kinetics of the intraosseous CaP growth and bone lesions appearance in an experimental murine model. To mimic established osteolytic bone metastasis, the left tibiae of SCID mice were injected with the human CaP cell line PC-3 expressing luciferase (PC-3 Luc). Noninvasive monitoring of tumor progression was followed weekly by BLI during 4 weeks and bone morphometric parameters were quantified by microCT. Data were compared with conventional radiological and histological analyses. While BLI monitoring in vivo revealed an exponential growth of PC-3 Luc after 2 weeks, a decrease of bone density and bone mineral content was evidenced by microCT as early as 7 days post-injection, reaching significant values at day 21 (30% and 25% loss, respectively), compared with mock-injected controls. Enhanced osteoclast TRAP activity was observed during the first two weeks, highlighting an active interaction between low proliferative PC-3 cells and osteoclasts at the early stage of tumor establishment in bone. Tumor growth detected by BLI was tightly correlated to the osteolysis assessed by microCT (p<0.05). Our results show that the combination of microCT and BLI applied to this tumor osteolysis murine model allows early measurement of intraosseous tumor growth and bone destruction, as well as correlation between both processes kinetics. This model will help to assess new therapeutic approaches targeting intraosseous tumor growth or tumor/osteoclast crosstalk.
Bone 04/2007; 40(4):1032-40. · 4.02 Impact Factor
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Jean-Sébastien Annicotte,
Irena Iankova,
Stéphanie Miard,
Vanessa Fritz,
David Sarruf,
Anna Abella,
Marie-Laurence Berthe,
Danièle Noël, Arnaud Pillon,
François Iborra,
Pierre Dubus,
Thierry Maudelonde,
Stéphane Culine,
Lluis Fajas
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ABSTRACT: Peroxisome proliferator-activated receptor gamma (PPARgamma) might not be permissive to ligand activation in prostate cancer cells. Association of PPARgamma with repressing factors or posttranslational modifications in PPARgamma protein could explain the lack of effect of PPARgamma ligands in a recent randomized clinical trial. Using cells and prostate cancer xenograft mouse models, we demonstrate in this study that a combination treatment using the PPARgamma agonist pioglitazone and the histone deacetylase inhibitor valproic acid is more efficient at inhibiting prostate tumor growth than each individual therapy. We show that the combination treatment impairs the bone-invasive potential of prostate cancer cells in mice. In addition, we demonstrate that expression of E-cadherin, a protein involved in the control of cell migration and invasion, is highly up-regulated in the presence of valproic acid and pioglitazone. We show that E-cadherin expression responds only to the combination treatment and not to single PPARgamma agonists, defining a new class of PPARgamma target genes. These results open up new therapeutic perspectives in the treatment of prostate cancer.
Molecular and Cellular Biology 11/2006; 26(20):7561-74. · 5.53 Impact Factor
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ABSTRACT: Several pesticides and fungicides commonly used to control agricultural and indoor pests are highly suspected to display endocrine-disrupting effects in animals and humans. Endocrine disruption is mainly caused by the interference of chemicals at the level of steroid receptors: it is now well known that many of these chemicals can display estrogenic effects and/or anti-androgenic effects, but much less is known about the interaction of these compounds with other steroid receptors. Vinclozolin, a dicarboximide fungicide, like its primary metabolites 2-[[(3,5-dichlorophenyl)-carbamoyl]oxy]-2-methyl-3-butenoic acid (M1), and 3',5'-dichloro-2-hydroxy-2-methylbut-3-enanilide (M2), is known to bind androgen receptor (AR). Although vinclozolin and its metabolites were characterized as anti-androgens, relatively little is known about their effects on the function of the progesterone (PR), glucocorticoid (GR), mineralocorticoid (MR) or estrogen receptors (ERalpha and ERbeta). Objectives of the study were to determine the ability of vinclozolin and its two primary metabolites to activate AR, PR, GR, MR and ER. For this purpose, we used reporter cell lines bearing luciferase gene under the control of wild type or chimeric Gal4 fusion AR, PR, GR, MR or ERs. We confirmed that all three were antagonists for AR, whereas only M2 was found a partial agonist. Interestingly, M2 was also a PR, GR and MR antagonist (MR>PR>GR) while vinclozolin was an MR and PR antagonist. Vinclozolin, M1 and M2 were agonists for both ERs with a lower affinity for ERbeta. Although the potencies of the fungicide and its metabolites are low when compared to natural ligands, their ability to act via more than one mechanism and the potential for additive or synergistic effect must be taken into consideration in the risk assessment process.
Toxicology and Applied Pharmacology 10/2006; 216(1):44-54. · 4.45 Impact Factor
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Géraldine Lemaire,
Wissem Mnif,
Jean-Marc Pascussi, Arnaud Pillon,
Fanja Rabenoelina,
Hélène Fenet,
Elena Gomez,
Claude Casellas,
Jean-Claude Nicolas,
Vincent Cavaillès,
Marie-Josèphe Duchesne,
Patrick Balaguer
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ABSTRACT: Pregnane X receptor (PXR, NR1I2) is activated by various chemically unrelated compounds, including environmental pollutants and drugs. We proceeded here to in vitro screening of 28 pesticides with a new reporter system that detects human pregnane X receptor (hPXR) activators. The cell line was obtained by a two-step stable transfection of cervical cancer HeLa cells. The first transfected cell line, HG5LN, contained an integrated luciferase reporter gene under the control of a GAL4 yeast transcription factor-binding site. The second cell line HGPXR was derived from HG5LN and stably expressed hPXR ligand-binding domain fused to GAL4 DNA-binding domain (DBD). The HG5LN cells were used as a control to detect nonspecific activities. Pesticides from various chemical classes were demonstrated, for the first time, to be hPXR activators: (1) herbicides: pretilachlor, metolachlor, and alachlor chloracetanilides, oxadiazon oxiconazole, and isoproturon urea; (2) fungicides: bupirimate and fenarimol pyrimidines, propiconazole, fenbuconazole, prochloraz conazoles, and imazalil triazole; and (3) insecticides: toxaphene organochlorine, permethrin pyrethroid, fipronil pyrazole, and diflubenzuron urea. Pretilachlor, metolachlor, bupirimate, and oxadiazon had an affinity for hPXR equal to or greater than the positive control rifampicin. Some of the newly identified hPXR activators were also checked for their ability to induce cytochrome P450 3A4 expression in a primary culture of human hepatocytes. HGPXR, with HG5LN as a reference, was grafted onto nude mice to assess compound bioavailability through in vivo quantification of hPXR activation. Altogether, our data indicate that HGPXR cells are an efficient tool for identifying hPXR ligands and establishing pesticides as hPXR activators.
Toxicological Sciences 07/2006; 91(2):501-9. · 4.65 Impact Factor
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ABSTRACT: Estrogens control transcriptional responses through binding to two different nuclear receptors, estrogen receptor alpha (ERalpha) and beta (ERbeta). Since these two ER subtypes are thought to mediate different biological effects, there is intense interest in designing subtype-selective ER ligands. In this study, we evaluated the ERalpha and ERbeta selectivity of 19 known estrogens and antiestrogens using reporter cell lines previously developed in our laboratory. The HELN-ERalpha and HELN-ERbeta cells stably express full-length ERalpha and ERbeta, respectively, and are derived from HELN cells (HeLa cells stably transfected with an ERE-driven luciferase plasmid). We report that 16alpha-LE2, PPT and 3beta,5alpha-GSD have a high ERalpha-selective agonist potency while 8beta-VE2, DPN, genistein and biochanin A show ERbeta selectivity with 8beta-VE2 being the most potent and selective ERbeta agonist. We also tested ER antagonists and we showed that raloxifene and RU486 are ERalpha and ERbeta-selective antiestrogens, respectively. In all cases, selectivity is due to differences in binding affinities as indicated by whole-cell ligand-binding assays. Very interestingly, we demonstrate that a combination of genistein and raloxifene produces a full-ERbeta specific response. Together these results demonstrate the usefulness of our stably transfected cell lines to characterize ER ligands and indicate that treatments combining agonist/antagonist ligands produce full-ERbeta selectivity.
Biochemical Pharmacology 06/2006; 71(10):1459-69. · 4.70 Impact Factor
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ABSTRACT: To characterize the specificity of synthetic compounds for peroxisome proliferator-activated receptors (PPARs), three stable cell lines expressing the ligand binding domain (LBD) of human PPARalpha, PPARdelta, or PPARgamma fused to the yeast GAL4 DNA binding domain (DBD) were developed. These reporter cell lines were generated by a two-step transfection procedure. First, a stable cell line, HG5LN, expressing the reporter gene was developed. These cells were then transfected with the different receptor genes. With the help of the three PPAR reporter cell lines, we assessed the selectivity and activity of PPAR agonists GW7647, WY-14-643, L-165041, GW501516, BRL49653, ciglitazone, and pioglitazone. GW7647, L-165041, and BRL49653 were the most potent and selective agonists for hPPARalpha, hPPARdelta, and hPPARgamma, respectively. Two PPAR antagonists, GW9662 and BADGE, were also tested. GW9662 was a selective PPARgamma antagonist, whereas BADGE was a low-affinity PPAR ligand. Furthermore, GW9662 was a full antagonist on PPARgamma and PPARdelta, whereas it showed partial agonism on PPARalpha. We conclude that our stable models allow specific and sensitive measurement of PPAR ligand activities and are a high-throughput, cell-based screening tool for identifying and characterizing PPAR ligands.
Analytical Biochemistry 10/2005; 344(1):8-15. · 3.00 Impact Factor
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ABSTRACT: Reporter gene technology is widely used to measure activity of hormone analogs, and bioluminescent in vitro assays have allowed rapid screening of numerous chemicals either to identify new agonists or antagonists of hormones or to detect the presence of endocrine disrupters in the environment. Stable bioluminescent cell lines have been established and they provide reproducible dose-response curves and accurate determination of in vitro efficiencies of various chemicals. In vivo, however, these molecules can be metabolized, bound by proteins, or stored in fats and thus could display efficiencies different from those observed in vitro. In vivo assays, such as the uterotrophic bioassay, require numerous sacrificed animals, and responses not only are dependent on an estrogenic action but also imply other factors. For a faster assay and to avoid the use of numerous animals, we developed an in vivo biosensor constituted of stable bioluminescent cells implanted in nude mice. MCF-7 bioluminescent cell lines were chosen since their proliferation is low in the absence of estrogen and the xenograft size can thus be stable for several weeks. Luciferase gene expression was monitored noninvasively with a cooled charge-coupled device camera. Quantitative analysis allowed us to compare in vitro and in vivo actions of different estrogenic compounds (estradiol, estrone) and endocrine disruptors (ethynylestradiol, genistein, octylphenol, and 2,4'-dichlorodiphenyldichloroethylene) in the same cell lines and to follow hormone action on a living animal as a function of time. Different administration protocols have been used and good correlation was observed for most products. However, we found that ethynylestradiol was the most efficient chemical when orally administered.
Analytical Biochemistry 06/2005; 340(2):295-302. · 3.00 Impact Factor
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Arnaud Pillon,
Anne-Marie Boussioux,
Aurélie Escande,
Sélim Aït-Aïssa,
Elena Gomez,
Hélène Fenet,
Marc Ruff,
Dino Moras,
Françoise Vignon,
Marie-Josèphe Duchesne,
Claude Casellas,
Jean-Claude Nicolas,
Patrick Balaguer
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ABSTRACT: Estrogenic activity in environmental samples could be mediated through a wide variety of compounds and by various mechanisms. High-affinity compounds for estrogen receptors (ERs), such as natural or synthetic estrogens, as well as low-affinity compounds such as alkylphenols, phthalates, and polychlorinated biphenyls are present in water and sediment samples. Furthermore, compounds such as polycyclic aromatic hydrocarbons, which do not bind ERs, modulate estrogen activity by means of the aryl hydrocarbon receptor (AhR). In order to characterize compounds that mediate estrogenic activity in river water and sediment samples, we developed a tool based on the ER-alphaligand-binding domain, which permitted us to estimate contaminating estrogenic compound affinities. We designed a simple transactivation assay in which compounds of high affinity were captured by limited amounts of recombinant ER-alpha and whose capture led to a selective inhibition of transactivation. This approach allowed us to bring to light that water samples contain estrogenic compounds that display a high affinity for ERs but are present at low concentrations. In sediment samples, on the contrary, we showed that estrogenic compounds possess a low affinity and are present at high concentration. Finally, we used immobilized recombinant ER-alpha to separate ligands for ER and AhR that are present in river sediments. Immobilized ER-alpha, which does not retain dioxin-like compounds, enabled us to isolate and concentrate ER ligands to facilitate their further analysis.
Environmental Health Perspectives 04/2005; 113(3):278-84. · 7.04 Impact Factor
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ABSTRACT: Our laboratory has been using various bioluminescent imaging systems for more than 20 years to visualize and quantify bioluminescent and chemiluminescent reactions. This equipment allowed us to establish numerous cell lines expressing bioluminescent reporter genes to study the mechanism of action of nuclear receptors. Cells expressing the luciferase gene under the control of a constitutive promoter were used to follow in vivo proliferation of cancer cells. Intensities of in vitro and in vivo bioluminescent signals were compared and the conditions of bioluminescent reaction measurements were determined. These bioluminescent models are new tools for evaluating cancer treatment efficiencies and the role of hormone receptors in invasion. Cells expressing the luciferase gene under the control of hormones are used as in vivo biosensors for studying analog bioavailabilities and in vivo response kinetics. They are complementary models to in vitro models that have been developed in our laboratory for several years. In the future, targeting reporter gene (luciferase and GFP) expression to specific tissues should allow the detailed localisation of the action of nuclear receptor ligands.
Journal de la Société de Biologie 02/2004; 198(2):157-61.
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ABSTRACT: The attention paid to endocriniens modulators for purpose micropolluants (endocrine disrupters) has been increasingly studied these last years particularly on animals. The results of this study raised big concerns from Doctors and Biologists on the eventual risks human health can face. Indeed, endocrine systems of the body play an essential and pervasive role in both the short- and long-term regulation of metabolic processes. Nutritional, behavioural, and reproductive processes are intricately regulated by endocrine systems, as are growth (including bone growth/remodelling), gut, cardiovascular, and kidney function and responses to all forms of stress. Disorders of any of the endocrine system, involving both over- and under-active hormone secretion, result inevitably in disease, the effects of which may extend to many different organs and functions and are often debilitating or life-threatening. Viewed from this general perspective, the threat posed from environmental chemicals with endocrine activity (either agonist or antagonistic) is potentially serious. However, the fact that humans and wildlife are exposed to such chemicals does not necessarily mean that clinically manifest disturbance of the relevant endocrine system will result, because much depends on the level and duration of exposure and on the timing of exposure. Indeed, a large numbers of environmental estrogens are suspected of altering human health as well as the marine ecosystem balance. The objective of this review is to study the different molecular mechanisms of these xenoestrogenes micropolluants, in order to emphasize their potential risk and to present some of the different experimental methods for their detection.
Thérapie 62(5):369-86. · 0.30 Impact Factor
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ABSTRACT: The attention paid to endocriniens modulators for purpose micropolluants (endocrine disrupters) has been increasingly studied these last years particularly on animals. The results of this study raised big concerns from Doctors and Biologists on the eventual risks human health can face. Indeed, endocrine systems of the body play an essential and pervasive role in both the short- and long-term regulation of metabolic processes. Nutritional, behavioural, and reproductive processes are intricately regulated by endocrine systems, as are growth (including bone growth/remodelling), gut, cardiovascular, and kidney function and responses to all forms of stress. Disorders of any of the endocrine system, involving both over- and under-active hormone secretion, result inevitably in disease, the effects of which may extend to many different organs and functions and are often debilitating or life-threatening. Viewed from this general perspective, the threat posed from environmental chemicals with endocrine activity (either agonist or antagonistic) is potentially serious. However, the fact that humans and wildlife are exposed to such chemicals does not necessarily mean that clinically manifest disturbance of the relevant endocrine system will result, because much depends on the level and duration of exposure and on the timing of exposure. Indeed, a large numbers of environmental estrogens are suspected of altering human health as well as the marine ecosystem balance. The objective of this review is to study the different molecular mechanisms of these xenoestrogenes micropolluants, in order to emphasize their potential risk and to present some of the different experimental methods for their detection. L'attention portée aux micropolluants modulant le système endocrinien (perturbateurs endocriniens) est grandissante ces dernières années, essentiellement en ce qui concerne leurs effets sur les animaux. Cette constatation s'est rapidement traduite par une grande inquiétude des médecins et biologistes face aux risques éventuels pour la santé de l'homme. Parmi les effecteurs les plus étudiés, on peut citer notamment ceux qui sont capables de se lier aux récepteurs des œstrogènes cellulaires. En effet, un grand nombre d'œstrogènes contaminant l'environnement sont susceptibles d'altérer la santé humaine et également de perturber surtout l'équilibre des écosystèmes aquatiques. L'objectif de cette revue est d'étudier les mécanismes d'actions de ces micropolluants en particulier les xénœstrogènes, de mettre en valeur leurs risques potentiels sur les êtres vivants et de présenter les différentes méthodes permettant leur détection.
http://dx.doi.org/10.2515/therapie:2007062.
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ABSTRACT: Sodium fl uoroacetate (1080) is a vertebrate pesticide used for controlling fi eld populations of introduced pest mammals in New Zealand and Australia especially. There have been scientifi c and public concerns over the potential for adverse environmental effects of 1080 use. To address one recent concern, an investigation of the potential endocrine-disrupting effects of 1080 and its active metabolite fl uorocitrate was conducted using in vitro assays. Binding of 1080 and fl uorocitrate to rainbow trout brain and human androgen (AR) and alpha oestrogen receptors (ER) was assessed. Neither 1080 nor fl uorocitrate had any effect on ER or AR binding with any of the bioassays employed. Accordingly, 1080 and fl uorocitrate are considered unlikely to promote androgenic, anti-androgenic, oestrogenic or anti-oestrogenic effects by binding to the ER or AR. Published title contains space in "receptors" Yes Yes
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ABSTRACT: Several chemical compounds either synthesized by plants or from industrial origin may mimic or antagonize hormone action. These compounds may interfere with sex hormones such as estrogens or androgens. Various assays to detect endocrine disrupters have been described. The aim of this paper is to give an overview on these assays and on their applications in environmental area.
Revue Française des Laboratoires.
